environmental transport of chemicals
TRANSCRIPT
ORNL-EIS-74-68
ENVIRONMENTAL TRANSPORT of CHEMICALS BIBLIOGRAPHY
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O A K R I D G E N A T I O N A L L A B O R A T O R Y O P E R A T E D BY U N I O N C A R B I D E C O R P O R A T I O N F O R T H E . U , S A T O M I C E N E R G Y ' C O M M I S S I O N
N O T I C E
This report was prepared as an account of work sponsored by tfotf United Stutes Government. Neither the United States nor the United States Atomic Energy Commission, nor nny of their employees, nor any of their contractors, subcontractors, or their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, com-pleteness or usefulness of any information, apparatus, product or process disclosed, or represents that its use would not infringe privately owned rights.
ORNL-EIS-74-68
ENVIRONMENTAL TRANSPORT OF CHEMICALS BIBLIOGRAPHY
Benita K. Wilkinson, Lydia S. Corri l l and Emily D. Copenhaver
Toxic Materials Information Center Environmental Information System Office
and Ecology and Analysis of Trace Contaminants Program
Work Supported By Environmental Protection Agency
*iPA Agreement No. EPA-1AG-185 (D) and
National Science Foundation NSF Interagency Agreement No, AG-389
MAY 1974
Oak Ridge National Laboratory Oak Ridge, Tennessee 37830
operated by UNION CARBIDE CORPORATION
for the U.S. ATOMIC ENERGY COMMISSION Contract No. W-7405-eng-26
DISTRIBUTION OF THIS DOCUMENT IS ONOHtTfli
i i i
CONTENTS
Introduction . . . . • v
Bibliography . . • . » • . * . « « t
Author Index . • . , » 103
Keyword Index 133
V
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This selected annotated bibliography 1s a by-product of the blbl io-graphic data base created and used by the Toxic Materials Information Center* Environmental Information System Office* GaK Ridge National laboratory, in providing Information retrieval and document acquisition services to the Environmental Protection Agency-Atomic Energy Commission Study on Environmental Transport of Chemicals* The documents cited here have been acquired and constitute the l i terature being evaluated by ecologists engaged in the assessment of a strategy of experimental testing for environmental transport that is reasonably predictive of real situations, The ultimate product of the study w i l l be a vr i t ten report evaluating the merits of the test methods Identif ied through the l i terature search and consultation with other scientists 1« the appropriate disciplines. This 1s an almost in f in i te ly complex task which must provide Information on the usefulness of tests In extrapolating data to real ecosystems, the ease, practicality* and costs of conducting the tests,, special equipment arid expertise required, and last ly the u t i l i t y of the test procedures in constructing standardized testing strategies for evaluating environmental transport of chemicals* In constructing, these strategies numerous factors must be considered such as the ab i l i t y of the tests to duplicate such processes as percolation* adsorption, biological accumulation and magnification* and chemical trans* formations. The usefulness of the scheme for testing various classes of chemicals* degrees of persistences* and routes and rates of entry of chemicals Into the environment also must be considered.
This study* under the direction of John w* Mitherspoon* project o f f icer , is being conducted in the Environmental Sciences Division of Oak Ridge National laboratory under an interagency agreement with the Office of Toxic Substances* Environmental Protection Agency* Washinoton* DC.
Of necessity* this bibliography is much broader than the documents selected from this data base pertinent to the assessment of testing protocols. Thus i t <teats with environmental transport of chemicals In general with no restrictions on the type of chemical substance or type of study being reported (experimental,,modeling* analysis, etc.)* The Toxic Materials Information Center*operated primarily as a support information systen for the NSF-RANN supported Ecology and Analysis of Trace Contaminants Program, has found suff icient demand for Information in this area of concern to make this data collection available in bibliographic form*
He would l ike to acknowledge the contributions of several persons to the preparation of this bibliography: John ttitherspoon and his staff of ecologlsts who guided us in preparing our l i terature search strategies; Opal Russell and others of the ORNt Central Research l ibrary who assisted us in the acquisition of the thousand documents required; the Computer
vi
Sciences Division for development and execution of the computer PUBLISH Programs; and Sharon K. Smith, TMIC, and the EISO Central Services Staff who assisted with the copious details of cataloging and processing the items making up this collection.
1 1
\ S o i l - f l o i s t u r e a n d I r r i g a t i o n S t u d i e s . I T .
P a r t o f P r o c e e d i n g s o f a P a n o I o n t h e U s e o f H u c l t i a r T e c h n i q u e s I n s o i l P h y s i c B u n a I r r i g a t i o n S t u d i o n O r g a n i s e d b y t h a J o i n t P A O / I A B A D i v i s i o n o f A t o a i c E n e r g y i n P o o d a n d A g r i c u l t u r e , I n t e r n a t i o n a l A t o a i c B n o r g y A g e n c y , V i e n n a , 1 9 7 3 ; 1 9 ? 3
S O I L S ; M O I S T U R E ; I R R I G A T I O N ; R E C L A n A T t O R ; N A T E R
2 * C a t « o f R e a e a t c h i n A q u a t i c P o s t C o n t r o l a n d P o n t i e U « R e s i d u e i n A q u a t i c Z n v i s o n a o n t a
: O . S , S o v i r o n a e n t a l P r o t e c t i o n A g e n c y , o f f i c e o f w a t e r F r o g m a n , R u r a l tfaatea a r a r v c h
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7 n i c r o c o n s t u d i e s o n E s t u a r l n e H a t e r s . I I . T h o e f f e c t ' s o f S i n g l e D o s e s o f N i t r a t e a n d p h o s p h a t e
A b b o t t , W .
j r . U P C P , 3 9 ( 1 ) , 1 1 3 - 1 2 2 ; 1 9 6 7 , J a n u a r y
H O L I S T I C E C O L O G Y ; A L G A E ; A N A E R O B I O S X S ; O R I H O f H O S P H A T E j N I T R A T E S ; P H O S P H A T E S ; S E W A G E ; I N D U S T R I A L W A S T E W A T E R S ; H X C R O C O S f l S ; E S T U A R I E S
B n t c r o c o a * S t u d i e s o n S a t u a r l n e M a t e r s I . T h a R o f l i n a b i l i t y o f n i c r o c o s s s
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W X C R C C O S H S ; ftODKL; T f i O P H O D f H A W I C S T U D I E S ; B O O ; C A R S O V flXCROCOSHS; D I V E R G E N C Y , B S T t t A F I C S ; S A I T M A T S R
9
E f f e c t o f t h o C a n a l I r r i g a t i o n J y a t e a O s e d i n t h e O A R e n t h e P a r n i a t e n c o o f S o i l X n s e e t i c l A o
A b d e l > c a v a a d , A . A . ; i t a e a d , I . A . ; E l ~ G a y a r , P . M . ; P l a n t P r o t e c t . D e p . , H i g h I n s t , c o t t o n A f f a i r s , A l e x a n d r i a * t ! A ! t
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S O I L S ; n U E A K D O H N P R O D U C T S ; L S A C K i f t G ; C H L O B I N A T C D H * C « O C A a B O « ; O i l C A N O P H O S P M O S U S I N S E C T I C I D E S ; O K O N A T S ; S N D N I N ; C H I O B D E C O S E
10 E f f e c t o f C a l e i u e C h l o r i d e o n P r o a s t r y n o a n d r i u o t t t t t u c o n A d s o r p t i o n i n S o i l
A f e e r n a t l t y , 4 . f t . ; O a v i d a o R ^ J . B .
m m S c l . 1 9 S 1 7 - 5 2 1 ; B 7 1
t t e « t » I C I 9 S S ; S O I L S ; C A L C I O f ! C H L O R I D E ; P R O I t F T R V N E ;
r L « 0 ) ? « f a s < » » A 6 S O S P T I O S
11 M n a t z t a n m o b i l i t y v e n d A d s o r p t i o n i n T w e l v e I l l i n o i s * 5 o i l »
J . R . ; U a x , L . i i . ; » « p . A ^ r o n . , t l n i v . I l l i n e i ^ , U r b a n a , I t t
s c i . ( W E C S A 6 ) 2 1 ( 3 1 , 2 2 ® - 2 2 7 ; 1 9 7 1
i t £ * T A Z 0 « ; I O » £ X C M A » G £ t E S X W ; H E « S { C I D S S ; A O S O f f T I O N j " t o a i L T T t ; T 9 I . N S P 0 3 T ; S O F L S
1 2
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A e t » c , r . , 4 r . : s e r o s a , n . : s o v a a n , « . c .
A ^ t i c a U t t c a l a n d P o o d C l j e s i f i t r y 1 1 , 2 7 8 - 2 S 0 ; 1 9 6 3
C O M S t l L L A T I O j * ; 0 » T ; 8 A S S O U - S C M O L T 2 X * E 0 9 A T I O S ;
154
13 Factors Influencing Soil Adsorption and Bioaetivity of Pesticides
Adaas, R.S.
Residue Re*. 07, 1-54; 1973
ADSORPTION; PESTICIDES; CLAY CONTENT; MOLECULAR STRUCTURE; WATER; SOLUBILITY; COLLIODAL NATDRB; CHGAKTC HATTER; FIELD MOISBTRE CAPACITY
14 Effect of Soil Organic Natter on the Hoveaent and Activity of Pesticides in the Environment
Adaas, R.S.; Soil Sci. Dep., Univ. Minnesota. St. Paul, Minn.
; 1 9 1 2
MOVEMENT; REVIEW; PESTICIDES; SOILS; CRGANOCHLORINE; INSECTICIDES; TRAIZINE; HERBICIDES; ORGANIC
15 A Note on Resolving Soil cation Exchange capacity into Mineral and Organic Fractions Addiacott, T.d.
J . Agr. Sci. 75(2), 365-367; 1970
niSfcCALS; ORGANIC; DETERMINATION; CATION; eitCHANOE CAPACITY
16 nitrate and Salt in Soils and Ground Haters froa Land Disposal of Dairy Manure
Adriano, D.C.; Pratt, P.P.; Bishop, S.E.
Soil Sci Soc Aw Proc 35 (5), 759-762; 1971
NITRATES; SOILS; GROUND WATER? LAND DISPOSAL; DAIRY HANORR; CORRAL; PASTURES; CROPLAND; SALINITY; LEACMSNG; WATER; MANURES
17 Nitrate in Unsaturated Zone of an Alluvial Soil in Relation to Fertilizer Nitrogen Rate and Irrigation Level
Adtianfe, D.C.; Pratt* P.P.; Takttori, F.8.
J Environ Qual 1 (4|„ (Reed 1973) 418-422; 1972
DRAINAGEt WATER; RECYCLING; WATER USE; DENITRIFICATION; IRRIGATION; SOILS; FERTILIZER TAXONOMY* ASPARAGBS-OFPICIWALIS; APIUH-GRAVROLENS
159 Long-Lived Pollutants in Sedinents from the Laguna Atascosa National Wildlife Refuge, Texas
Ahr, H.M.; Dep. Geol., Texas ASK Univ., College Station, TX
Geol. Soc. Aaer. Bull. (BUGNAF) 84(8), 2511-2515; 1973
DDT; SEDIMENTS; SOILS; LEAD; ARSENIC; ORGANCCHLORINB; INSECTICIDES
19 Relative Exchange Capacity of Ion Exchanger Depended on pH During the Sorption of Organic Ions
Al'Tshuler, G.N.; Savel'Ev, E.A.; Novokozn^tsk. Hauchno-issled. Khia.-Fara. Inst., Novokuznetsk, USSR
Zh. Fiz. Khin* (ZFKHA9), 46 (10), 2577-9; 1972
EXCHANGE CAPACITY; PH; SORPTION; ION EXCHANGE; ORGANIC; IONS
20 Fate of DDT in Severn Estuary Sediients
Alfcone, E.S.; Eglinton, G.; Evans, N.C.; Hunter, J.M.; Ahead, m.M.; Sch. chei., Univ. Bristol, Bristol, Engl.
Environ. Sci. Technol. (ESTHAG) 6 (10) 9H*~19; 1*72
DDT; DEGRADATION; BACTERIA; SEDIMENTS; ORGANOCHLORINE; ESTUARIES; HODS
21 Characteristics and Quantitative Prediciton of the Accumulation of strontiun-90 in Woody Plants
Aleksakhin, R.H*; Naryshkin, n.A.; Bocbarova, H.A.
Doklady Akadeaii {auk SSSR Seriya Biologiya 193(5), 1192-1194; 1970
PINB G; BIRCH D; SOILS; APPLICATION; UPTAKE; PEBSISTAHCEj FORMULA; PLANTS; ACCUMULATION; STRONTIUM 90
22
Microbiological Aspects of Soil Pollution
Alexander, R. Part of Westley, B. (Ed.), Identification and Reaaureaent of Bnvironaental Pollutants. Syapoaiua. Ottawa, Ontario, Canada, 451p. National Research Council; Canada, (78-80); 1971, June 14-17
MICRCORGANISRS; PESTICIDE DEGRADATION; SOLID WASTE DISPOSAL; BIOLOGICAL TRANSFORMATION; PESTICIDES; SOILS; SOIL POLLUTION
3 23
20 The Adaptation of Heterotrophic Microcosms to Different Temperatures M i l e s , S . D . ; Brock, T.D.; Department of Microbiology, Indiana University, Blooaington, IB 471)01
ecology, 49(2), 343-346; 1968, January 5
ADAPTATION; MICROCOSMS; TBHPBRATURE; PLANTS; ASlHALS; CARBON 14; TERRESTRIAL ECOSYSTEMS
24 Heavy Metal Content of Plants Growing on Soils Contaminated by Lead Mining
Alioway, B . J.; Daviea, B.B.
J. Agr, Sci 76(2), 321-323; 1971
OPTAKR; POLLUTION; BBAVI HBTALS; PLAHTS; SOILS; LEAD; MINING
26 influence of Sanitary Landfill on Ground Water Quality
Andersen, J.R.; Dornbush, J.II.
Jour. Amer. Water Works Assoc., 59(4), 437-470; 1967, April
SANITARY LANDPILLS; GROUNDWATBR; WATER; LEACHING
2 9 Effect of Hncor-Alternans on the Persistence of DDT and Dieldrin in culture and in soil
Anderson* J.P.E.; £ichtenstein, B.P.; Whittinghaa, W.F.
J. Econ. Bntomol., 63(5), 1595-1599; 1970
PERSISTENCE; DDT; DIELDRIN; CULTURES; SOILS; INSECTICIDES
TAXONGMY: HUCOR ALTERNANS
25 Soae Factors influencing susceptibility of Bainbov Trout to the Acute Toxicity of an Ethyl Mercury Phosphate Poraulation
Amend, D.p.; Yasutake, W.T.; Morgan, R.
Aaer. Fish. Soc., 98, 419-425; 1969
RAINBOW TROUT; WATER; TEMPERATURE; HARDNESS; l\CUTE TOXICITY; BJHYL MERCURY PHOSPHATE; FISH; CALCIUM CARBONATE: MERCURY
TAXONOMY: SALMO GAIRDNERX
30 Periodic Variation in Physical and chemical Properties of 2 Central Washington Soils
Anderson, T.D.; Tiedemann, A.R.
U.S. Forest Serv. Res. Note PNW 125, 1-9; 1970
CATION; EXCHANGE CAPACITY; MINERAL CONTENTS: CHEMICAL PROPERTIES; PHYSICAL PROPERTIES; FORESTS; PERIODICITY; SOILS
26 Biological Availability of Minor Mineral Ions. Review.
Aaaeraan* C.B.; Miller, S.H.; Dep. Ania. Sci., Univ. Florida, Gainesville, FL
J. Ania. Sei. (JANSAG), 35(3), 661-94; 1972
REVIEW; TRACE ELEMENTS; NUTRITION; LIVESTOCK; MINERALS; TONS; BIOLOGICAL AVAILABILITY
27 plant Accumulation of Radioactive Strontium with Special Reference to the strontium—Calcium Relationship as influenced by Nitrogen
Andersen* A.; Danish Atomic Energy Commission, Biaoe. Research Establishment
Danish Atomic Energy Commission, Risoe. Research Establishment (RISO-278); 1973, January
AGRICULTURE; BARLEY; BIOLOGICAL VARIABILITY; CALCIUM; FALLOUT DEPOSITS; FERTILIZERS; GRASS; NITROGEH; OATS; PHOSPHATES; PLANTS; RADIONUCLIDE KINETICS*. RADIONUCLIDES; MIGRATION; ROOTS; ABSORPTION; SOILS; STRONTIUM; STRONTIUM 88; STRONTIUM 89; STRONTIUM 90; TRACERS UPTAKE; BIOACCUHOLATION
31 Partition Coefficients for Iron, Manganese, Lead, Nickel, Zinc, and copper Between River Water and Suspended Load, and Mineralogical Composition of Suspended Load of Selected Kansas River Systems: Project Completion Rept. Jul 69-Dec 70
Angino, E.E.; Nagnuson, L.N.; Waugh, T.C.; Evans, T.; Kansas Water Resources Research Inst., Manhattan
Report No. Contrib-80; contract DI-14-31-3046; Monitoring Agency Rept No. w 7 2 - 0 6 2 8 5 ^ OWRR-A-030-KAN (1) ; PrO"J. OWRR-A-030-KAR; PB20776, 126 p.; 1972, Jan.
PARTITION COEFFICIENTS; WATER ANALYSIS; WATER CHEMISTRY; ADSORPTION; HBTALS; CLAYS; MINERALS; HONTNOBILLONITE; PARTITIONS NATHBMAT1CS; GEOCHEMISTRY; RIVERS;' IRON; MANGANESE; NICKEL; LEAD; COPPER; ZINC; WATER POLLUTION; TRACE ELEMZNTS; SUSPENDED SEDIMENTS; LIMNOLOGY; LOAD; SEDIMENTS
32 Ground-Water Pollution Potential of a Landfill Abcve the Water Table
Apgar, M.A.; Langmuir, D.
Ground Water, 9(6), 76-96; 1971
GROUND WATER; LANDFILL
33 a
33 Uptake of Magnesium and Trace Elements by the Herbage of a Reseeded Upland Pasture
Archer, P.C.
J. SCl. Food Agr. 21(6), 279-281; 1970
PLANTS; UPTAKE; MAGNESIUM; TRACE ELEMENTS; PASTURE
34 Disappearance of Herbicides from Irrigated soils
Brie, H-F.; Miller, J.H.; Sheets, T.J.
Weeds, 13(1), 56-60; 1965, January HERBICIDES; SOILS; IRRIGATED S O U S ; COTTON; 3-fP-CHLOROPKENYL-1)-1, DINETHYIUREA (MONURON); 3-(3,U-DICHLOROPHENYL)-1,1-DIMETHYLUREA (DIURON); 3-PHENYL-1,1-DIMETHYLUREA (FENURON); CHLOROSIS; BARLEY; OATS; BT.0ACCUMULATION
35 Mathematical Models for the Dispersion of Radionuclides in Aquatic Systems
Armstrong, N.E.; Gloyna, E.F.
Part of Nelson, C.J. (Ed.), Evans, F.C. (Ea.), Symposium on Radioecoiogy, Proceedings of Second National Symposium, Held in Ann Arbor, HI, May 15-17, 1967 (p 329-335); 1968
MODEL; DISPERSION; RADIONUCLIDES; AQUATIC ECOSYSTEMS
36 Effect of Metribuzin «nd Two Analogs on Five species of Algae
Arvik, J.ff.; Hyzak, D.L.; zimdahl, R.L.; Dep. Bot. Plant Pathol., Colorado State Univ., Fort Collins, CO
Weed sci. (WEESA6), 21(3), 173-17?; 1973
METRIBUZIM; ANALOGS; SOILS; ALGAE; HERBICIDES; CRLAMYDOHONAS
TAXONOMY: CHLORELLA; SCHIZOTHRIX; ANABAENA; CHLOROCOCCUM; CHLAMYDOMONAS
37 Uptake and Distribution of Polonium-210 and Lead-210 in Tobacco Plants
Athalye, V.V.; Histry, K.B.
Radiat Bot 12 (6) 421-425; 1972
GROWTH; UPTAKE; DISTRIBUTION; POLONIUM 210; LEAD 210; TOBACCO PLANTS
TAXONOMY: NICOTIANA-TABACUM
38 Foliar Retention Transport and Leaching of Polonium-210 and Lead-210
Athalye, V.V.; Histry, K.B.
Hadiat Bot 12 (4). 287-290; 1972
REE KIDNEY BEAN; TRANSPORT; F0LIAH RETENTION; LEACHING; POLONIUM 210; LEAD 210
39 Rate of Accumulation of chlorinated Hydrocarbon Pesticide Residues in Adipose Tissue of Mink
Aulerich, B.J.; Ringer, R.K.; Polin, D.
Can. J. Zool., 50(9), 1167-1173; 1972
ANIMAIS; PESTICIDES; CHLORINATED HYDROCARBON PESTICIDES; ACCUMULATION; ADIPOSE TISSUE; MINK
UO Possible Microbial Contribution to Kitrosamine Formation in Sewage and Soil
Ayanaba, A.; Verstraete, W.; Alexander, B.; Dep. Agton., Cornell Univ., Ithaca, N.Y.
J. Nat. Cancer Inst., 50(3), 811-813; 1973
MICROORGANISMS; SEWAGE; DIMETHYLAMINE; NITBOSAMINE; FOBMATION; SOILS
41 Mean Contents of Trace Elements in the Bottom Sediments of the Black Sea
Babinets, A.E.; Mitropolsky, A.Y.
Dopov. Akad. Nauk Ukr. RSR, Sec. B-No. 3, 258-60; 1962, March
TVACH ELEMENTS; BOTTOI SEDIMENTS; SEDIMENTS; SEA WATFfi?
42 Zinc-65 in Studies of the Freshwater Zinc Cycle
Bachmann, B.W. Part of Schultz, V. (Ed.), Klement, A.M. (Ed.), Radioecoiogy, Reinhold Publishing, MY, and AIBS, Washington, DC (p. 485-496); 1963
ZINC 65; CYCLE; RADIOECOLOGY; FRESHWATER
43 Uptake of Zn65 and Primary Productivity in Marine Benthic Algae
Bachoann, R.P.; Odum, E.P.
Limnology and Oceanography, 5(4), 349-355; 1960, October
PRODUCTIVITY; BBNTHTC ALGAE; ZINC 65; SALTWATER; UPTAKE BATES; ALGAE
TA JtONCMY: CHAETOMORPHA
44 On the Similitude of Dispersion Phenomena in Homogeneous and Isotropic porous Medians
Bachmat, Y.; Tahal, Water Planning for Israel Ltd., Tel Aviv
Water Resources Research, 3(ft), 1079-1083; 1967
DISPERSION; POROUS MEDIUMS; GROUND HATER; DENSITY; VISCOSITY; SIMULATION; PECLET NUMBERS; DARCY'S LAW
19 Uptake of solutes by Multiple Root Systens from Soil- III. Model for Calculating the Solute Uptake by a Randomly Dispersed Hoot Systen Developing in a Finite Volume of Soil
Baldwin, J.P.; Nye, P.H.; Tinker, P.B.; Dep. fcgric. Sci., Univ. Oxford, Oxford, Engl.
Plant Soil (PLSOA2), 38 (3), 621-635; 1S73
UPTAKE; ROOTS; NUTRIENTS; ABSORPTION; MODEL; SOILS
45 Uptake of Phosphous by Young Apple Trees During Vegetation
Badras, V.G.; USSR
Tr. Nauch. -Issled. Inst. sadovod., vinograd. Vinodel., Tachkent (TSVUAQ) 32, 136-142; 1970
PHOSPHORUS; UPTAKE; APPLE TREES; TRANSLOCATION; GROWTH; SEASONS; FRUITS; TREES
50 Translocation of Phosphorus in a Trout stream Ecosystem
Ball, R.C. ; Hooper, F.F.
Part of Schultz, V. (Ed.), Klement, A.W. (Ed.), Radioecology, Reinhold Publishing, NY, and AI8S, Hashington, DC (p. 217-228); 1963
TRANSLOCATION; PHOSPHORUS; STREAM ECOSYSTEM; AQOATIC ECOSYSTEMS; TROUT
46 The Supply of Nutrient ions by Diffusion to Plant Roots in Soil. Part Direct Determination of Labile Phosphate Concentration Gradients in a Sandy Soil Induced by Plant Uptake
Bagshaw, R-; Vaidyanathan, L.V.; Nye, P.H.
Plant Soil, 37(3), 617-626; 1972
NUTRIENTS; DIFFUSION; ROOTS; UPTAKE; ONIONS; PHOSPHORUS 32; EXCHANGEABILITY; DEPLETION ZONE; SOILS; PLANTS
47 Factors Influencing the Adsorption, Desorption and Movement of Pesticides in Soil
Bailey, G. W.; White, J. L.
Part of Gunther, Francis A. (Ed) . Residue Reviews, Vol. 32. Traizine Herbicides. Symposium. 413 p. Springer-Verlag; New York, NY, USA: Hiedelberg, West Germany, (29-92).; 1970
INSECTICIDES; HERBICIDES; PHYSICAL PROPERTIES; CHEMICAL PROPERTIES; SOILS; ADSORPTION; DESORPTION: MOVEMENT; PESTICIDES
0 8
A New Approach to Soil Testing
Baker, D.E.
Soil Sci., 112(6), 381-391; 1971 SOIL TESTING; NUTRIENT AVAILABILITY; SOILS; POTASSIUM; MAGNESIUM; CALCIUM
51 Influence of a Heavy Phosphate Dressing and Subseguent Radiata Pine Response on the Properties of a Riverhead Clay Soil
Ballard, R.
N. Z. J. For. Sci. 2(2), 202-216; 1972
PINE; CLAY; MYCORRHIZA; PHOSPHORUS; PH; EXCHANGEABLE SODIUM; TREES; FORESTS; SOILS; SODIUM
TAXONCHY: PINUS HADIATA
52 Role of Humic Carrier Substances in DDT Movement Through Forest Soil
Ballard, T.M.
Soil Sci Soc Amer Proc 35 (1), 145-147; 1971
LYSIMETRY; INSECTICIDES; HUMUS; DDT; TRANSPORT; SOILS; PORESTS; MOVEMENT
53 Heavy Metals in Sediments of the Rivers Danube, Rhine, Ems, Weser, and Elbe in the Area of the Federal Republic of Germany
Banat, K.; Foerstner, U.; Mueller, G.; Lab. Secimenforsch., Univ. Heidelberg, Heidelberg, Ger.
Naturvissenschaften(Natway), 59(12), 525-8; 1972
HEAVY METALS; SEDIMENTS; RIVERS; METALS; CLAYS; MERCURY; LEAD; CADMIUM
5U
5 u Pate of Synthetic Detergents in Soil and Ground Water
Banerji, S.K.; Ewing, B.B.; Illinois Univ., 'Icbana. Dept. of Civil Engineering.
Report No. Sanitary Engineering Ser-33; Grant PNS-WP-00018; Monitoring .'.gency Rept. No. 18; F; Nov. 65; PB 216925; 11"»p.; 1965, January
ABS; BIOLOGICAL SLIME; PERCOLATION; BIODEGftADATION; RETENTION; PH; TEMPERATURE; WATER POLLUTION; SURFACTANTS; DETERGENTS; SOIL PROPERTIES; TRANSPORT; SOTLS
5 r « Transfer of 65Zn and 51Cr Through an Estuarine Food Chain
Baptist, J.P.; Lewis, C.W.; Bureau of Commercial Fisheries, Radiobiological Laboratory, Beaufort, NC
Proc. 2n<l Natn. Syasp. Radioecology, Ann Arbor, 420-130; 1967
FOOD CHAIN; PHYTOPLANKTON; BRINE SHRIMP; POSTLARVAL FISH; MUMMTCHOG; TROPHIC LEVELS; ESTUARIES; ZINC 65; CHROMIUM; ZINC; CHROMIUM 51; SHRIMP
56 The Influence of the plant Foot System in the Evaluation of soil Fertility
Barber, S.A.
Part of Kanwar, J.S. (Ed.), International Symposium on Soil Fertility Evaluation, Vol. 1, Indian Society of Soil Science, Indian Agricultural Research Institute; New Delhi, India (249-256); 1971
NUTRIENTS; ABSORPTION; RHIZOSPHERE; ION COMPOSITION; TRANSPORT; PLANTS; ROOTS; SOILS; SOIL PERTILITY
S 7 The Effects of an Acute Insecticide Stress on a Semi-Enclosed Grassland Ecosystem
Barrett, G.w.
Ecology, 49, 1019-1035; 1968
INSECTICIDES; GRASSLAND; ECOSYSTEMS
58 Effects of Diaethoate on Small Mammal Populations
Barrett, G.w.; Darnell, R.M.; Department of Biology, Marquette University, Hilvaukee, WI 53233
T»K* American Midland Naturalist, 77(1), 164-175; 1V67, January
DIMETHOATE; MAMMALS; INSECTICIDES; LIVE TRAPPING GRIDS
T A X O N O M : HICPOTtIS OCHROGASTERj BUS MUSC0L0S; PEROWYSCUS MANICtJLATOS
59 Molybdenum Uptake of Marine Plankton Algae
B a r s d a t e , R . J . ; G u i l l a r d , R . R . L .
Biological Bulletin, 121, 373; 1961, Jan-Jun
MOLYBDENUM; UPTAKE; MARINE ALGAE; ALGAE; PLANKTON; ESTUARIES; MOLYBDENUM 99; SALT-WATER
TAXONOMY: COCCOLITHUS HUXLEYI; CYCLOTELLA NANA; SYNECH0C0CCU5 SP.
60 Lead Uptake and Corn-M Growth vith Soil Applied Lead
Baumhardt, G.R.; Welch, L.F.
J. Environ. Qual. 1(1), 92-94; 1972
SOILS; LEAD; UPTAKE; CORN-M; GROWTH
TAXONOMY; ZEA-MAYS-M
61 Reduction of Inorganic Compounds by Soil Microognanisms
Bautista, E.M.; Alexander, H.
Soil Sci Soc AD Proc 36 (6), 918-920 (RECD 1973); 1972
MICROORGANISMS; REDUCTION; SOILS; INORGANICS
TAXONOMY: PICHIA-GUILLERMONDII;WICROCOCCUS-SP
62 The Chesapeake Bay Study and Hydraulic Model
Beal, Cpt. Kenneth L. Part of Section of Biology, Forty-eighth Annual Meeting of The Virginia Academy of Science, May 6-8, 1970, Richmond, Virginia; 1970
HYERA0LIC MODEL; WATER; UTILIZATION; CONTROL
63 Insecticide Depth in Soil. Effect on Soybean Uptake in the Greenhouse
Beall, M.L.; Nash, R.G.; Plant Sci. Res. Div., Agric. Res. Serv., Beltsville, MD.
J. Environ. Qual. (JEVQAA) 1 (3) 283-8; 1972
DDT; UPTAKE; SOILS; ENDRIN; DIELDBIN; INSECTICIDE RESIDUES; SOYBEANS; INSECTICIDES; GREENHOUSES
7 64
64 Crop Seedling Uptake of DDT, Dieldrin, Endrin, and Heptachlor from Soils
Beall, M.L.; Nash, R.G.
Agronomy J., 61, 571-575; 1969, July - August
UPTAKE; DDT; DIELDRIN; ENDRIN; HEPTACHLOR; SOILS; GREENHOUSE EXPERIMENTS; SOYBEANS; WHEAT; CORN; ALFALFA; BROMEGRASS; CUCUMBERS; INSECTICIDES; PESTICIDES; ABSORPTION; RESIDUES
65 Effects of an Artificial Stream on Harine Communities
Bellan, G.
liar Pollut Bull, 3(5), 74-78; 1972
ARTIFICIAL STREAMS; MARINE COMMUNITIES; FLORA; FAUNA; LAGOON; URBANIZATION; INDUSTRIALIZATION; MODEL ECOSYSTEM; AQUATIC ECOSYSTEMS
66 Dynamics of Phosphorus Compounds in Brown Forest Soils of the Humid Subtropics on the Black Sea Coast of the Caucasus
Belousov, V.S.
Sov. Soil Sci., 2(6), 711-718; 1970
PHOSPHORUS; SUBTROPICS; FORESTS; NUTRIENT AVAILABILITY
67 Forest Soil Improvement Through Chemical Amendments
Bengtson, G.W.
J. Forest, 68(6), 343-347; 1970
MINERALS; FERTILIZERS; NUTRIENTS; CYCLING; SOILS; FOPESTS
fi 8 The Water Chemistry of Microcosms Associated with the Broraeliad Aechmea bracteata-M
Benzing, D.H.; Derr, J.A.; Titus, J.E.
Am Midi Nat 87 (1), 60-70; 1972
FLORA; FAUNA; AQUATIC ECOSYSTEMS; MICROCOSMS; WATER CHEMISTRY
TAXONOMY: BROME1IAD; AECHMEA-ERACTEATA-M
69 initial Biological Availability of the Heavy Metal Ruthenium in Fresh Water. Part 1. Influence of Salts, Animal Species and Temperature Under Controlled Conditions
Begue, H.; Van Puymbroeck, s.; Jaumier, J.; Bittel, R.; Van Der Borght, 0.
Environ. Physiol., 1(1), 37-50; 1971
BIOLOGICAL AVAILABILITY; HEAVY METALS; RUTHENIUM; FRESHWATER; SALTS; TEMPERATURE; ANIMALS
TAXONOMY: LYMNAEA-STAGNALIS; ALBURNUS-LUCIDUS
70 Lead Absorption from Soil Into Legumes-D
Becg, M.H.
J. Minn Acad Sci 36 (2-3), p.96; 1970 BEAN-E; PEANUT-D; LEAD; SOILS; LEGUMES-D; ABSORPTION; PLANTS
71 Evaluation of the Risks Belated to the Discharge of Radioactive Isotopes in a Marine Ecosystem. I. A Comparison Between the Concentration Factor Approach and the Specific Activity Approach
Becnhard, M.
Rev. Int. Oceanogr. Med. 20, 125-131; 1970
AQUATIC ECOSYSTEMS; COASTAL WATERS; HARINE DISPOSAL; RADIOACTIVE WASTE DISPOSAL; RADIOECOLOGY; RADIOISOTOPES; RADIONUCLIDE MIGRATION; SEA WATER; STANDARDS
72 Balanced Aquatic Microcosms—Their Implications for space Travel
Beyers, R.J. ; Institute of Marine Science, The University of Texas, Port Aransas, Texas
The American Biology Teacher, 26(6, 422-429; 1963, October
MICROCOSMS; SPACE TRAVEL; METABOLISM; CLOSED MICROCOSM; AQUATIC ECOSYSTEMS
73 Relationship Between Temperature and the Metabolism of Experimental Ecosystems
Beyers, R.J.; Institute of Marine Science, The University of Texas, Port Aransas, Texas
Science, 136, 930; 1962, June 15
TEMPERATURE; METABOLISM; EXPERIMENTAL ECOSYSTEMS; AQUARIA; AQUATIC ECOSYSTEMS
7tt 8
74 A Charicteristic Diurnal Metabolic Pattern in Balanced Microcosms
Beyers, R.J.; institute of Marine science, The University of Texas, Port Aransas, Texas
Texas Univ. Inst, of Marine Science, 9, 19-27; 1963, Dec.
DIURNAL METABOLIC PATTERN; MICROCOSMS; METABOLISM; METABOLIC RATES; PHOTOSYNTHESIS; AQUATIC ECOSYSTEHS
75 The Metabolism of Twelve Aquatic Laboratory Microecosy steins
Beyers, R.J.; Institute of Marine Science, The University of Texas, Port Aransas, Texas
Ecol. Monographs, 33 (U), 281-306; 1963
METABOLISM; MICROECOSYSTEflS; AQUATIC ECOSYSTEMS; PRODUCTION; RESPIRATION; PRODUCTION-RESPIRATION RATIO; METABOLIC QUOTIENT; EFFICIENCES; ILLUMINATION; ENERGY; PH; CARBON DIOXIDE; OXYGEN; OXYGEN TENSION; PHOTOPERIOD
76 The Microcosm Approach to Ecosystem Biology
Beyers, R.J.; Institute of Radiation Ecology, University of Georgia, S.R.O.O., Aiken, South Carolina
The American Biology Teacher, 26(7), pp. 491-498; 1964, November
MICROCOSMS; ECOSYSTEMS
77 The Pattern of Photosynthesis and Respiration in Laboratory Microecosystems
Beyers, R.J.; Dept. of Zoology and Institute of Radiation Ecology, University of Georgia, Athens, Georgia
Mem. Ist. Ital. iarobiol., 18 Suppl., 61-74; 1965
PHOTOSYNTHESIS; RESPIRATION; MODEL ECOSYSTEM; AQUATIC ECOSYSTEMS; METABOLIC RATE; PHOTOPERIOD; METABOLISM; ELECTRIC ANALOG CIRCUIT; MODEL
78 Water Relations, Salt Balance, and Nitrate Leaching Losses of a 960 Acre Citrus-D Watershed
Bingham, F.T.; Davis, S.; shade, E.
Soil Sci., 112(6), 410-418; 1971
SALT BALANCE; NITRATE; LEACHING; CITRUS-D; WATERSHEDS; IRRIGATION MANAGEMENT; TRANSPIRATION
79 Method of Evaluating Chemical Pollution Levels in Aquatic Media and Food Chains
Bittel, R.; Lacourly, G.; C.E.N., Fontenay-Aux-Roses, Fr.
Rev. Int. Oceanogr. Med (D8MMYC) 22, pp. 129-141; 1971
FOOD CHAIN; FALLOUT; AQUATIC MEDIA; RADIONUCLIDES; AQUATIC ECOSYSTEMS
80 Influence of Nitrogen Source on Phosphorus Uptake by Ccrn-M from Soils Differing in pH
Blair, G.J.; Mamaril, C.P.; Miller, M.H.
Agron. J., 63(2), 235-238; 1971
NITROGEN; PHOSPHORUS; UPTAKE; CORN-M; SOILS; MONO-CALCIUM PHOSPHATE; AMMONIUM SULFATE; POTASSIUM NITRATE; PH; SOIL-ROOT INTERFACE; ACIDITY
81 Effects of Recent and Past Phosphate Fertilization on the Amount of Phosphorus Percolating Through Soil Profiles into Subsurface Waters; Completion Rept Jul 70 - Jun 71
Blanchar, R.W.; Kao, Chun-Wie; Missouri Water Resources Research Center, Columbia
Missouri Water Resources Research Center, Columbia; PB 204 702; Contract Dl-14-31-0001-3225; Monitoring Agency Rept No. W72-01691, OWRH-A-031-MO (1); Proj. OWRR-A-031-MO; 106 p.; 1971, July
NUTRIENTS; SOIL PROFILES; SOIL HORIZONS; SOIL PROPERTIES; IRON INORGANIC COMPOUNDS; ALUMINUM PH0SFHATE; SOIL CHEMISTRY; THESES; GROUND WATER; WATER ; PHOSPHATES; FERTILIZERS; PHOSPHORUS; SOILS; PERCOLATION
82 Absorption of Arsenate Ions by Chlorella: Partial Reduction of Arsenate to Arsenite
Blasco, P.; Gaudin, C.; Jean jean, R.
Conpt. Rend. Hebd. Seances Acad. Sci. Ser. Sci. Nat. (Paris), 273(9), 812-815; 1971
ABSORPTION; ARSENATE; IONS; REDUCTION; ARSENITE; AUTORADIOGRAPHY; CENTRIFUGATION; LIGHT; TEMPERATURE
TAXONOMY: CHLORBLLA
9 91
83 Absorption of Arsenate Ions by Chlorella Algae partial Reduction of Arsenate to Arsenite Characteristics
Blasco, P.; Jeanjean, R.; Gaudin, C.
Compt. Rend. Ilebd. Seances Acad. Sci. Sor. D. Sci. Nat. 275(12), 1223-T226; 1972
ABSORPTION; ARSBMATE; ALGAE; REDUCTION; PHOTOSYNTHESIS; RESPIRATION; DARKNESS; ARSKNITE
TAXONOHY: CHLORELLA
Btt Mathematical Models for Predicting tho Transport of Radionuclides in a Marine Environment
Bloom, S.G.; Raines, G.t.
Bioscience, 21(12), f91-696; 1971, .June 1*»
FALLOUT; FISH; (IAN; NUCLEAR EXPLOSIONS; RADIATION DOSES; RADIOISOTOPES; UNDERGROUND EXPLOSIONS; SEA WATER; COMPUTER CALCULATIONS; FOOD CHAINS; INTAKE; ; MATHEMATICAL MODELS; TRANSPORT: RADIONUCLIDES
8 1
Hydrocarbons of Marine Phytoplankton
Bluster, M.; Guillard, R.R.L.; Chnric, T.
Mar. Biol. (Berlin), 8(3), 183-IB9; 1971 HYDROCARBONS; PHYTOPLANKTON: FOOD CHAINS; SEA MATER
TAXONOMY: RIIIZOSOLENIA SET 10 EH A; 5 YN ECII0C0CCU5 BACILLARIS
Rf> Modeling the Moveaent of Chealea In In Satin by Watir
boast, C.H.
Soil Sci., 115(3), 220-230; 1973
MODEL; CHEMICALS; SOILS: VATIR; FLOW; MATHEMATICAL MODEL; TRANSPORT
Soil Absorption of Air Pollutints
fiohn, H.L.; Arizona Agrlc, Fxp. Stn. • Tucson, Ariz.
J. environ, yuai. (JEVQAAl t («) 372-7; 1972
REVIEW; SOTLS; ABSORPTION; AIR
00 Nutrient Loaaoa Through Tilo Drains Ondor 3 cropping systems and 2 Fortuity Levels on a OrooKnton Clay Soil
Bolton, E.F,; Ayloauorth, Horn, F .W.
Can. soil Sci., 50(3), 215-279; W O
FERTILITY; CHOPPING SYSTEMS; C U f ; COftM-H; M-U® CRASS-M; LEACHING; NUTRIENTS
B9 Effect of th« Molrst\ico Coatont ««<! T«apar*tuc«> on the Lcnchlng of Ash eloaonts Fran riant Ha aid ties
Bolyshav, N.H.j Gcoeova, V.S.j Monk. Univ., Hoacou, USSR
Vestn. Monk. Univ., Sloi., PoebvovedU (VMttMC) 21 (*) 7C-5; 1972
MICROBIOLOGY; O H N W O M T I Q N ; ASttj LSICifKNO; ROTTING; SQ8rU«; POTASSIUM} CALCIUM; BA3KESI0MJ PKCSfH0RU5
90 nan^Ancfttt Fluet«i«tlon* io Caclbhosa sedlnaot CcE«*n 0u<? to Pont Oaponltion»l ftftsobllUat loa
tionitti, s.
Bull. 8%c. S c U * 21(2), S10-S1*; 1971
MAKGAN15E: «J MOBILIZATION: PLKlST9CS»rj CLIMATIC FLUCTUATIONS: 5F.0I»F.*TS
91 Relationship !>«rtwe«fl PhosphAtvn Altatitte Phonphstaatt of Anabaerwflos-A^usw ift Cwntlftttoaa CuU«t<s
Hon<>, D.H.
U c h . MUrofetol., »0(2'j, 1971
PHOSPHATES: ALKALINE r liOSPKATASS: CaXTItttttOS COLTQKt; POTASSIUM *IT*AT£: CRIL; YtfftOi LIGHT: CMSMOSTAT
TAinscnt: ASA9ASSA FLOS AQUAf
«>2 2or.it t rtfu<}4tIon, A Tool (or f,nvira»*«6Ul 5 1 < i 4 i « n
£©m»<?t, v . P.: Tasur*, T.; ?t»scl«, c.w. % Autarky, .»*»., »)r.
tnvlrcn. Sci. T^chnol t (10;, 821-»2*j 1970
zc a c«-»?«tr8c*Tioa: CLAYS; n m * A t s ; 3J»IM£!»TS:
»«»rtnwM*<l*WK»t»a fMI* I* %*i\
t f » A .
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t*»>i » * % * « * » * » « * ft. J t t t l l j i
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s o f t W * T f » 5 M f W ! f l * » « i * m » i * - * * ¥ W M t t l H *
# * ( « l M » l i f t « » A f t 4 £ e t * y l - l n e p c f t f i ' f I - Jt»
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9 * * U < t y < . 3 * * 1 , m )
« t r A « f t t i s * s w u c s t ' t i t * i 9 W M w t - w » > # t * . Y - s m c i 9 * i * f t m i » - * t M ) - w « i - M « i * * e « t « e m « c f t » ? m * t m w r w e m #cu • • i w w w m * * r m v i t . i c * « r s * * « I 0 8 t r m « » * T f * < ? * * » $ W 8 W K « f e f t » l £ < l * t w o o o t * i * * t ftn*ta»*«*mmx fti<»*cc4iNit*ti0*» W N M U C I M S * c m s
T * * e » J i ? t « r * sm»»3E
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M M O M L i f t t s t A c c t i m t m i * * t * i * t W l M U i t * A * S f e » ? i W ! W i t * c # ttt c e m t s e * ? » e m * * t t m o m « * t C I M M W I I M s » * i w t * « A » i 3 & t « t i w » i « t m t « t t » n s m w * » x c * u r i 8 n
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fter<l«t«At»# un.i * »
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101
t l f » t p i U f c t t « ( i « v fey H f t M f l u f e .
!•* J » - 3 f * j t H t
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n u n * * o $ $ A f t » t c *
II 103
10S Tfetf iretafcelifta «( «»i)i«AtvcliStt» t* Marine
I. The Uptake Ace«»wmioft«. and tons a f fcy f i s h » »
troughs* ».J Tflvft»l*y, 5.4. i ttUtt, tfawatl Mariae laboratory, yni««rnlty of
fi#ai<n»tfcti©est <W**NIS»S; LOSS; T M W X O R G A N : M M I T M T O T M
t * x w » * » r * * m i c s * s s s ; «*«t#tt*N»s t l t A M * WflSSAMfttCA
S o r p t p t I o n peactiona of M « e » « y with Ift Colt»*feia fiver
f*p»r t»e*JM»ftt»i| At tfeft International Atonic * f « m e * on the Interaction of
p a d l e a s t t » «ith the const Intent a of th* m t i m J,*««•«*t, Held *t Seattle, «*, > 0 - i « , W l i m i
S 9 W I 4 S ! e t M m w * ; f u t u c w K f s S U S P E N D E D M A T T C R
ut%
MmttptitH* Pi UiMan* anil Oietdcin Peatlcides on ttncfl»aoii4*ted Aquifer Sand*
toactatc* f.B.j c,f.; »ate* Cheoistey fraur**, ttni*er»it* of wiecoosio* Madison, wz n w *
jrn*irona«»a*«i Selene* ft technology,
I M O M T I O * : irwc*«£: omofzwt A W I P E R S A N D :
C A P A C I T Y : T S M P F - I A T I M I * ; p « ; R E T E N T I O N
n*-
The? Nutrition «f prsit
H o w C *
rat** of tttefcwiU* t . c . and c . v . catting (Eds.), Physiology of 7e«» Crops, Syeposiua, Acadeeic
York, NY; London* England
W U - J H »00t STOCK GRASS-*!; COVES CROP; IHNERAtSl NtrWENTS; W I K E ; S O U MCISTtfRfc; SOILS; TPAS8P0RT: PLANTS; ffWXT 1R5R5
flirtation off the field percolation T«st snd •»« Alternative Procedure te Test Soil Potential for
of Static Tan* effluent
S o i l S c i S o c P r o c * « 8 7 1 - 8 7 * ; m i
Ft»M» PK»C0I.AT10» TEST; SFPTIC TANKS; EFFLOftNTS; S n i i S t p t t c n L A T I O l
108 Microanalysis of lead in Biological Madia
Dourbon, p.; Brousny, o.; Chavant, I.; Puig, P.
4. ROC. Toxicol., 3<5|# 209-290: 1970
MICROANALYSIS; LEAD; ATONIC ADSORPTION s p f c i n o p t t O T O f t n w : S E R C N J U R I N E
109 fractionation of Cation B x e h M u Capacity for Assessing soil and water sodicity
Bower, C.A.? Rhosdes, J.o.
Soil Sci Soc An Pcoc 3« <t|, 17<*-175; 1972
CATION; EXCHANGE CAPACITY SODICITY; VEHNICOLITE; tttORAOLIC CONDUCTIVITY; P0TA5SUM FIXATION; SOILS
110 Nates of Vertical Groundwater Novesent Estiaated frca the Earth's Thereal Profile
Sredehoeft, J.D.; papadopulos, I.S.; Water Resources Division, U.S. Geological survey, Arlington, Virginia
Water tesources Research, 1(2), 325-328; 1965
GEOPHYSICS; GROUNDWATER; ftOVENENT; THERMAL PROPTIE; ANALYTICAL SOLUTION
1 1 1 Nans Transport in Flowing Ground Water
firedehoeft, J.D.; Plnder, G.P.; U-S. Geol. Surv., Lafcewcod, Colo.
Water Resour. Res. (WRERAQ), 9(1), 190-210; 1973
TRANSPORT; GROOND WATER; AQUIFER; CONTAMINATION; MASS TRANSPORT
112 Simultaneous Transport of Solutes and Water under Transient unsaturated Flow conditions
Oresler, E.: Departaont of Soil Physics, Institute of Soils and Water, Agricultural Research Organization Volcani Center, Bet Dagan, Israel
Water Resources Research, 2(0), 97S; 1973, August
TRANSPORT; SOLUTES; WATER; FLOW; DISPERSION COEFfICIfiNTS; SALT CONCENTRATION PROFILES
113 Cation Exchange Groupings in the Soil Organic Fraction
Drcadtent, F.E.; Bradford, G.R.
Soil Science, 7a, i»t»7-057; 1952
CATICN; EXCHANGE; SOILS; ORGANIC
11tt 12
1 1 a Conpetition, food Connunption, and Production of Sculpins and Trout in Laboratory Strons Coaaanlties
Brocksen, 8.M.; Davis, 6.R. j Warren, C.B.; Dept. of Fisheries and «il<!l., Oregon state Univ., Corvallls; Dept. of Fisheries and Hi 141., Oregon State Univ.* Corvallift;
J. Wildlife ffanaqeaent 32(1): 196*, .January
COMPETITION; TROUT; STOilEFLIES; MIC6B LARVAE; FOOD CONSUMPTION; RESPIRATION; GROUTII; PREDATOR DENSITY; ASSIMILATION; MODEL STREAMS; AQUATIC ECOSYSTEMS; FISH
TAXONOMY: COTTUS PERPLSXUS; SALHO ClAFKI; ICRONEDRXA
115 Assiallation of 1, 1, l-Trichloro-2,2-Sis (P-Chlorophenyl) Ethane (DOT) by Crasscntroa virginica
Brodtaann, N.V.; Gulf Coast Res. lab.. Ocean Springs* t s s
Bull. Environ. Contaa. Toxicol. (BECTA6), 5(5), U55-462; 1970
DDT; OPTAKE; OYSTERS; INSECTICIDES; MOLLUSKS; AQUATIC ECOSYSTEMS
TAXONOMY: CRASSOSTREA VIRGINICA
116 Fate of Chlorinated Hydrocarbons in Living organisas
Brooks, G.T.; Agric. Res. Counc. Onit Invertegr. chea. Physiol., Univ. Sussex, Brighton, Engl.
pestic. Terainal Residues, Invited Pap. Int. Syap. (25RGAY) (111-136); 1971
CHLORINATED HYDROCARBONS; REVIEW; BIOTRANSFORMATION; DDT; CYLCODIENE; HEXACHLOROCYCLOHEXANE; BIODYNAMICS; HYDROCARBONS; INSECTICIDES
117 Availability and Sxtreatability of Soil Manganese in a Liaing Expuriaent
Browaan, ft.6.; Peterson, L.A.; Chesters, G.
Coaaun Soil Sci Plant Anal 1(1), 21-26; 1970
CORK; EDTA; MINERALS; NUTRIENTS; OPTAKE; CHELATES; SOILS
TAXONOMY: ZEA-MAYS-SACCRARATA-M
1 1 8 An Indoor Model Ecosystea FOE the Study of Algal Pollutions
Brown, T.E.
J Phycol 6 (Suppl.), 5; 1970
PROTOZOA; CARP; NITRATE; ALGAE; MODEL ECOSYSTEM
119 T w c - C i s m n s l o n a l D i s p e r s i o n K x p « e U m » t t t i n * P o r o a a »ie«l
B r a c k , 4 . C . , 4 c . ; U n i v e r s i t y q < C a l i f o r n i a , S u n t a f l a t b a t a , C a l i f o r n i a 9 3 1 0 6
Water Resources Research, 6(3), 79J-800; 1970, JWRff l
D I S P E R S I O N " E X P E R I M E N T S ; P O R O U S M E D I U M ; T H C O R t T I C A L S O L U T I O N S ; N U M E R I C A L S O L U T I O N
120 Sorption Behavior of Organic Pyrapolyners in Aqwotis Solution Report for 1 Jane 6R-10 April
Bruck, S.D.; catholic Univ. of Aaeriea, Washington, D.C. Dept. of Chenical Engineering
Monitoring Agency Rept. No. IB, Grant F » P C A T » P 01371-01-A1; PB 217193; 19p»; 1969
PYROfOLVMEBS; POL* VINYL CHLORIDE; CARBON; ABSORPTIVITY; P8STICI0ES; ADSORPTION; POLYMERS; CARBONISATION; NITROPHENOLS; PHYROLYSIS; HERBICIDES; AQUATIC SOLUTION
121 Factors Detoraining Residence Lifetiantt as Asii Molecules on an Arsenic (lit) Stir face
Bruataeh, S.B.; Rosenblatt, R.M.; Pennsylvania State Univ. University Park Dept of Chealstry 0 0 0 3 ( 1 3
Th* Surface Science, 29, 555-570; A&-745 667: Grant DA-AR0-D 31-128-72-691; Monitoring Agency Beet No. AROD-4fltt7s 20-C; Pro}. DA-2-Q-061102-B-13-B; 7 Dec 71, 19p,; 1972
GAS SURFACE INTERACTIONS; SURFACE CHEMISTRY; LENNABD-JONES POTENTIAL; ARSENIC; VAPORIZATION; ADSORPTION; POLYATOMIC MOLECULES; SURFACES; CHEMICAL EQUILIBRIUM; THERMODYNAMICS; RE5ICEKCE TIME
122 Chronic Toxicity of Zinc to tho Fathead Minnow, Piaephales proaelas rafinesque
Brungs, v .A.
Trans. Aaer. Fish. Soc., 98, 272-279; 1969
CHRONIC TOXICITY; ZINC; FATHEAD MINNOW; BIOASSAY; SURVIVAL; GROWTH; REPRODUCTION; MATURATION; EGGS; FISH
TAXONCRY: PIMBPRASLES PRONELAS
123 Experlaental Uptake of Strontiua-B* by Freshwater Organisas
Brungs, fl.A.
Health Physics 11, 41-46; 1965
OPTAKE; FACTORIAL EXPERIMENTS; BLUEGXLLS; PONDS; STRONTIUM 85; CALCIUS; MAGNESIUM; SODIUM; POTASSIUM; RADIOACTIVITY; RADIONUCLIDES
TAXONOMY: LEPOMIS MACROCHIROS
139
»2<» Nitrogen Availability in Soa* Fowiat Sit« Types o f $ o i * t H * « 8 f c ' c e r M R f
f » t t « c k l f f 9 f
f l o e * ( . m i l ) 3 8 3 - a O O ;
R O A M S * A S S O C I A T I O N S ; M I N E R A L I S A T I O N ; S O I L S ;
H U M I D I T Y ? C L I M A T E ; N I T R O G E N S M X I A M M T T
( H f f i W R A P H X C A I , D E S C R I P T I O N : « * s # s n y i S U ) , S o u t h e r n R a t S c a i a
i a » S « K MiiileacliiilQil Interactions oC r w i j u t with soil Or^ealc 'Hateirlali »»dHodelCoapoim4». «ff«ct»' oS Teaperetere' flu* «ad idsorbate J > * f C « 4 a t i 4 f r q » ' f a e a g i i a f c '
Saras, X.O.t ffaytSf li.tt.B.j Stacey, M.
« ? ? ? « ; 1 9 ? }
PHfSICeCHEMtCAl XtfTCftimONSt ORGANIC HATTER I T M M M M t B t TZRS; " t M i f t 0 4 f * ADSORPTION; " " T e i a m o e R»im ( ni,isnim i m i j P A R T I C L E OlIfQSIOISi ION EXCttfcttat; BBRBXCKOBS; DIPPQiilON
125 Tbe Effects of 2 *cate stresses en tfte Arthropod Cospoftea* of en Eiperlanntal Grassland Ecasyates
Bulan, c.A.j street«f G.w.
Ecology 52(*J, 596-605$ 1971
GRASSLAND; STRESS; ROCEl ECOSYSTtft; ARTHROPODS
TAXONOMY; ARTHROPOD; A*S!IA-SftTXVA~M; COISOPTERA
12* Celcia* ttptake end Calclu* Deficiency Disorders of Plants under the influence of other Nutcients
Bofi«e«nnf c t; Ladders, P*
J. Aast* Inst. Age. Set. 36|tt|f 26S-291; 1970
UPTAKE; CALCIUM; DEFICIENCY; PLANTS; NUTRIENTS; SOILS; MINERAL CONTENT; AVAIIS8IIITY; AKXON CATIOK INTERACTIONS
1 2 7 Distribation of Heavy Metals in the Vicinity of «n Industrie! C«splex
Burkitt, A*; Lester, P.; Nickless, 0.; Dept. of Inorganic cheatstry, The University. Bristol 8S81TS
nature 238, 327-326; 1972
OPASSES; KOSSES; LICHEN; SOILS; PLARTS; SHELTERS; AIRBORNE METALS; LEAD; tlNC; CADMIUM
TAXONOMY: LOLIUM PBRENNE; EGRHYHCHIUH PRAELONGUM; PARHELIA
128 Isolation and Absorption of Dissolved Organic Hntaholitas by Algae
gurlakova, 7.P.; Kondrat'Eva, T.R.; Khailov, K,«.; Xhailov, K.H. "Naufcova Ouaka", Kiev, USSR
Ekol. Filial. Norsk. Planktonnykh Vodoroslei (Hr.loviyakh Kul«T.! (25QVA6) O 93-1«2; 1971
REVIEW; METABOLITES; TRANSPORT; AIGAE; ABSORPTION
1 3 0 S a w fbyslcochcsleal Interactions of Paraquat with SoiiOcganic Materials and node 1 Coapouade. Adsorption and Resorption equilibria ia Aqueous S u s p e n s i o n s
Suras* X*o«; Hayes* n.H.o.; staeay, tt.
N e e d R e s . , 1 3 f 1 ( » 7 9 - 9 0 ; 1 9 7 3
PHTSICOCMEBICAL INTERACTIONS; PARAQUAT; EQUILIBRIA; AQUEOUS SUSPENSIONS; POLVSTfRENE RESIN; ION EXCHANGE XESXNS; HERBICIDES; ROTHMUND KORNFILD IS0T8EBM EQUATIONS; SOILS
131 interaction of Effects by Environaental factors on Pciaacy Productivity in Ponds and aicrceeoaysteas
Butlet, JUL.
University Kicrofilas, inc., Ann Arbor, Michigan 6S-8702; 196a
DISSERTATION; PRODUCTIVITY; PONDS; MXCROECOS3STEMS; AQUATIC ECOSYSTEMS
132 Phosphate and Arsenate Uptake Growth and Inhibition Kinetics by a Marine Yeast in Continuoas Culture
Button, O.K.
Fed. Proc., 31(2), B»5; 1972
PH0SP8ATJS; ARSENATE; UPTAKE; GROVTH; INHIBITION KINETICS; MARINE YEAST; CONTINUOUS CULTURE; GROWTH KINETICS
TAXONCNY: RHODOTORULA-RUBRA
133 Continuous Culture of Rhodotorula rubcra. Kinetics of Phosphate Arsenate Uptake, Inhibition, and Phosphate-Liaitad Growth
Button, D.K.; Dunker, S.S.; Horse, H.L.; Inst. Mar. Scil, Univ. Alaska, College, Alaska
J. Bacterial. (JOBAAY) 113 (2) 599-6*1; 1973
PHOSPHATE; TRANSPORT; KINETICS; ARSENATE; OPTAKE; YEAST; GROWTH INHIBITION; CONTINUOUS CULTURE; GRCW1H
TAXONCMY: RHODOTORULA RUBRA
154 14
13a A n l a p r o v e d s o i l H a t e r P l u x S o n s c r
B y r n e , O . F . A g r i c . M c t e o r o l . , 9 ( 1 - 2 ) , 1 0 1 - 1 0 4 ; 1 9 7 1
S O I L WATER; P L U X ; S E N S O R ; PLOW R A T E ; MEASUREMENT; S O I L S
1 3 5 Use at Bluegllls to Detect zinc
Cairns, J.J.; Sparks, R.E.; Biol. Dep., Virginia Polvtech. Inst., Blacksburg, VA
Water Pollut, Contr. Ren. Set. (FWPPAP), No. 10050 BDQ 12/71r 45p.; 1971
BLUEGILLS; ZINC; DETECTION; TAP WATER; PISH
136 The use of Pish Movement Patterns to Nonitor zinc
Cairns, J.J.; Waller, W.T.; Virginia Polytechnic Inst, and State Univ., Blacksburg, Center for Environmental Studies Monitoring Agency Rept. No. W72-12742, «PA-1B0«>0-P.np-12/71; Pro1. EPA-18050-EDP; PB 211333; 58p.; 1971, December
PISH HOVEHBNT PATTERNS; WATER ANIMALS; FISHKILL; BLUEGILLS; FISH; INDICATOR SPECIES; HATER ZINC; MOTION; MONITORS: TOXICOLOGY; METALS; TRACE ELEMENTS; INDUSTRIAL WASTES; REPRODUCTION; GROWTH; LETHAL DOSAGE; CARP; SHINERS
137 Uptake and Distribution of Macro Nutrients in Trees of Coffea-Arabica-D in Kenya as Affected by Seasonal Cliaatic Differences and the Presence of Fruits
Cannell, H.G.R.; Kimeu, B.S.
Ann. Appl. Biol., 68(2), 213-230; 1972
SOUS; MINERAL; NUTRITION; GROWTH; DRY WEIGHT CHANGES; UPTAKE; DISTRIBUTION; NUTRIENTS; TREES; FRUITS
TAXONOMY: COFPEA ARABICA-D
GEOGRAPHICAL DESCRIPTION: Kenya
138 Caro, J.H.; U.S. Soils Laboratory, Soil and Water Conservation Research Division, Agricultural Research service, USDA, Beltsville, MD 20705
Phytopathology, 59, 1191-1197; 1969, September
ORGANOCHLORINE; DDT; HEPTACHLOR; ALDRIN; DIELDRIN; ENDRIN; CHLORDANE; LINDANE; INSECTICIDES; METHOXYCHLOR; RESIDUES; PERSISTENCE; UPTAKE; TRANSLOCATION; PLANTS; SOILS; REVIEW; TRANSPORT
159 Pathways of Loss of Dleldrin from Soils Under Field Conditions
Caco, J.H.; Taylor, A.W.
J. Agr. Food Chen., 19(2), 379-384; 1971
H A i z e - n ; INSECTICIDES; RUHOPP; WATER; VOLATILIZATION; SEDIMENTS; TRANSPORT; SOILS; CRCPS; PLANTS
140 Cation-Exchange Capacity of Suspended Material Frcm Coastal Sea Water Off Central California
Carter, R.C,; Wilde, p.; Inst. Mar. Resour., Univ. California, Berkley, Calif.
Mar. Geol. (MAGSA6) 13 (2) 107-22; 1972
CATICN; EXCHANGE CAPACITY; SEA WATER
141 Effect oE Contamination of the Ocean vith Petroleum on Populations of Coaffital Crustacea Decapoda
Carvacho, B. A.
Museo Naclonal Historia de Nat. Not Hens (Santiago), 15(180), 7-12; 1971
CONTAMINATION; PETROLEUM; CRUSTACEA; DECAPODA; ALGAE
TAXONOMY: CYCLOGRAPSUS CINEREUS; PETROLISTHES LAEVIGATUS; PETROLISTHES GRANULOSUS; PETROLISTHES VIOLACEUS
142 Salt and Water Movement in Unsaturated Frozen Soil
cary, J.W. ; Hayland, H.F.
Soil Sci. Soc. Am. Proc. 36(4), 549-555; 1972 SALT; WATER; MOVEMENT; CALCIUM CHLORIDE; LITHIUM IODIDE; POTASSIUM SULPATE; DARCtfS LAW; MASS FLOW; THERMAL DIFFUSION; FROST HEAVING; SALT SEPARATION; TRANSPORT; SOILS
143 Toxicity and Bioconcentration of Cadmium, Chromium, and Silver in Micropterus Salmoides and Lepomis Naccochirus
Cearley, J.E.; Univ. Oklahoma, Norman, Okla
Thesis, Univeristy of Oklahoma, Norman, Oklahoma, 84 p . ; 1971
CADMIUM; TOXICITY; FISH; CHROMIUM; SILVER; BICCONCBNTRAKON
TAXOSOKY: HICROP'EEHUS SALMOIDES; LEPOMIS NACRCCHIRUS
IE m
1114 Accumulation of Dieldrln by Fish and Selected Pish-Pood organisms
Chadwick, G.G.; Brocksen, R.W.; Dept. of Pisheries and Wildl. Managesent, Oregon State University, Corvallis
of Wildl. Manage sent, 33(3), 693-700; 1969, July PESTICIDES; TRANSPBR; INGESTION; AQUATIC ECOSYSTEMS; UPTAKE; SCULPIN; TUBIFICID WORMS; MIDGE LARVAE; WORMS; FEEDING; ACCUMULATION; CIELDRIN; FISH
TAXONOMY! COTTUS PERPLBXUS; TUBIFEX sp.; CHIROHOMIDAE
1U5 Field Loss o€ Radionuclides from Grass
Chadvick, R.C.; Chamberlain, A.C.; Atonic Energy Research Establishment, Harwell, Berks, England
Atmospheric Environnent., 4, 51-56; 1970
STRONTIUM 85; LEAD 210; CHROMIUM 51; GRASSES; PLANTS; RETENTION; FIELD LOSS; WEATHERING; POLYSTYRENE PARTICLES
146 Complexing Properties of Nitrilotriacetic-Acid in the Lake Environnent
Chau, Y.K.; Shiomi, n.T.
Hater, Air, Soil Pollut., 1(2), 149-164; 1972
NITRILOTRIACETIC ACID; COPPER; NICKEL; CADMIUM; MERCURY; CHELATES; LAKES; NTA
1U7 Ecologic Simulation for Aquatic Environments
Chen, C.W.; Orlob, G.T. OWFR Report No. c-2044, Report tc U.S. Department of Interior, Office o£ Hater Resources Research; 1972
ECOLOGIC S I M U L A T I O N ; AQUATIC E C O S Y S T E M S
118 influence of Alternate Freezing and Thawing on the Availability of Some Scil Minerals
Cheng, B.T.; Bourget, S.J.; Cuellette, G.J.
Can. J. Soil Sci., 51(3), 323-328; 1971
FREEZING; THAVING; AVAILABILITY; MINERALS; TEMPERATURE; MOISTURE CONTENT; PARTICLE SIZE; NUTRIENTS; S O I L S
149 Insecticide Adsorption by Lake Sediments as a Factor controlling Insecticide Accuaulation in Lakes; Final Technical Completion Rept
Chesters, G.; Lee, G.B.; Wisconsin Univ., Madison. Water Resources Center.
Wisconsin Univ., Madison. Water Resources Center. PB 206 303; Proj. OWRR-B-016-WIS; Contract DI-14-01-0001-1567; Monitoring Agency Rept No. W72-04031, OWRR-AB-016-WIS (15); F; 91 p.; 1971, Deceaber
SEDIMENTS; ADSORPTION; PHOSPHORUS; ORGANIC ACID ESTERS; TRACERS; SEDIMENTATION; SURFACE WATER; RUNOFF; SOIL CHEMISTRY; INSECTICIDES; HERBICIDES; CONCENTRATION COMPOSITION; PESTICIDES; BIODETERIORATION; LIMNOLOGY; WATER; ODGANOCHLORINE
150 Use of Isotopes for loni.c Transport Stud 125 In Soil
Cho, C.N.; Univ. Manitoba, Winnipeg, Manitoba
Isotcp. Radiat. Soil-Plant Relat. INCL. Forest., Proc. Syap., 145-152; 1972
ISOTOPES; TRANSPORT; SOILS; PHOSPHORUS 32
151 Convective Transport of Ammonium with Nitrification in soil
Cho, C.M.
Can. J. Soil Sci., 51(3), 339-350; 1971
TRANSPORT; AMMONIUM; NITRIFICATION; DENITRIFICATION; NITROGEN; DISPERSION EQUATIONS; STEAEY-STATE; CONCENTRATION PROFILES; SOILS; MOBILITY; CONVECTION
152 convective Transport of Ortho-Phosphate, Phcsphorus-31 and Phosphorus-32 in Several Manitoba Soils
Cho, C.M.; strong, J.; Racz, G.J.
Can. J. Soil Sci., 50(3), 303-315; ,1970
TRANSPORT; ORTHO-PHOSPHATE; SOILS; CONVECTION; PHOSPHORUS 31; PHOSPHORUS 32
153 Settling Characteristics of Sludge Sedimented frcm an Industrial Effluent Containing Lead Compounds
Christian, J.R.; Dollimore, D.
Water Res 5 (5), 177-181; 1971
SLUDGES; INDUSTRIAL EFFLUENTS; LEAD; PARTICLE SIZE; OILS; SEDIMENTS
154 16
154 Effect ot Temperature on the Intensity of the Ion Exchange Process
Chuprina, L.F.; Chuprina, G.N.; Kiev. Tekhnol. Inst. Legk. Proa., Kiev, USSR
Izv. Vyssh. Uchflb. Zaved., Tekhnol. Legk. Pros. (IVULAU) (5) 47-50; 1972
ION EXCHANGE; TEMPERATURE EFFECTS; VISCOSE; WASTE WATER TREATMENT
159 Hovenent and Persistence of Dieldrin and Lindane in Soil as Influenced by placement and Irrigation
Cliath, ft. ft.; Spencer, W.F.
Soil Sci. An. Proc., 35, 792-795
DIELDRIN; LINDANE; IRRIGATION; GAHMA-PEN7ACHL0R0CYCL0HEXBNE; PCCH; INSECTICIDES; RESIDOES; VOLATILITY; PESTICIDES; SOILS; MOEIIITY; TRANSPORT
155 An Examination of the Resin Exchange Method for the Determination of stability Constants of Metal-Soil Organic Hatter Complexes
Clark, J.s.; Turner, R.c.
Soil Science, 107, 8-11; 1969
RESIN EXCHANGE METHOD; STABILITY CONSTANTS; ORGANIC; COMPLEXES; SOILS
156 Deternination of Trace Element Levels in Landfill Leachate by Ion-Exchange, X-Ray Sepctrography
Clark, T.P.; Illinois Environaental Protection Agency, Division of Land Pollution Control, 2200 Churchill Road, Springfield, IL 62706
Part of Hemphill, D.D. (Ed.), Seventh Annual Conference on Trace Substances in Environmental Health, Held at Memorial Dnicn, University of Missouri-Columbia, Columbia, MO, June 12-14, 1973; 1973
GROUNDWATER; WATER; LEACHATE; X-RAY FLUORESCENCE; ION EXCHANGE; COPPER; ZINC; NICKEL; ARSENIC; LEAD; CHROMIUM; IRON; COBALT; SELENIUM; VANADIUM; MERCURY; ANTIMONY; MANGANESE; MOLYBDENUM; TIN; TITANIUM; SILVER; BARIUM; BISMUTH; CADMIUM; TRACE ELEMENTS; LANDFILLS; SOLID WASTE; ANALYSIS; CONCENTRATION; DETECTION LIMITS
157 Environmental Dynamics of Mercury. Discussion
Clarkson, T.W.; Coble, A.J.; D'ltri, F.M.; Gage, J.C.; Goldvater, L.; Hartung, R.; Hinman, A.; Jernelov, A.; Jervis, R.E.
Part of Hartung, R. (ed.) Environmental Mercury Contamination, International Conference, 1970, Ann Arbor Science Publishing, Inc. Ann Arbor, Michigan (p.198-201); 1972
REVIEW; MERCURY; METHYLATION DYNAMICS; WATER; AQUATIC ECOSYSTEMS
158 The Leaching of Some Elements From Herbage Plants by Simulated Rain
Clement, C.R.; Jones, L.H.P.; Hopper, M.J.
J Appl Ecol 9 (1) 249-260; 1972
RYE GRASS-H; WHEAT—M; RED CLOVEB-D; LUCERNE-D, LEACHING; PLANTS; RAIN SIMULATION
160 Dissipation of pesticides from Soil by Volatilization of Degradation Products
Cliath, M.M.; spencer, W.F.; USDA, Agricultural Research Service, Soil and Water Conservation Research Division,,University of California, Riverside, CA 92502
Env. Sci. 6 Teen., 6(10), 910 914; 1972, October
PESTICIDES; VOLATILIZATION; DEGRADATION PRODUCTS; SOILS; LABORATORY MEASUREMENTS; LINDANE; DDT; PPCH; DDE; VAPOR DENSITY; FIELD MEASUREMENTS: ORGANOCHLORINE INSECTICIDES
1 6 1 Infiltration and Leaching of a Located Tracer in an Unsaturated soil Effect of Initial Moisture Content
Clouet, Y.; Ferodoroff, A.; Libios, A.; Heriaux, S.
Ann Agron (Paris) 23(4), 461-468; 1972
INFILTRATION; LEACHING; SALT DISPLACEMENT; POROSITY; TRACERS; SOILS
162 Exchange of Materials in a Lake as Studied by the Addition of Radioactive Phosphorus
coffin, C.C.; Hayes, F.R.; Jodrey, L.H.; Whitevay, S.G.
Canadian Journal of Research, 27, 207-222; 1949
EXCHANGE; LAKES; PHOSPHORUS; TRACERS
163 Effects of Environmental Factors on Uptake, Translocation, and Degradation of a Systemic Phosphonate Insecticide in Cotton-D Plants
Coleby, A.W.P.; Reynolds, H.T.; Metcalf, F.L.
Environ. Entomol. 1(2), 129-136; 1972
UPTAKE; TRANSLOCATION; DEGRADATION; PHOSPHONATE INSECTICIDE; COTTON-D; PLANTS; O HETHYI-O-P-METHYLTHIOPHENYL PHOSPHONOTHIONATE; AUTORADIOGRAPHY; PHOTOPERIOD; HUMIDITY; TEMPERATURE; INSECTICIDES; PHOSPHONATE
17 164
164 Interrelations Aaong Plankton, Attached Algae and the phosphorus Cycle in Artificial Open Systems
Confer, J.L.
Ecol. Monogr. 42(1), 1-23; 1972
NUTRIENTS CIRCULATION; NUTRIENT; ALGAE; PHOSPHORUS; PHOSPHORDS CYCLE; MODEL ECOSYSTEM; PLANKTON; PERIPHYTON
169 Effects of bichlobenil on Tvo Fishpond Environments
Cope, O.B. ; McCraren, J.P.; Eller, L.
Weed Science, 17(2), 158-165; 1969, April
2,6-E1CHLOROBENZONITRILE; (D1CBLOBENIL); CHROHIC EFFECTS; FISH; PERSISTENCE; HERBICIDES; TOXIC EFFECTS
165 Selective Predation by Newts on Frog Tadpoles Treated with DDT
Cooke, A.S.
Nature, 229, 275-276; 1971
PREDATION; NEWTS; DDT; FROGS
166 The Pattern of Autotrophic Succession in Laboratory Microcosms
Cooke, G.D.; Institute of Ecology, University of Georgia, Athens, GA
Bioscience, 17(10), 717-721; 1967
ECOSYSTEMS; SUCCESSION; PHOTOSYNTHESIS; RESPIRATION; BIOHASS; MICBOECOSYSTEMS; MICROCOSMS; PH
167 Aquatic Laboratory Microsystems and Communities
Cooke, G.D. Part of Cairns, J. (E<3.) , Research Division Monograph 3, The Structure and Function of Freshwater Hicrobial Communities, American Microscopical Society Symposium, Virginia Polytechnic Institute and State University, Blacksburg, VA; 1972
AQUATIC ECOSYSTEMS; MICROCOSMS
168 The case for the nultispecies Ecological System
Cooke, G.D.; Beyers, R.J.; Odum, E.P.
In: Conference on Bioregenerative Systems, Amer. Inst. Biol. Sci. Nat. Aeron. Space Admin., Washington, D.C., p. 15-16; 1967
MULTISPECIES ECOLOGICAL SYSTEM; ECOSYSTEMS; SUCCESSION; STABILITY; BIOREGENEBATION; AUTOTROPHS; PHAGOTROPHS; OSHOTROPHS; CCNSUHERS; PRODUCERS; DECOMPOSERS; BIOMASS
170 Evidence for Regulation of Community Metabolisa . in a narine Ecosystem
Copeland, B.J.; Institute of Marine Science, University of Texas, Port Aransas, TX
Ecology, 46(4), 563-564; 1965
REGULATION; LIGHT INTENSITY; AQUATIC ECOSYSTEMS; , COMMUNITY METABOLISM; METABOLISM; TURTLE GBASS; BLUE-GREEN ALGAE; SALTWATER; DOMINANCE; PRODUCERS
171 Effects of Industrial Waste on the Marine Environment
Copeland, B.J.
INDUSTRIAL WASTE; SALTWATER; ESTUARIES; BIOTA; AQUATIC ECOSYSTEMS; PHOSPHATE; PHOSPHORUS; OHLE ANOMALIES; REDOX POTENTIALS; SPECIES DIVERSITY; TOXICITY; COMHUNITY METABOLISM; TOURISM; FISHERIES; SPORTS; WASTE DISPOSAL; NUTRIENTS; NITROGEN
172 Radioactivity Transport in Water Structure and Metabolism of a Lotic Community, Part 1
Copeland, B.J.; Gloyna, E.F.; Institute of Marine Science and Environmental Health Engineering Research Lab.; University of Texas
Technical Report No. 8 Science and Environmental Health Engineering Besearch Lab.; TID-22873; EHE-02-6501; 1965, Pebruary
COMMUNITY METABOLISM; METABOLISM; PHOTOSYNTHESIS; RESPIRATION; MODEL STREAMS; UPTAKE; RELEASE; ZINC; PLANTS; WATER; SEDIMENTS; RADIOACTIVITY TRANSPORT; LOTIC ORGANISMS
173 Community Metabolism in Some Hypersaline Water
Copeland, B.J.; Jones, S.S.; Institute of Marine Science, The University of Texas, Port Aransas, TX
Texas J. Science, 17(2), 188-205; 1965
COMMUNITY METABOLISM; METABOLISM; HYPERSALINE WATERS; HATER; PHOTOSYNTHESIS; RESPIRATION; ZOCP1ANKTON; SPECIES DIVERSITY; PLANTS; ANIMALS
<
174 18
174 Community Metabolism in Ecosystems Receiving oil Refinery Effluents
Copeland, B.J., Dorrls, T.C. ; institute of Marine Science, University of Texas, Port Ar?>nnas; Agnatic Riology Laboratory, Oklahoma S ^ t e University, Stillwater, OK
tinnol. oceanogr., 9, 431-447; 1S6U
AQUATIC ECOSYSTEMS; EFFLUENTS PHCTCSYNTHE^SS; DIURNAL CURVE METHOD; COMMUNITY METftBOLISS; LIGHT; TEMPERATURE; RESPIRATION; METABOLISW; HOLDING PONDS; ALGAE; TEMPERATURE
175 Leaf-Fall in a Tropical Rain Forest
Cornforth, I.S.
J. Appl. Ecol., 7(3), 603-608; 1970 LEAF-PALL; NUTRIENTS; CYCLING; NITROGEN; EHOSPHORIJS; POTASSIUM; CALCIUM; MAGNESIUM; DECOMPOSITION; SEASONALITY; SOILS; TROPICS
TAXONOMY: MORA EXCELSA-D
176 Nitrogen Mineralization in West Indian Soils
Cornforth, I.S.
Exp. Aqric. 7(0), 315-349; 1971 NITROGEN; MINERALIZATION; SOILS; CATION; EXCHANGE CAPACITY; BASES; SATURATION; NUTRIENT AVAILABILITY
177 Effect of Lime on Lead Uptake by 5 Plant Species
Cox, W.J.; Rains, D.W.
J. Environ. Qual. 1 (2), 167-169; 1972
LIME; LEAD; UPTAKE; PLANTS TAXONOMY: GLYCIHE-MAX; TRIFOLIUM-SUBTERRANEUli; ZEA-MAYS; AVENA—SATIVA; TRITICUM-AESTIVUM
178 Soils of 3 Parent Sediments on Ycung Hill Slopes of the North Carolina Upper Coastal Plain
Craig, R.M.; Cracken, R.J.; Daniels, R.B.
Soil Sci., 114(6), 486-492; 1972
SOILS; SEDIMENTS; PLANTS; CYCLING; MINERAL BREAKDOWW; CATIONS; LEACHING; PEDOGENIC PROCESS; PEDOCHEMICAL WEATHERING; CLAYS; TRANSLOCATION; L2SSIVAGE CLASSIFICATION
179 Leaf Age and Air Pollutant Susceptibility Uptake of Ozcne and Sulfur Dioxide
Craker, L.E. ; starbuck, J.S.
Environ Res., 6(1), 91-94; 1973
TOBACCO INJURY; SULFUR DIOXIDE; LEAVES; PLANTS; UP1AKE; OZONE
1 3 0 Bode,! ft? the Circulation of DDT on Earth
CWavx., J.; School of Chemical Engineering, '.ta'irecaity of Pennsylvania, Philadelphia, Pennsylvania, U.S.A.
Ataooph^ric Environment, 7, 241-256; 1973
SfOCEt; DISTRIBUTION; ACCUMULATION; DDT; LAND; ATMOSPHERE; SHALLOW SEA; PLANKTON; BESERVOIRS; ABSORPTION; PHXTOPLANKTON; ZOOPLANKTON
181 The Biological Half Life and Fate of Parathion in the Rhesus Monkey
Cranmer, M.; Oiler, W. ; Carroll, J.; Peoples, A.
Pharmacologist, 12(2), 280; 1970
BIOLOGICAL HALP-LIFE; PARATHION; RHESUS MONKEY; PESTICIDES; PRIMATES; ANIMALS
182
Mercury Pathways in a River and Estuary
Cranston, R.E.; Buckley, D.E.
Environ. Sci. Technol. 6 (3), 274-278; 1972 MERCURY; BIVERS; ESTUARIES; SEDIMENTS; INDUSTRIAL WASTES; EFFLUENTS
183 Crcp Composition in Relation to Soil pH and Root Cation Exchange Capacity
Crcoke, W.W.; Knight, A.H.
J. Sci. Food Agric., 22(5), 235-241; 1971
SOIL EH; CATION; EXCHANGE CAPACITY; OATS-M; BAHLEt-M; WHEAT-M; SWEDES-D; POTATO-D; CALCIUM; MAGNESIUM; POTASSIUM; SODIUM; SOILS; PH
184 Photo Nucleophilic Reactions of Pesticides
Crosby, D.G.; Moilanen, K.W.; Nakavava, M. ; Wong, A.S.
Part of Hatsumura, Funio, G. Mallory Boush and Toaonasa Misato (ed.). Environmental Toxicology of Pesticides. Proceedings of a United States-Japan Seminar. Oiso, Japan, October, 1971. 637 p. Academic Press: New York, N.Y., U.S.A.; London, England (413-433).; 1972
TRANSFORMATION; PRODUCTS; PHOTO NUCLEOPHILIC REACTIONS; PESTICIDES
19 185
185 Accumulation of DDT by Daphnia magna
Crosby, D.G.; Tucker, U.K.; Dept. of Environmental Toxicology, University of California, Davis, CA 95616
Environmental science R Technology, 5(8), 714-716; 1971, August
ACCUMULATION; DDT; FISH
TAXONOMY: DAPHNIA MAGNA
190 A Siapie Bioassay for Detrital Consuaer Activity in Streams
Cunnins, K.W.; Dept. of Entoaology and Fisheries and wildlife, Michigan State University
TI.D-C00-2002-21, Michigan state Oniversity, 18p.
BIOASSAY; STREAMS; DETRITUS; CONSUMERS; AQUATIC ECOSYSTEMS
1 8 6 Migration of Pollutants in a Glacial Outwash Environment. Part 2
Crosby, J.W. Ill; Johnstone, D.L.; Fenton, R.L.
Water Resour. Res., 7(1), 20U-208; 1971
MIGRATION; GLACIAL OUTWASH; FECAI COLIFORMS; ENTEROCOCCI; CHLORIDES; NITRATES; DAIRY FEEDLOT; GROUND HATER; WATER; COLIFORM BACTERIA; TRANSPORT
1B7 Biogeochemistry of Trace Elements in a Coastal Plain Estuary Distribution of Manganese, Iron and Zinc in Sediments, Rater and Polychaetous Worms
Cross, F.A.; Duke, T.R.; Willis, J.N.
Chesapeake Sci. 11(4), 221-230; 1970
BIOGEOCHEMISTRY; TRACE ELEMENTS; ESTUARIES; MANGANESE; IRON; ZINC; SEDIMENTS; WATER; WORMS
191 Cycling of Zinc 65 by Columbia River Periphyton in a Closed Lotic Microcosm
Cushing, C.E.; Rose, F.L.
Limnology and Oceanography, 15, 762-767; 1970
CYCLING; ZINC 65; PERIPHYTON; LOTIC HICROCOSH; MICROCOSMS
192 Accuaulation of P32 and Zn65 by Living and Killed Plankton
Cushing, C.E.; Watson, D.G.; Biology Department, Battelle Memorial Institute, Pacific Northwest Laboratory, Richland, RA
Oikos, 19, 143-145; 1968
ACCUMULATION; PLANKTON; ADSORPTION; ABSORPTION; AQCATIC BIOTA; PHYTOPLANKTON; PH; PHOSPHORUS 32; ZINC 65
1 8 8 Distribution of Radioactive and Stable Zinc in an Experimental Marine Ecosystem
Cross, 7.A.; Willis, J.N.; Baptist, J.P.; National Marine Fisheries Service; Beaufort, NC; Atlantic Coastal Fisheries Center
Monitoring Agency Rept. No. NOAA-72032101; COM-72-10424; 7pl; J. Fisheries Res. Board of Canada 28(11) 1783-88; 1971
MARINE ECOSYSTEMS; ZINC 65; RADIOACTIVE ISOTOPES; METABOLISM; ALGAE; PLANKTON; TRACE ELEMENTS; CONCENTRATION COMPOSITION; ECOLOGY; ZINC ISOTOPES; MARINE BIOLOGY; ZINC; MODEL ECOSYSTEM
189 The Uptake of Cerium-144, Promethium-147, and Plutonium-238 by Oat Plants from Soils
Cummings, S.L.; Bankert, L.; Southeastern Radiological Health Lab., Montogmery, AL
Monitoring Agency Rept. No. 18; PB 213911/7; 3p.; 1971, January
FARM CROPS; OAT PLANTS; SOILS; ABSORPTION; PLANTS; BOTANY; CERIOM-144; PLUTONIUM-238; PROMSTHIUM-147; HEALTH PHYSICS; FOOD CHAINS; RADIOACTIVE ISOTOPES; AGRICULTURAL PRODUCTS; PUBLIC HEALTH
193 Cycling of/Zinc 65 in a Simple Food-Web
Cushing, C.E.; Watson, D.G.; Battelle-Northvest, Richland, Wash. Pacific Northwest Lab.
Part cf Proc. Third national Symp. on Radicecology, Oak Ridge, Tennessee, May 10-12, 1971; CONF-710 501-Pt. 1 (318-322); BNWL-SA-3877.; 1971
ALGAE; FISH; LIGHT; TEMPERATURE; WATER; ZINC 65; RIVERS; FOOD CHAINS; CYCLING
194 Uptake of Trace Elements by Plants under Field Conditions
Czuba, R.; Cent. Osrodek Metodyczno-Nauk., Inst. Uprawy, Nawozenia Glebozn., Wroclaw, Pol.
Rocz. Glebozn., 23(2), 125-127; 1972
TRACE ELEMENTS; FERTILIZERS; BARLEY; BORON; SOILS; MOLYBDENUM; MANGANESE; UPTAKE; PLANTS; FIELD CONDITIONS
195 20
195 Prediction of Radionuclide Contamination of Grass from Fallout Particle detention and Behavior
Dahlman, R.C.; Oak Ridge National Lab., Tenn.
Part of USA EC Symp. Series Survival of Food Crops and Livestock in the Event of Nuclear Hat; CONF-700909. (492-509).; 1971, December
FALLOUT; GRASSES; PARTICLES; RETENTION; RUBIDIUM 86; RADIONUCLIDES
19B Behaviour of Cs137-Tagged Particles in a Fescue Meadow
Dahlman, B.C.; Auerbach, S.I.; Dunavay, P.B.; Radiation Ecology Section, Health Physics Division, Oak Ridge National Laboratory, Oak Ridge, TN
Part of "Environaental Contamination by Radioactive Materials", International Atomic Energy Agency Vienna, SH 117-72 (153-165); 1969
FESCUE MEADOW; RADIATION EFFECTS; INTERCOMPARTNENTAL CYCLING; INTERNAL IRRADIATION; EXTERNAL IRRADIATION; BETA-GAMMA RADIATION; PLANTS; RUNOFF; TRACERS; CESIUM 137; SAND; SOILS; LITTER; CHRONIC IRRADIATION; TERRESTRIAL ECOSYSTEMS
TAXONOMY: FESTUCA ARUNDINACEA
197 Effects of Simulated Fallout Radiation on Reproductive Capacity of Fescue
Dahlman, R.C.; Beauchamp. J.J.; Tanaka, Y.; Oak Ridge National Laboratory; University of Tennessee
Part of Proc. Third National Symp. on Radioecoiogy, Oak Ridge, Tennessee, Hay 10-12, 1971; CONF-710501-Pt. 2 (988-998).; 1971
BETA PARTICLES; CESIOM 137; CHRONIC INTAKE; SIMULATION; FALLOUT; DOSE RATES; CHRONIC IRRADIATION; GAMMA RADIATION; GERMINATION; GRASSES; PLANTS; RADIATION DOSES; REPRODUCTION; SEEDS; TESTING; TINE DEPENDENCE; IRRADIATION; INTAKE
198 The Adsorption and Mobility of. Paraquat on Different Soils and Soil constituents
Dananakis, H.; Drennan, D.S.H.; Fryer, J.D.; Holly, K.
Weed Res. 10(3), 264-277; 1970
ADSORPTION; MOBILITY; PARAQUAT; SOILS; LEHNA-M; BIOASSAY; HERBICIDES
199 The Biotransformation of organonercury compounds
Daniel, J.w.
Bicchem. J. 130(2), 6UP-65P; 1972
BIOTRANSFORMATION; ORGANO MERCURIALS; MICROORGANISMS; RAT; LIVER; FUNGICIDES; SOILS; MEflCORY
200 Effects of Chemicals on Earthworms
Davey, S.P.
U.S.C.I. Wildlife Report No. 7U; 1963
TOXICITY; CHEMICALS; EARTHWORMS
2 0 1 Laboratory Studies on the Uptake of Dieldrin and DDI bj Earth Worms
Davis, B.N.; Monks Hood Exp. stn., Nat. Conservancy, Abbots Ripton/Huntingdon, Engl.
Soil Biol. Biochem. (SBIOAH) 3 (3), 221-33; 1971
LABORATORY; UPTAKE; INSECTICIDES; EARTHHORHS; DOT; DIELDRIN; METABOLISM; WORMS
202 Effect of Diallate on Foliar Uptake and Translocation of Herbicides in Pea
Davis, D.G.; Dusbabek, K.E.; Netab. Radiat. Res. Lab., State Univ. North Dakota, Fargo, N. Dak.
Weed Sci. (HEESA6) , 21(1), 16-18; 1973
DIALLATE; FOLIAR UPTAKE; TRANSLOCATION; HERBICIDES; PEA; PLANTS; UPTAKE
203 Bioaccumulation of Radioisotopes Through Aquatic Food Chains
Davis, J.J.; Foster, R.F.
Ecology, 39, 530-535; 1958
BIOACCUMULATION; RADIOISOTOPES; FOOD.CHAINS; WATER
204 Mobility of Trace Elements in Deltas
De Groot, A.J. Trans. Comm. II and IV, Int. Soc. Soil. Sci., Aberdeen, TX, p. 267-279; 1966
MOBILITY; TRACE ELEMENTS; DELTAS
21 205
205 Contents and Behavior of Mercury a« Cospared with Other Heavy Hetals in Sedlaents froa the Rivers Has and Rhine
De Gcoot, A.J. ; De Goelj, J.J.H. ; Zegers, C.
Gel. Hljnbouw, 50, 393-398; 1971
MERCURY; HEAVY HETALS; SEDIMENTS; RIVERS
206 DDT Optake and Growth of Euglena QSacilis
De Konlng, H.H.; nortiaer, D.C.; Div. Biol., Natl. Res. Coanc. Canada, Ottawa, Qnt.
Bull. Environ, contaa. Tjxicol. (BBCTA6), 6(31, 244-8; 1971
DDT; UPTAKE; GROWTH; ABSORPTION
TAXONOMY: BUGLERA GRACILIS
207 Changes in the Properties of a Sandy Soil Resulting Froa nassive and Repeated Additions of organic Hatter Proa Various sources
Delas, J.
Ann Agron (Paris) 22 (5). 585-610; 1971
VHEAT-H; STRAW; MUSHROOMS; HAIZE-H; STALKS; FARHYARDS; MANURES; LUCERNE-D; HAY; GRAPE-D; HUHIC COMPOUNDS; CATION; EXCHANGE CAPACITY; HATER RETENTION; PH; FERTILIZERS; CONTENT; MINERALS; NITROGEN
208 Adsorption, Desorption, and Leaching of Diphenaaid in Soils
Deli, J.; Warren, G.P.
Weed Sci., 19(1), 67-69; 1971
ADSORPTION; DESORPTION; LEACHING; DIPHENAHID; SOILS; MOVEMENT; CLAY CONTENT; BENTONITE; HOCK; SILT; LOAM; ORGANICS; HERBICIDES
209 Influence of Phenoxy Growth Regulators on the Uptake of Naptalan by Potanogeton Pectinatus
Devlin, R.M.; Cranberry Exp. Stn., Univ. Massachusetts, East Warehaa, Mass.
Proc. Northeast. Weed Sci. See. (PNWSBF) 27, 115-19; 1973
NAPTALAM; UPTAKE; POTAMOGETON; CHLOROPHENOXYACETATE; HERBICIDES; PLANTS; PHENOXY GROWTH REGULATORS; AQUATIC PLANTS; GROWTH
210 Regenerative Functions end Microbial ecology of coral Reefs Labelled Bacteria in a coral ieet Microcoaa
Di Salvo, L.H.
J. Exp. Mar. Biol. Ecol., 7(2), 123-136; 1971
BACTIRIA; SOLFOR 35; CORAL tBBrS; REGENERATION; MICROORGANISMS; TRACERS; RADIOCHROMATOGRAPHY; H0DE1 ECOSYSTEM
211 •Sdtrient Optake by Tupelo Gas aad Bald Cypress frca Saturated or Unsaturated Soli
Dickscn, R.E.; Broyer, T.C.; Johnson, C.N.
Plant Soli, 37(2), 297-308? 1972
TUPElO GUM; BALD CYPRESS; ANAEROBIC ENVIRONMENT; NUTRIENTS; SOILS
TAXORCMY: NYSSA AQ0ATICA; TAXODXUH DISTICHOR
212 Accueulatloa and Persistence of DDT in a Lotic Ecosystea
Diaond, J.B.; Getchell, A.S.; Blaase, J.A.
J Fish Res Board Can 28 (12) 1877-1882; 1972
PLANTS; FTSS; BIRDS; INVERTEBRATES; ACCUHULATXON; PERSISTENCE; DDT; LOTIC; AQUATIC ECOSYSTEHS
213 Accumulation and Excretion of Chlorine 36 DDT in Mallard and Lesser Scaup Ducks
Dindal, D.L.; Ohio Cooperative Hildlife Research Unit, Coluabus, OH
The Journal of Wildlife Management, 34(1), 74-92; 1970, January
DUCKS; CHLORINE 36 DDT;; TRACERS; RADIO-LABELING; DDT; RESIDUES; INSECTICIDES; DDE; DDD; ?,P»-DDT; DDMU
TAXOBCMY: ANAS PLATYRHYNCHOS; AYTHYA APEINIS
214 Cycling and Effects of Chlorine 36 Labeled DDT on Soil Invertebrates. Annual Progress Report
Dindal, D.L.
U.S. Gov. Res. Develop Rep. 71(3), 40 NY0-3974-2; 1971
CYCLING; CHLORINE; DDT; SOIL INVERTEBRATES; LABELING; TRACERS
TAXONOMY: POTAMOGETON PECTINATUS
21% 22
in Transfer to ««<» PlRtrJ.hu t lor. of in the Soil of Two Cr4»rtl*n<» Habitat*;
ItotM, 4.H.; Aniturq, L.: . o( ^aoqe science, Ti»k»» ( t II Wnlvwrolty, c c l S t a t i o n , TX Oept. of Holo^y, ConcordiA ColIet?«t, n o o r h e a d * MN J W O
Can. <J# Soil Set., SO, 121-129; 1970,
GRASSLANDS; TMttSPOVT; SOILS; a m m t m o N t FOOTS; CESIUM 130; 8LU8STRM; S O U CO«PAST»R»TS; ROOT EXODATIOM; LITTSP OPPOSITION; SANDY LOAM; HBIDEN-IIWNT C U V ; CLAYS; TERRESTRIAL ECOSYSTEMS
TAXONOMY: 8CIII7,ACttYRTUN SCOPAP1UM
216 Hater from Low-Permeability sedlcontn and Land Subsidence
Oomenico, p.A.; Mifflin, M.D.; Rnscarch Associates, Desert Research institute, University o( Nevada, Reno
Hater Resources eeseatch, 1(4), 563-576; 1965
HATER; SEDIMENTS; LAND SUBSIDENCE; SEEPAGE; PRESSURES: GROUNDWATER: GEOMETRY
M O Jf(«et i>t M«t4belle Inhibitors Ve»p«Mtur« on
!»«<! Translocation of cUelue-fS and by intact PUnt«
Pr«*» N.c.: aiddulph, o.: «iophy«» Ptroiraa, uanbin^tfln s u t a Univ., puiie,i».
Plant fhyniol. (PLPHAY) 4*6-12; 1971
POOTS; CALCtOM; UPTAKE; ruTASSIOM; TRANSLOCATION; PLANTS; CYANZCE; PlUSnrtOS; ABSORPTION; METAEOLISSj METABOLIC HHIIUTOHS: TEMPERATURE; CAICIO!* 45; POTASSIUM «2; 9EA!15
2 2 1 Intlu«no4 of lc*lt)«tlot> on the Distribution of Fertilizer Elements In the Soil Profile
OrculntMu, <?.
Part ef Arnon, I.(Chairman) Proceedings of the Vllth Colloquium of the international Potash Institute. Transition froa Extensive to Intensive Agriculture with Fertilizers. 262 p. International Potash Institute; Borne, Switzerland, p. 96-105; 1969
ION etHAVIOR; MOVEMENT; PERCOLATION; FIXATION; ADSORPTION; SOILS; FERTILIZERS
2 1 * Mathematical Model for Beach Groundwater Fluctuation Doainick, T.F.; ttllkins, B., Jr.; Louisiana State Univ., Baton Rouge Coastal Studies Inst.
Report No. TR-108; Hater Resources Research, 7(6), 1626-1635; 1971, December
MATHEMATICAL MODEL; GROUND HATER; TIDES; PERMEABILITY; MODEL; INTERFACES; SIMULATION; NUMERICAL ANALYSIS: DIFFERENTIAL EQUATIONS; HATER TABLE; COMPUTER ANALYSIS; BEACHES; HYDROLOGY
218 Fluorescent Dyes, Their Uptake and Translocation in Plants
Donaldson, D.E.; Robinson, T.W.
Hater Resour. Res., 7(3), 692-696; 1971
FLUORESCENT DYES; UPTAKE; TRANSLOCATION; PLANTS; ROOTS; LEAVES; OLEANDER-D; FIR-G; RHODAMINE HT; PONTACYL BRILLIANT PINK; SOIL HATER; MOVEMENT; TRANSPORT; DYES
219 Prolonged Leaching of Orthic Black Ah Material with Hater and Agueous Extracts of Fopulus treauloides and Populus balsasifera Leaves
Dormaar, J.F.
J. Soil Sci., 22(3), 350-358; 1971
ORTHIC BLACK AH; AQUEOUS EXTRACTS; SOILS; PH; TOTAL EXCHANGEABLE CALCIUM; CARBON; LEACHING
222 Chemical Investigations on Soil Humic Substances
Oufcach, P.; Hehta, N.C.; Jacab, T.; Martin, F.; Roulet, N.
Geechimica et Cosmochiaica Acta, 28, 1567-1576; 196U
HUMIC SUBSTANCES; SOILS
223 Effect of Dissolution Treatment on Standard and Soil Clays
Dudas, M.J.; Harvard, M.E.
Soil Sci Soc Amer Proc 35 (1), 134-140; 1971
DISSOLUTION TREATMENT; CLAYS; BIOTITE; KAOLINITE; MICA; HALLOYSITE; CHLORITE; CATION; EXCHANGE CAPACITY; IRON; AMORPHOUS COMPONENT REMOVAL; SOILS
224 Persistence, Mobility, and Degradation of Carbon-14-Labeled-Di.nethoate in Soils
Duff, H.G.; Menzer, R.E.; Dep. Entomol., Univ. Maryland, College Park, MD
Environ. Entomol., 2(3), 309-318; 1973
DIMETHOATE; INSECTICIDES; PERSISTENCE; LABELING; DIHETHOXON; TRANSPORT; SOILS; DEGRADATION; CARBON 14
TAXONOMY: POPULUS TREMULOIDES; PCPULUS BALSAMIFERA
23 225
225 P o s s i b l e R o u t e s o f Z i n c - 6 5 f r o a a n E x p e r i a e n t a l E n t u n r i n o E n v l r o n n o n t t o H a n
s > u H e , J l . t t .
J . M a t e r P o l l u t . C o n t t . F e d c r . , 3 9 , 5 3 6 - 5 4 2 ; 1 9 6 7
ZtVC 65; ESTUARIES; ROMANS; BIOACCUMULATIOH; ROUTES; PATES; SHELLFISH: CLAWS; RADIOACTIVITY; EXPERIMENTAL POHOS; SCALLOPS; AQUATIC ECOSYSTEMS
226 Bio-Accumulation of Radioactive Gold Used as a Sedlaent Tracer in the Rstuarine Environment
Duke, T. H.; Baptist, J.P.; Hoss, D.E.
O.S. Pish Uildl. Serv., Pish. Bull., 65, U27-U36; 1966
RADIOACTIVE COLD; OYSTERS; CRABS; FISH; GOLD; TOADPISK; BLUECRABS; ESTUARIES; CROAKERS; RADIONUCLIDES; TRACERS; AQUATIC ECOSYSTEMS
TAXONOMY: LINECTES SAPIDUS; OPSANUS TAU; LEIOSTOHOS XANTHURUS
227 Influence of Environmental Factors on the Concentrations of Zinc-65 by an Experimental Community
Duke, T.V.; Willis, J.; Price, T.J.; Fischler, K.
Proc. 2nd Hatn. Syop. Radioecol., Ann Arbor, 19fi7, 3HS-3fi2; 1969
SALINITY; TEMPERATURE; PH; ZINC; OYSTERS; CLAMS; SCALLOPS: HUD CRABS; ESTUARINE ORGANISMS; BENTHOS; SEDIMENTS; ZINC 65; AQUATIC ECOSYSTEMS
228 Cycling of Trace Elements in the Estuarine Environment. I. Movement and Distribution of Zinc-65 and Stable Zinc in Experimental Ponds
Duke, T.W.; Willis, J.N.; Price, T.J.
Chesapeake Science, 7, 1-10; 196 6
CYCLING: TRACE ELEMENTS; EXPERIMENTAL PONDS; ZINC 65; TRANSPORT; SUSPENDED SOLIDS; EIOTA; BOTTOM DEPOSITS; ESTUARIES
22° Adsorption and Desorption of Cobalt-60, Strontium-35, and Cesium-137 on Soil Humic Acid Dunigan, E.P.; Francis, C.H.; Louisiana State Univ., Baton Rouge, LA
S o i l S c i . ( S O S C A K ) 11U ( 6 ) , 09W—6; 1 9 7 2
ADSORPTION; HUMIC ACIDS; RADIONUCLIDES; SORPTION; DESORPTION; HUMATES; CESIUM 137; COBALT 6 0; STRONTIUM 8*; BASES; SOILS
230 Investigations Concerning Probable Iapact of Nitrllotciacetic Acid on Ground Hatec.; Hater Pollution Control Research Series
Dunlap, W.J.; Cosby, R.L.; McHabb, J.F.; Bledsoe, B.C.; scalf, H.R.; Kerr, R.S., Hater Research Center, Ada, Okla.
Monitoring Agency Rept. Ho. H72-07223, EPA-16Q60-GHR-11/71; Proj. BPA-16060-GBR; PB 208 "33, 59p.; 1971, Noveaber
SOIL PROFILES; SORPTION; TRANSPORT; IRON; ZINC; CHROMIUM; LEAD; CADHIUH; MERCURY; NI1RIIOTRIACETIC ACID; HATER POLLUTION; CHELATES; DETERGENTS; GROUND WATER; HYDROLOGY; SOURCES; CHELATION; HETALS; BIODETSRIOR ATIOH; ADSORPTION; SOIL CHEMISTRY; AQUIFERS; LABELED SUBSTANCES; TRACER STUDIES; ACETIC ACID; AMINES; NTA; SOILS
231 Investigations Concerning Prob&ble Iapact of Nitrolotriacetic Acid on Ground Hater; Hater Pollution Control Research Series
Dunlap, H.J.; Cosby, R.L.; HcNabb, J.F.; Bledsoe, B.E.; Scalf, H.R.; Robert s. Kerr Hater Research Center, Ada, Okla.
Roteit S. Kerr Hater Research Center, Ada, Okla.; PB 208 043; Monitoring Agency Rept No. H72-07223, EPA-16060-GHR-11/71; Proj. EPA-16060-GHR; 59 p.; 1971, November
NITP.ILOTRI ACETIC ACID; WATER ; CHELATES; DETERGENTS; GROUND HATER; HYDROLOGY; SOURCES; CHELATION; METALS; BIODETERIORATION; ADSORPTION; SOIL CHEMISTRY; AQUIFERS; LABELED SUBSTANCES; TRACERS; ACETIC ACID; AMINES; NTA
232 Partition Coefficient of Strontium Between Leucocratic Phases of the Tuse-n Ignimbrites (Italy)
Dupuy, c.; Lab. Petrol., Fac. Sci., Hontpellier, Fr.
Bull. Soc. Fr. Mineral, cristallogr. (BUFCAE) 95 (3) 322-9; 1972
i-STRONTIUM; DISTRIBUTION; IGNIHBRITE; PARTITION COEFFICIENTS
233 Radionuclide Uptake by Some Freshvater Hydrobionts
Dusauskiene-Duz, N.; Marciulioniene, D.; Neniskiene, V.; Sulijiene, R.; polikarpov, G.G.; Inst. Bot., Vilnius, USSR
Liet. TSR Mokslu Akad. Darb., Ser. C (LMDCAO), (3) 201-11; 1972 " - : " •
RADIONUCLIDES: FALLOUT; ECOLOGY; HYDROBIONTS; FISH; SILT; PLANTS; FRESHWATER; MOLLUSCS; UPTAKE ,
174 24
234 Organic chelation of cobalt~60 and Zinc-65 by Leucine in Relation to Sorption by Sediments
Duursaa, R.K.
Part of Hood, Donald w. (Ed.). Syaposiua on Organic natter in Natural Raters, held at the University of Alaska. September 2-4 1968. 625 p. Institute of Marine Science University of Alaska; College, Alaska U.S.A. (3B7-397).; 1970
ORGANIC; CHELATION; COBALT 60; ZINC 65; LEUCINE; SOPPT'XOH; SEDINENTS; AQUATIC ECOSYSTEMS
235 Theoretical, Experiaental and Field Studies Concerning Diffusion of Radioisotopes in Sediments and Suspended Solid Particles of the Sea. Part A. Theories and Mathematical Calculations
Duursaa, E.IC.; Hoede, C.
Netherlands Journal of Sea Research, 3, <>23-457; 1967
FIELD STUDIES; DIFFUSION; RADIOISOTOPES; SEDIMENTS; SUSPENDED SOLID PARTICLES; SEA HATER
236 Note on Chelation and Solubility of Certain Metals in Sea Water at Different pR Values
Duursna, E.K.; Sevenhuysen, w.
Netherlands Journal of Sea Research, 3, 95-106; 1966
CHELATION; SOLUBILITY; METALS; SEA NATER; PH
237 Food Chain nodel for DDT Kinetics in a Fresh Nater Marsh
Eberhardt, L.L.; Meeks, R.L.; Peterle, T.J.
Nature (London) 230(5288), 60-62; 1971
FOOD CHAIN; DDT; KINETICS; FRESH WATER; HARSH; MATHEMATICAL MODEL; MODEL; AQUATIC ECOSYSTEMS
238 Laboratory and Field Evaluation of the Persistence of Soae Insecticides on Noctuid Larvae on Apple-D in Norway
Edland,T.
J Econ Entomol 65 (1) 208-211; 1972
DDT; PARATBION; DIAZINON; MALATHION; FENTHION; LABORATORY; FIELD; INSECTICIDES; NOCTUID
TAXONOMY: EUPSILIA TRANSVERSA; ORTBOSIA GOTHICA; XYLINA VETOSTA
179 Measurements of Production in Fertilized Salt-Water Edaondson, W.T.; Edaondson, Y.H.; Biological Laboratories, Harvard University
J. Marine Research, 6(3), 228-245; 1947
PRODUCTION; SALTWATER; MARINE PHYTOPLANKTON; FERTILIZATION; PHYTOPLANKTON
240 insecticide Residues in Soils
Edvards, c.A.
Residue Reviews, 13, 83-132; 1966 RESIDUES; INSECTICIDES; VOLATILITY; SOLUBILITY; CONCENTRATION; FORMULATION; SOILS; SOIL CONTENT; MINESALS; MICROORGANISMS; TEMPERATURE; RAINFALL; LEACHING; MOISTURE; CULTIVATION
241 Annotated Bibliography on Biological Effects of Metals in Aquatic Environments (No. 1-567)
Eisler, R.; National Marine Water Quality Laboratory, U.S. Environmental Protection Agency, West Kingston, Rhode Island 02892
Environaental Protection Agency Report Nuaber EPA-R3-73-007; 1973, February
BIBLICGRAPKY; BIOLOGICAL EFFECTS; METALS; AQUATIC ECOSYSTEMS
242 Solutions of Hydrodynamic Dispersion in Porous Media
Eldor, n.; Dagan, G.; Technion-Israel Institute of Technology, Haifa, Israel
Water Resources Research, 8(5), 1316-1331; 1972, October
DISPERSION; POROUS MEDIA; HYDROLOGY; RADIOACTIVITY; TRACERS; HYDRODYNABIC DISPERSION; DECAY; ADSORPTION; ANALYTICAL METHODS; SOILS; LEACHING; RECHARGE
24 3 Effect of Ethylenediaaine Di(O-Hydroxyphenyl Acetic Acid) Application to Soil Columns on the Distribution of Certain Nutrient Eleaents in the Water Soluble Acid Soluble and Exchangeable Forms
Elgala, A.M.; Maier, R.H.
ETHYLEHEDIAMINE DI (O-HYDROXYPHENYL ACETIC ACID); SOIL COLUMNS; NUTRIENTS; MICROBIAL DECOMPOSITION; FIXATION; MICROORGANISMS
25 2<I4
244 Sanitary Landfill Laachote Travel in Various Soil Media - A Bibliography; Pinal Rept.
Eaery, R.T.; Vermont Univ., Burlington. Technical Information Center.
Vereont Univ., Burlington. Technical inforaation Center; PB 208 095; Report Ro. UVH-TIC-133-71-1; 12 p.; 1971, December
SANITARY LANDFILLS; SOLID WASTE DISPOSAL; HASTE DISPOSAL; EARTHFILLS; HATER ; S0BS0RFACE DRAINAGE, BIBLIOGRAPHIES; LXACHING; PERCOLATION; SOILS; GROUND RATER; TRANSPORT
249 Degradation of Synthetic Organic Molecules in the Biosphere
Evans, J.O.; Duseja, D.R.
Proceedings of a Conference, San Francisco, California, June 12-13, 1971; 1972
SYNTHETHIC ORGANIC MOLECULES; PESTICIDES; BICDBGRADATION; DEGRADATION; BIOSPBBBB; DXURON; SOMHITOL; ATRAZINE; FHSNOXYACBTIC ACID; 2,4-D; 2,4,5-T; PICLORAH; TRANSPORT; PRBCIPITATION; PERSISTENCE; UREA; TRIAZINE; RETURN FLOH; RUNOFF; LEACHING: RESIDUES; HERBICIDES; ADSORPTION
245 Application of Thermocouple Psychrometers to Soil Water Transport
Enfield, C.G.; Hsieh, J.J.C.
Water Resour. Res., 7(5), 1349-1353; 1971
THERMOCOUPLE PSYCHROMETERS; SOIL HATER; TRANSPORT; ENERGY STATUS; STEADY STATE ANALYSIS; FLOW DIRECTION; DRIVING FORCE; MAGNITUDE DETERMINATION; FLUX
246 Dieldrin Uptake by Larvae of the Ccab Leptodius floridanus
Epifanio, C.E.; Dept. Zool., Duke Univ., Durhan, NC
Mar. Biol. (MBIOAJ), 19(4), 320-322; 1973
DIELDRIN; UPTAKE; CRABS; WATER; PESTICIDES; LARVAE
TAXONOMY: LEPTODIUS FLORIDANOS
247 Metabolism of Pesticides in Marine Organisms. Part 2. Biotransformation and Accumulation of DDT Carbon-14 in Flatfish, Platicthys flesus
Ernst, W.
Veroeff. Inst. Meeresforsch Bremerhaven, 12(3), 353-360; 1970
METABOLISM; PESTICIDES: MARINE ORGANISMS; BIOTRANSFORMATION; ACCUMULATION; CDT CARBON-14; FLATFISH: RADIOSCANNING; THIN LAYER CHROMATOGRAPHY; DDT; CARBON 14
TAXONOMY: PLATTCTHYS FLESUS
248 Fixation and Release of Cs-137 in Soils and Soil Separates
Evans, E.J.; Dekker, A.J.; Soil Research Institute, Canada Department of Agriculture, Ottawa
Can. J. Soil Sci., 46, 217-222; 1966
250 Cesiua-137 and stable Cesiue in a Hyper-Eutrophic Lake
Eyean, L.
PhD Thesis Michigan State University, East Lansing, Michigan; 1972
ALGAE; AQUATIC ECOSYSTEHS; CESIUM; CESIUM 137; DISTRIBUTION; FISH; FOOD CHAINS; LAKES; PLANKTON; PLANTS; QUANTITY RATIO; RADIONUCLIDES; MIGRATION; SEDIMENTS; TRACERS; EUTROPHICATIGN
251 Formation of Methyl Mercury from Pure Mercuric Sulfide in Aerobic Organic Sediment
Fagerstrom, T.; Jernelov, A.
Water Res., 5(3), 121-122; 1971
INDUSTRIAL WASTE WATER; MERCURY; MERCURIC SULFIDE; METHYLMERCURY; SEDIMENTS; HETHYLATION
252 Soae Aspects of the Quantitative Ecology of Mercury
Fagerstrom; T.; Jernelov, A.; Swed. Water-Air Pollut. Res. Lab., Stockholm, Swed.
Water Res. 6, 1t93-1202
TRANSFORMATION; AQUATIC ECOSYSTEMS; FIELD EXPERIMENTS; QUANTITATIVE ECOLOGY; MERCURY; LABORATORY
253 The Effect of Bicarbonate on Phosphorus-32 Uptake by Tcmato and Runner Bean
Falade, J.A.
Ann Bot. (Lond), 37(150), 341-344; 1973
IRON; CHLOROSIS; NUTRIENTS; TRANSLOCATION; INHIBITION; PLANTS; TOMATOES; BEANS; UPTAKE
TAXONOMY: PHASEOLOS VULGARIS L. CV. BEST OF ALL; LYCOPERSICON ESCULENTUM CV. HERBINGER
FIXATION; CESIUM 137; CESIUM CHLCPIDE; SOILS; SOIL SEPARATES; PODZOLIC SOILS
313 26
254 Uptake and Biotransformation of Phenylmercuric Acetate by Aquatic organisms
Fang, S.C.; Dep. Agric. Chem., Oregon State Univ., corvallis, Oreg.
Arch. Environ. Contam. Toxicol., 1(1), 18-26; 1973
PHENYLMERCURY; ACETATE; FISH; S H A H S ; MERCURY; PLANTS; METABOLISM; TRANSFORMATIOH
TAXONOMY: ELODEA CERATOPHYLLUM
255 A Large Volume Laboratory Stream
Feldmeth, C.R.
Hydrobiologia, 35(3-0), 397-400; 1970 LABORATORY STREAM; INVERTEBRATES; FISH; INVERTEBRATES REARING; MODEL ECOSYSTEM; AQUATIC ECOSYSTEMS; STREAMS
256 Saapling Procedures and Problems in Determining Pesticide Residues in the Hydrologic Environment
Feltz, H.R.; Culbertson, J.K.
Pestic Monit J., 6(3), 171-178; 1972
SAMPLING; RESIDUES; RIVERS; LAKES; ESTUARIES; PESTICIDES; HYDROSOLS
257 Some Results of Tests on the Mineral Nutrition of Fruit Trees
Ferauge, M.T.
Ann Gembloux, 76(1), 7-31; 1970
TESTS; NUTRITION; FRUIT TREES; FERTILIZERS; PHYTOTRON; HYDROPONICS; NITROGEN; PHOSPHATE; UPTAKE; PLANT COVER; TEMPERATURE; GROWTH; MINERALS; TREES
258 Studies of a Simple Laboratory Microecosysteo-Effects of Stress
Ferens, M.C.; Beyers, R.J.
Ecology, 53(4), 709-713; 1972
ACUTE IRRADIATION; AQUATIC ECOSYSTEMS; BIOLOGICAL RADIATION EFFECTS; CHLOROPHYLL; GAMMA BADIATION; METABOLISM; MICROORGANISMS; POPULATION DYNAMICS; POPULATIONS; PRODUCTIVITY; IRRADIATION; LABOHATOBY MICROECOSYSTEHS
318 Research on Leac'ting in Saline Soil Columns Part 2 Application of Calcic correctors and Their Effect on the Series of Zanjones Lover Rio-Colorado Valley
Ferreiro, E.A.; Peinemann, N.
Rev Invest Agropecu Ser 3 clima Suelo 7 (3), 145-157; ig70
RIVERS; SOIL COLUMNS; SOILS; RECLAMATION; SALINE SOIL COLUMNS; CALCIC CORRECTORS; LEACHING
260 Mercury Accumulation by the Fresh Water Alga Selenastrum capricornutum
Filip, D.A.; Lynn, R.I.; Dep. Bot., Utah State Univ., Logan, UT
Chemosphere (CMSHAG) 1(6), 251-4; 1972
FRESHWATER; ALGAE; MERCURY; ACCUMULATION; UPTAKE
TAXONOMY: SELENASTRUM CAPRICORNUTUH
2 6 1 Investigation of the Light Dependence of the Uptake of Rubidium, Zinc, Cobalt, Lead and Cerium by Chlorella by a Flov Method
Findenegg, G.R.; Paschinger, H.; Broda, E.
Planta (Berl), 99(2), 163-173; 1971
LIGHT; UPTAKE; RUBIDIUM; ZINC; COBALT; LEAD; CERIUM; FLOW METHOD; TEMPERATURE
TAXONOMY: CHLORELLA
262 Correlation Betveen Rubidium Ion Influx into Roots and Rubidium Chloride Stimulated Atpase
Fisher, J.D.; Hansen, D.J.; Hodges, T.K.
Plant Physiol 46 (SUPPL.). 23; 1970
MITOCHONDRIA; MEMBRANE; RUBIDIUM; IONS; ION INFLUX; RUBIDIUM CHLORIDE; ATPASE
263 Comparative Rates of phosphorus Sorption and Utilization by Algae and Aguatic Weeds
Fitzgerald, G.P.
J Phycol 7 (SUPPL). 11; 1971
ALGACIDES; HERBICIDES; ALGAE; PHOSPHORUS; SORPTION
TAXONOMY: MYRIOPHYLLUM-D-SP; LEMNA-MINOR-H; PITHCPHOHA-OEDOGONIUM; SELENASTRUM-CAPRICORHUTUM
27 264
264 Tensionmeter Pressure Transducer System for Studying Unsteady Plow through Scils
Fitzsimmons, D.W.; young, N.C.
Trans. Asae (Am Soc. Agric. Eng) 15(2), 272-275; 1972
TENSIOMETER; SOILS; WATER NOVEHENT; DRAINAGE; IMBIBITION; FLOW
265 Bacterial Degradation of Di Phenyl Methane, a DDT Model Substrate
Focht, D.D.; Alexander, M.
Appl. Microbiol. 20(4), 608-611; 1970
EACTEHIA; DEGRADATION; DI PHENYL METHANE; MODEL; DDT; SUBSTRATE
TAXONOMY: HYDROGENOMONAS
266 Chlorinated Pesticides in Estuarine Organisms
Foehrenbach, J.; New York State Dep. Environ. Conserv., Ronkonkoua, NY
J. Water Pollut. Contr. Fed. (JWFFA5), 44(4), 619-624; 1972
PESTICIDES; DDT; DDD; DDE; DIELDRIN; SHELLFISH; SHORT-TERM EFFECTS; FOOD CHAINS; FISH; METABOLITE; BIOACCUMULATION; ESTUARIES; CHLORINE
267 Changes in Diethylenetrianine Penta Acetic-Acid Bxtractable zinc. Iron, Manganese, and Copper in Soils Following Fertilization
Follett, R.Hw; Lindsay, W.L.
Soil Sci. Soc. Am. Proc., 35(4), 600-602; 1971
DIETHYLENETRIAMINE PENTA ACETIC-ACID; ZINC; IRON; MANGANESE; COPPER; SOILS; MICRONUTPIENTS; AVAILABILITY; TESTS; FERTILIZERS; DTPA
268 The Lake as a Microcosm
Forbes, S.A. Bull. Sci. Acad. Peoria. Reprinted III. National History Survey Bull. 15, 537-550, 1925; 1887
LAKES; MICROCOSMS; AQUATIC ECOSYSTEMS
269 Bioaccumulation of Chlorine 36 Ring-Labeled DDT by Blarina Brevicauda and sorex Cinereus in an Old-Field Ecosystem
Forsyth, D.J.; Ohio State Univ., Coluebus
Ohio State Univ., Columbus; Thesis; COO-1358-11;-Monitoring Agency Rept No. 18; Contract AT (11-1)-1358; 42 p.; 1972
'J .
LABELING; TRACERS; ECOSYSTEMS; SHREWS; BIOACCUMULATION; OLD FIELD ECOSYSTEM; DDT
TAXONCMY: BLARINA BREVICAUDA; SOBEX CINBREUS
270 Water Relations of Tree crops. A Comparison between Corsican Pine-G and Douglas Fir-G in southeast England
Fourt, D.F.; Hinson, w . H .
J. Appl. Ecol., 7(2), 295-309; 1970
TREE CHOPS; CORSICAN PINE-G; DOUGLAS FIR-G; TRANSPIRATION; UPTAKE; TREES
271 Distribution of Copper and Other Metals in Gully Sediments of Part of Okanogan County, Washington
Fox, K.F.; Rinehart, C.D.; U.S. Geol. Surv., Menlc Park, California
Wash., Div. Mines Geol., Bull. (WCGBAJ), 65, 1-38; 1972
COPPER; METALS; SEDIMENTS; COPPER ORE; LEAD; ZINC; SILVER; GOLD
272 Plutonium Mobility in Soil and Uptake in Plants -A Review
Francis, C.W. .
J. Environ. Qual.-2- No. 1, 67-70; 1973
PLUTONIUM; MOBILITY; CHELATING AGENTS; FOOD CHAINS; PLANTS; RADIONUCLIDE KINETICS; RADIONUCLIDE MIGRATION; SOILS; REVIEW; UPTAKE; RADIONUCLIDES; PLUTONIUM
27 3 A Rapid and simple Procedure Using strontium-85 for Determining Cation Exchange Capacities "of Soils and Clays
Francis, C.W.; Grigal, D.F.
Soil Sci. 112 (1), 17-21; 1971
STRONTIUM 85; CATION; EXCHANGE CAPACITY; SOILS; . CLAYS; DETERMINATION
313 28
271 Three-Dimensional, Transient, Saturated-Unsaturated Flow in a Groundwater Basin
Freeze, P.A.; IBM Thomas J. Watson Research Center, Yorktown Heights, Nev, York 10593
Water Resources Research, 7(2), 317-366; 1971, April
GROUNDWATER; FLOW; MODELING; INFILTRATION; RECHARGE
275 Absorption of Trace Elements Copper and Cobalt by Some Field Cultures in Relation to the Content of Organic Matter in Soil
Freiberga, G.Y.
Izv Akad Nauk Latv SSR (2), 116-121; 1970
SOILS; FIELD CULTURES; ABSORPTION; TRACE ELEMENTS; COPPER; COBALT; ORGANIC
276 Requisite Sampling Frequency for Measuring Nutrients and Pesticide Movement vith Runoff Waters
Frere, M.H.
J. Argric. Food Chem. 19(5), 837-839; 1971
SAMPLING; WATER; TRANSPORT; SAMPLING FREQUENCY; NUTRIENTS; PESTICIDES; RUNOFF
277 Adsorption and Transport of Agricultural Chemicals in Watersheds
Frere, M.H.; American society of Agricultural Engineers, St. Joseph, Michigan
Transactions of the ASAE, 16(3), 569-572, 577; 1973
ADSORPTION; TRANSPORT; CHEMICALS; WATERSHEDS; BODELING; PLANTS; SURFACE WATER; GROUNDWATER; EROSION; RUNOFF; FERTILIZERS; PESTICIDES
318 Modeling Water and Nitrogen Behavior in the Soil-Plant System
Frere, M.H.; Jensen, M.E.; Carter, J.N.; U.S. Soils Laboratory, SEC-&RS-USDA, Beltsville, Maryland; Snake River Conservation Research Center, SWC-ARS-USDA, Kimberly, Idaho
Part cf Proceedings of the 1970 Summer Computer Simulation Conference, June 10-12, 1970, Denver, Colorado, Volume II, Groups V, VI and VII
IRRIGATION; FERTILIZERS; MODELING; MATHEMATICAL' SOLUTION; ORGANICS; NITROGEN; PLANTS; GROWTH; EVAPCTRANSPIRATION; SOIL WATER; NITRATE
2 8 0 Humification of a Carbon-11 Labelled Organic Matter in Soil and the Incorporation of Nitrogen-15 in Humic substances
Freytag, H.E.; Igel, H.
Part of Szegi, J. (Ed.), Symposia Biologica Hungarica, Vol. 11, Proceedings of the Symposium on Soil Microbiology. Budapest, Hungary, June 16-20, 1970, 454P. Akademiai Kiado: Budapest, Hungary, 1972 (167-172)
HUMIFICATION; MICROBIAL AUTOLYSIS; SOILS; CARBON 11; LABELING; NITROGEN 15
281 The Aqueous Behavior of Strontium-85, Cesium-137, Zinc-65, and Cobalt-60 or Determined by Laboratory-Type Studies
Friend, A.G.
Part of Transport of Radionuclides in Freshwater Systems, Report of a meeting held at Univ. of Texas, January 30-February 1, 1963. U.S. Atomic Energy Commission, Div. Technical Information TIC-7664 (43-60); 1963
CATION; NATURAL WATERS; CALCIUM; MAGNESIUM; SODIUM; POTASSIUM; STRONTIUM 85; CESIUM 137; ZINC 65; COBALT 60; UPTAKE; RETENTION; RADIONUCLIDES; FISH; CLAMS; SNAILS; TADPOLES; ARTIFICIAL POND; TBANSPORT; AQUATIC ECOSYSTEMS; FRESHWATER
278 Computer Modeling of Nutrient Movement in Soils
Frere, 51.H.; De Wit, C.T. Part of Proceedings of the 6th International Colloguitim on Plant Analysis and Fertilizer Problens, Vol. 1 6 2, Recent Advances in Plant Nutrition, Tel-Avi, Israel; 1970, March
COMPUTER MODELING; SOILS; MODEL; NUTRIENTS; TRANSPORT; CONCENTRATION; ABSORPTION; UPTAKE; MATHEMATICAL ANALYSIS; DIGITAL COMPUTERS
282 Fractionation of Phosphorus in Lake Sediments: Analytical Evaluation
Frink, C.R.
Soil Science Society of America, Proceedings, 33, 326-326; 1969
FRACTIONATION; PHOSPHORUS; LAKES; SEDIMENTS; ANALYTICAL EVALUATION
29 283
283 Plant Nutrients and Hater Quality
Frink, C.R.
Agric. Sci. Rev. Coop. State Res. Serv.; !!.S. Dep. Agric., 9(2), 11-25; 1971
NUTRIENTS; HATER; WATERWAYS; WATERSHEDS; IRRIGATION; FERTILIZERS; SEWAGE; EFFLUENT; CYCLING; UTILIZATION; PLANTS
284 Chemical and Mineralogical Characteristics of Eutrophic Lake Sediments
Frink, C.R.
Soil Science Society of America, Proceedings, 33, 369-372; 1969
SEDIMENTS; LAKES; MINERALOGY
285 Chromatographic Transport Through Soils. Part 3. A Simulation Model for the Evaluation of the Apparent Diffusion Coefficient in Undisturbed Soils with Tritiated water
Frissel, M.; Poelstra, P.; Reiniger, P.
Plant Soil 33 (1). 161-176
TRANSPORT; TRITIUM; TRACERS; CHROMATOGRAPHY; SOILS; SIMULATION MODEL; DIFFUSION COEFFICIENTS; CONTINUOUS SYSTEM MODELING PROGRAM; CSMP
286 Accumulation of Mercury by Fresh Water Planktonic Diatom
Fujita, M.; Hashizune,^K.; Natl. Inst. Public Health, Tokyo, Japan-
C h e m o s p h e r e (CMS 5), 20 3-7; 1972
DIATOMS; UPTAKE; MERCURY ACCUMULATION; PLANKTON; ACCUMULATION; MERCURY; FRESHWATER
288 Pollution of Subsurface water by Sanitary Landfills. Volume 2.; Interim Rept., 1 Oct 67-31 Dec 68
Fungaroli, A. A.; Drexel Univ., Philadelphia, PA 405 723
Drexel Univ., Philadelphia, PA 405 723; PB 209 001; Grant EP-000162; Monitoring Agency Rept No. EPA-SH-12RG. 1-71;2;, 221 p.; 1971
EARTHEILLS; HATER ; SUBSURFACE DRAINAGE; REPOSE DISPOSAL; HYDROLOGY; GROUND WATER; LEACHING; LYSIBETERS; PH; BETALS; GASES; SANITARY LANDFILLS; SOLID WASTE DISPOSAL
289 Pollution of Subsurface Water by Sanitary Landfills. Volume 3.; Interim Rept. 1 Jan-29 Sept. 69
Fungaroli, A.A.; 405 723 Drexel Univ., Philadelphia, PA
Drexel University, Philadelphia, PA; PB 209 002; Contract EP-000162; Monitoring Agency Rept. No. EPA-SW-12RG. 2-71; 3;, 174p.; 1971
EARTHFILLS; WATER; SUBSURFACE DRAINAGE; REFUSE DISPOSAL; HYDROLOGY; GROUND WATER'; LEACHING; LYSIMETERS; PH; METALS; GASES; SANITARY ' LANDFILLS; SOLID WASTE DISPOSAL
290 The Nutritional Role of Lupinus arboreus-D in Coastal Sand Dune Forestry. Part 2. The Potential influence of Damaged Lupine-D Plants on Nitrogen Uptake by Pinus radiata-G
Gadgil, R.L.
Plant Soil, 34(3), 575-593; "971
NITROGEN; UPTAKE; SHADING; ROOTS; GROWTH; NODULATION; INHIBITION; DEFOLIATION; ARTIFICIAL VEGETATION; SUCCESSION; GLASSHOUSE EXPERIMENTS; SAND DUNES; FORESTS; TERRESTRIAL ECOSYSTEMS
TAXONOMY: LUPINUS ARBOREUS; PINUS RADIATA; MYCENA MA0RIALIS
287 Pollution of Subsurface Water by Sanitary Landfills. Volume 1.; Interim Rept., 1 Oct 67-29 Sep 69
Fungaroli, A. A.; Drexel Univ., Philadelphia, PA 405 723
Drexel Univ., Philadelphia, PA 405 723; PB 209 000; Grant EP-000162; Monitoring Agency Rept No. EPA-SW—12RG-71;1; 198 p.; 1971
EftRTHFILLS; WATER ; SUBSURFACE DRAINAGE; REFUSE DISPOSAL; HYDROLOGY; GROUND WATER; LYSIMETERS; LEACHING; PH; METALS; NUTRIENTS; MATHEMATICAL MODELS: COMPUTER PROGRAMS; SANITARY LANDFILLS; SOLID WASTE DISPOSAL; WATER POLLUTION DETECTION; MODEL
291 Arsenate Sorption in Soils. III.Effect of Soil Solution pH On the Intensity of Arsenate Sorption
Galba, J.; univ. Agric., Nitra, Czech.
Pol'Noliospodarstvo (POLNAJ) 18 (12) 1055-61; 1972
ARSENATE; SORPTION; SOILS; ACIDITY; PH
292 Migration and Leaching of Metals from Old Mine Tailings Deposits
Galbraith, J.H.; Williams, R.E.; Siems, P.L.
Ground Water 10(3), 33-44; 1972
MIGRATION; LEACHING; METALS; MINE TAILINGS; TRANSPORT; BACTERIA
293 30
293 Radionuclide Accumulation by Anodonta piscina its Nilsson (Lamellibrachiata) in a Continuous Flow System
Garder, K.; Skulberg, 0.
Hydrobiologia 26, 151-169; 1965
CONTINUOUS FLOW SYSTEM; RADIONUCLIDES; ANIMALS; EHOSPHORUS 32; STRONTIUM 89; CERIUM 1U»; RUTHENIUM 103; CESIUM 137; ZIRCONIUM 95/NIOBIUM 95; SEASONAL VAR IATIONS; BIOACCUMULATION
TAXONOMY: LAMELLIBRACHIATA; ANODONTA PISCINALIS-NILSSON
2 9 U
Field Measurement of Soil water Diffusivity
Gardner, W.P.
Soil Sci. Soc. Amer. Proc., 34, 832-833; 1970 SOIL WATER; DIFFUSIVITY; SOILS; UNSATURATED FLOW; CAPILLARY CONDUCTIVITY; FLOW EQUATION
295 Losses of Nitrogen and Other Plant Nutrients to Drainage from Soil Under Grass
Garwood, E.A.; Tyson, K.C.
J. Agric. Sci., 80(2), 303-312; 1973
NITROGEN; NUTRIENTS; TRANSPIRATION; LEACHING; SOILS; GRASSES; TERRESTRIAL ECOSYSTEMS
2 9 6
The Cycling of Mercury Through the Environment
Gavis, J.; Ferguson, J.F.
Water Res 6(9), 989-1008; 1972
CYCLING; MERCURY
298 The Fungal Microcosm of the Internodes of Spartina-Alterniflora
Gessner, 3.V.; Goos, R.D.; Sieburth, J.M.
Mac. Eiol. (Berl.), 16 (U) , 269-273; 1972
MICROCOSMS; FUNGI; CORD GRASS; BACTERIA; NEMATODES; MITES; SCANNING ELECTRON MICROSCOPY; SEASONAL VARIATIONS; GRASSES
TAXONOMY: SPARTINA ALTERNIFLORA; SPHAERULINA PEEICELLATA
299 Effect of Soils Upon the Uptake of Systemic Insecticides by Plants
Getzin, L.W.; Chapman, R.K.; Department of Entomology, University of Wisconsin, Madison, Wl
Journal of Economic Entomology, 52(6), 1160-1165; 19=9
DIMETHYL 5-(1-ISOPROPYL-3-METHYL-PYRAZOLYL-CARBAMA TE); 1-METHOXYCARSONYL-1-PROPEN-2-Y1 DIMETHYL PHOSPHATE; ORGANIC HATTER CONTENT; NITROGEN CONTEST; ORGANIC SYSTEMIC INSECTICIDES; LEACHING; APHIDS; BIOASSAY; ANTICHLOINESTERASE ANALYSIS; THIMET; SOILS; SAND; 0,0-DIETHYL S-(ETHYLTHIO)METHYL PHOSPHORODITHIOATE; SCHRADAN; ISOLAN; BINDING; EXCHANGE CAPACITY; PHOSDRIN; INSECTICIDES
TAXONOMY: MACROSIPHUM PISI
300 Mobilization of Mercury From Sedicients Into Guppies Poecilia Reticulata
Gillespie, D.C.
J fish Res Board Can 29 (7). 1035-1041; 1972
FISHERY; FISH; MOBILIZATION; MERCURY; SEDIMENTS; GUBPIES
TAXONOMY: POECILIA-RETICULATA
297 sidDle stream Tank Simulating a Bapias Enviornment
'Gee, J.H.; Rartnik, V.G.; Dept. cf Zoology, University of Manitoba, Winnipeg, Man.
J. Fish Res., Board Canada 26(8); 1969
RAPIDS ENVIRONEMNT; AQUATIC ECOSYSTEMS; MODEL STREAMS
301 Mobilization of Mercuric Sulfide From Sediment Into Fish Under Aerobic Conditions
Gillespie, D.C.; Scott, D.P.
J Fish Res Board Can 28 (11) 1807-1808; 1971
SECIMENTS; MOBILIZATION; MERCURIC SULFIDE; PISH; AEROEIC
302 Fate of a Mercuric-Hercucous Chloride Fungicide Added to Turf Grass
Gilnour, J.T.; Miller, M.S.
J. Environ. Qual. (JEVQAA) 2 (1) 145-8; 1973
GRASSES; MERCURY; FUNGICIDES; VOLATILIZATION; SOILS; MERCURIC CHLORIDE
TAXONOMY: CALOCLOR AGROSTIS
31 283
283 A Padio Tracer Technique For the Study In-Vivo of the Biological Pathway of Heavy Hetals in Aguatic Organisms
Girardi, P.; Merlini, tl.; Bigliocca, C.; Pozzi, G.; Berg, A.
Part of Welsh, C.N. (Ed.), International Atomic Energy Agency Proceedings Series. Nuclear Technigues in Environmental Pollution, Symposium 810p. . Unipub, Inc.: New tork, N.Y. U.S.A. (721-733).; 1971
COLLIMATED DETECTOR; GAMMA-RAY SPECTHOMETRY; COMPUTER TRACERS; IN VIVO; METALS; AQUATIC ORGANISMS; TRACEBS
30" Ultrafiltration of Aquatic Humus
Gjessing, E»T. Environmental Science and Technology, 4, 437-438; 1970
U L T R A F I L T R A T I O N ; HUMUS; WATER
305 Fractionation cf Organic Hatter in Natural Haters on 'Sephadex' Columns
Gjessing, E.T.; Lee, G.F.
Environmental Health Engineering, 1, 631-638; 1967
FRACTIONATION; ORGANIC HATTER; NATURAL WATERS; SEPHADEX COLUMNS
306 Density and Dispersion in Laboratory Populations of Caddisfly Larvae (CHEUMATOPHSYCHE, HYDROPSYCHIDAE)
Glass, L.W.; Bovbjerg, R.V.; Dept. of Zoology, University of Iowa, Iowa City, IA 52240
E c o l o g y 5 0 ( 6 ) , 1 0 8 2 - 1 0 8 4
DADDISFLY LARVAE; AGGRESSIVE BEHAVIOR; DISPERSION; LARVAE; DENSITY
TAXONOMY: CHEUMATOPSYCHE
307 Experiments on the Question of Mineral Feeding of Spruces-G Picea Abies-G on Calcareous Rendzina Soils
Glatzel, G.
Centralbl Gesaste Forstw, 87 (3), 127-144; 1970
EXPERIMENTS; SPRUCES; CALCAREOUS RENDZINA SOILS; NUTRIENTS; UPTAKE; MINERALS; SOILS
TAXONOMY: PICEA ABIES-G
288 Experimental Hydrophysics of soils Methods for the Determination of Soil Moisture Potential and its Transport Coefficients '
Globus, A.M.
Books, Trans. 355; 1969
HYDROPHYSICS,-../SOILS; METHODS; SOIL MOISTURE; TRANSPORT COEFFICIENTS; CONDUCTIVITY; CAPILLABY DIFFUSION; TRANSPORT; TEMPERATURE .
309 Radioactivity Transport in Water-Continuous Release of Radio Nuclides in a Small scale Ecosystem. Technical Report.
Gloyna, E.F.; Yousef, Y.A.; Padden, T.J.; Texas Univ., Austin. Dept. of Civil Engineering
Texas Univ., Austin, Dept. of Civil Engineering, ORG-490-21, Rept. No. EHE-71-1, CRWR-75; contract AT(11-1) - a g o , 78p.; 1971, September 30
ALGAE; CESIUM; ISOTOPES; CESIUM 134; ECOSYSTEMS; PLANTS; RIVERS; SILTS; STRONTIUM; STRONTIUM 85; WATER; TRANSPORT; RADIONUCLIDES; RADIOACTIVITY
310 Estimates of In Situ Rates of Nitrogen Uptake by Trichodesmium Sp. in the Tropical Atlantic Ocean
Goering, J.J.; Dugdale, R.C.; Menzel, D.W.
Limnol. Ocean., 11, 614; 1966
UPTAKE RATE; ALGAE; ALGAL BLOOM; LAKES; IN SITU; NITROGEN; UPTAKE; NITROGEN-FIXING; BLUE-GREEN ALGAE
TAXONCMY: TRICHODESMIUM SP.
311 ?. Kethod of Studying Nutrient Limiting Pactors In Situ in Water Columns Isolated by Polyethylene Film
Goldman, C.R.
Limnol. Ocean., 7, 99-101; 1962
WATER COLUMNS; POLYETHYLENE FILM; NUTRIENT LIMITING FACTOR; NUTRIENTS; THERMISTOR; THERHCCLINE
312 Primary Productivity in Aquatic Environments
Goldman, C.R. Proceedings of an l.B.P. Symposium Pallanza, Italy, April 26-May 1, 1965, University of California Press, Berkeley and Los Angeles; 1966
r
PHOTOSYNTHESIS; ADAPTATION; ALGAE; LIGHT; ENERGY; PLANKTON; PHYTOPLANKTON; RESPIRATION; MICROECOSYSTEMS; ASSIMILATION RATES; REPLENISHMENT; STRATIFICATION; MIXING; BIOASSAY; LAKES; BACTERIA; BENTHOS; MODEL; MACBOPHYTES; PERIPHYTON; STANDING CROP; NANNOPLANKTON; CHLOROPHYLL; DECOMPOSITION; CHLOROPLASTIC PIGMENTS; DIFFUSION UPTAKE; AQUATIC ECOSYSTEMS
313 32
313. Studies on the Cycle of Elements in Fresh Hater
Golterman, H.L.; Laboratory for General Botany, Plant Physiology and Pharmacognosy, University of Amsterdam and Hydrobiological Institute, Nieuversluis
Acta Botanica Neerlandlca, 11, 1-58; 1960
ELEMENTS; FRESHWATER; AMMONIA; NITRITE; NITRATE; NITROGEN; CYCLING; INORGANIC PHOSPHATE; PHOSPHATE; SILICATE; SILICIUM
TAXONOMY: SCENEDESMUS QUADRICAUDA
311 Availability of Mud Phosphates for the Grovth of Algae
Golternan, H.L.; Bakels, c.c.; Jakobs-Mogelin, j.
Verh. Internat. Verein. Limnol., 17, 467-479; 1969
AVAILABILITY; PHOSPHATES; GROWTH; ALGAE
315 The Ecology of a Biotic Community Consisting of Algae and Bacteria
Golueke, C.G.; sanitary Engineering Research Laboatory, University of California, Berkeley
Ecology, »1, 65-73; 1960
CLIMAX ASSOCIATIONS; ALGAE; BACTERIA; CULTURE; BIOTIC COMMUNITY; MICROORGANISMS; SUCCESSION
TAXONOMY: CHLORELLA; SCENEDESMUS
316 Closing an Ecological System Consisting of Mamaal, Algae, and Hon-Photosynthetic Microorganisms
Golaeke, C.G.; Oswald, R.J.
Aa. Biol. Teacher, 25, 522-528; 1963
ALGAE; ANIMALS; MAMMALS; MICROORGANISMS; AQUATIC ECOSYSTEHS
317 The Biological control of Enclosed Environments
Golueke, C.G.; Oswald, H.J.; HcGauhey, P.H.; Sanitary Engineering Research Laboratory, Department of Engineering, University of California, Berkeley, Calif.
Sewage and Industrial Hastes, 31(10), 1126-1143; 1959, October
BIOLOGICAL CONTROL; ENCLOSED ENVIRONMENTS; BACTERIA; ALGAE; SPACE TRAVEL; GAS EXCHANGE CAPACITY; RASTE TREATMENT; HUHANS
318 Bacterial Degradation of Detergent Compounds
Gocdncw, R.A.; Harrison, A.P.; Div. Biol. Sci., Univ. Missouri, Columbia, MO
Appl. Microbiol. (APMBAY) 24(4) 555-560; 1972
DETERGENTS; BACTERIA; SURFACTANTS; DEGRADATION
319 Relationships Between Primary Productivity and Mosguitofish Production in Large Microcosms
Goodyear, C.P.; Doyd, c.E.; Beyers, R.J.
Lianol Oceanogr 17 (3), 445-450; 1972
PRODUCTIVITY; MOSQUITOFISH; MICROCOSMS; FERTILIZATION; FISH
TAXONOMY: GAMBUSIA-AFFINIS
320 Studies of a Simple Laboratory Hicroecosystem: Bacterial Activities in a Heterotrophic Succession
Gorden, R.W.; Beyers, R.J.; Odum, E.P.; Eagon, R.G.; Departnent of Microbiology and Zoology, University of Georgia, Athens, Georgia
Ecology, 50, 86-100; 1969
LABORATORY STUDIES; MICROECOSYSTEMS; HETEROTROPHIC SUCCESSION; BACTERIA; THIAMIN; CONSUMERS; CARBON DIOXIDE; ALGAE; PHOTOSYNTHESIS; RESPIRATION; CARBON 14; RADIOISOTOPES; C14-U-GLYOXYLATE; SUCCESSION; MODEL ECOSYSTEH; AQUATIC ECOSYSTEMS
TAXONCMY: CHLORELLA
321 Ecology of Heterotrophic Aerobic Bacteria of Playa Lakes and Microcosms
Gorden, R.W.; Hill, L.B.
Southwest Nat 15 (4), 419-428; 1971
WATERFOWL; PHYTOPLANKTON; HETEROTROPHISH; BACTERIA; MICROCOSMS; LAKES; BIRDS
322 The Absorption of Lead and copper by Roots of Hordeun-vulgare-H
Goren, A.; Wanner, H.
Ber Schweiz Bot Ges 80, 334-340; 1971
ABSORPTION; LEAD; COPPER; ROOTS
TAXONOMY: HORDEUH-VULGARE-N
33 323
323 Factors influencing Supply of Major Ions to Inland Haters, with Special Reference to the Atmosphere
Gorham, E.
Bulletin of the Geological Society of America, 12, 795-870; 1961
IONS; INLAND HATERS; ATMOSPHERE
329 Tropical Soil Potassium as Related to Labile Pool and Calcium Exchange Eguilibria
Graham, E.R.; Fox, R.L.
Soil Sci., 111(5), 318-322; 1971
POTASSIUM; CALCIUM; EXCHANGE EQUILIBRIA; SHEET CORN-M; NUTRIENT AVAILABILITY; SOILS
324 Penetration of Bog Peats and Lake Sediments by Tritium from Atmospheric Fallout
Gorham, E.; Hofstetter, R.H.
Ecology, 52(5), 898-902; 1971
SEDIMENTS; TRITIUM; FALLOUT; SPHAGNUM; PEAT; FEN PEAT; EVAPOTRANSPIRATION; ATMOSPHERIC PRECIPITATION; MOLECULAR DIFFUSION; BOGS; TRANSPIRATION
325 Bioindicator Determination of the Adsorption of Herbicides by Three Types of Soils
Gorzelak, A.; zakl. Gleboznavstva Nawozenia, Inst. Bad. Lesn., Warsaw, Pol.
Pr. Nauk. Inst. Technol. org. Tworzyw Sztucznych Politech. Wroclaw. (PNITAF) No. 9, 85-7; 1972
HERBICIDES; ABSORPTION; SOILS; ATRAZINE; SIMAZINE; DOMATOL; BIOINDICAT
326 A Simple Automatic Soil Percolator
Goswami, K.P.; Green, R.E.
Soil Biol Biochem 3 (4) (RECD 1972), 389-391; 1971
SOILS; PERCOLATION
330 Pesticide Adsorption Measurement by Flow Eguilibration and Subseguent Displacement
Green, R.E.; Corey, J.C.
Soil Sci Soc Am Proc 35(4), 561-565; 1971
FLOH EQUILIBRATION; ADSORPTION; ATRAZINE; DIUBOH; PESTICIDES; DISPLACEMENT
331 Solubilization of Lead in Lake and Reservoir Sediments by Nitrilo Tri Acetic-Acid
Gregor, C.D.
Environ. Sci. Technol 6 (3), 278-279; 1972
SOIUBILIZATION; SEDIMENTS; DETERGENTS; NTA; LAKES; RESERVOIRS; LEAD
332 The Dynamics of Trace Elements in a Micro Algae Cultivator with Continuous Culture of Chlorella
Gribcvskaya, I.v.; Ivantsova, R.N.
The Biology and Cultivation of Microorganisms. Krasnoyarsk, USSR, Ref. Zh. Biol. No. 1, 64-68; 1969
TRACE ELEMENTS; MICRO ALGAE CULTIVATOR; CONTINUOUS CULTURE; CHLORELLA; ALGAE
TAXONOMY: CHLORELLA
327 Circulation of Elements Between Vegetation and Soil in Pine Forests and in Larch Forests in the Karelian Isthmus
Govorenko, B.F.
Sb. Tr., Tsent. Muz. Pochvoved. (STPDA9) 5, 103-130; 1972
TRACE ELEMENTS; NUTRIENTS; PINE; LARCH; FOBESTS; SOILS; CYCLING; LITTER
333 Continuous Flow Method for Studying Adsorption of Organic Chemicals by a Humic Acid Preparation
Grice, R.S.; Hayes, N.H.B.; Lundie, P.R.; Cardew, M.H. ; Dep. Chen., Univ. Birm., Birmingham, Engl.
Chem. Ind. (London), (5), 233-234; 1973
PESTICIDES; SOILS; ADSORPTION; APP; HERBICIDES; HUMATES; CONTINUOUS FLOH
328 Diffusion of Organophosphorus Insecticides in Soils
Graham-Bryce, I.J.
J. Sci. Fd. Agric., 20, 489-494; 1969, August
INSECTICIDES; DISULFOTON; DIMETHCATE; SILT LOAM; DIFFUSION COEFFICIENTS; ORGANOPHCSFHOROUS
331 31
331 Nutrient Regeneration from Phytoplankton Decomposing in Seawater
Grill, E.V.; Richards, F.ft.; Department of Oceanography, University of Hashington, Seattle 5, Hashington
Journal of Marine Research, 22, 51-69;'1961
REGENERATION; PHYTOPLANKTON; SEA HATER; NUTRIENTS; DECOMPOSITION; PHOSPHORUS; SALTS; AMMONIA; NITRATE; NITRITE; NITROGEN; ORTHOSILICATE; BEMINERALIZATION
335 Some Factors Controlling Potassium Availability in Soils
Grimme, H.; Nemeth, K.; Braunschweig, L.C.V,
Part of Kanvar, J.S. (Ed.), International Symposium on Soil Fertility Evaluation, Vol. 1, Indian Society of Soil Science, Indian Agricultural Research Institute; New Delhi, India (33-13); 1971
ROOTS; MASS FLOW; DIFFUSION; CLAY; WATER CONTENT; POTASSIUM; AVAILABILITY; SOILS
336 Fate of the Fungicide 2, 6-Dichloro-4-»itroaniline in Plants and soils
Groves, K.; Chough, K.s.
J. Agr. Food Chem. 18(6), 1127-1128; 1970
BACTERIA; ABSORPTION; DECOMPOSITION; ASSIMILATION; FUNGICIDES; TRANSFORMATION; DICHLORO-NITROANILINE; PLANTS; SOILS
337 The Distribution and Persistence of Diazinon Applied to Plant and soil and Its Influence on Rhizosphere and Soil Microflora
Gunner, H.B.; Zuckerman, B.M.; Walker, R.W.; Miller, C.W.; Deubert, K.H.; Longley, R.E.; The Institute of Agricultural and Industrial Microbiology, Amherst and the cranberry Experiment Station, East Wareham, «A
Plant and Soil, 15(2), 219-261; 1966, October
DISTRIBUTION; PERSISTENCE ; DIAZINON; RHIZOSPHERE; SOIL MICROFLORA; ORGANOPHOSPHORUS INSECTICIDES; INSECTICIDES; PLANTS; SOILS
339 Zinc-65 Uptake by Benthic Marine Algae
Gutknecht, J.
Limnol. Ocean., 8, 31-38; 1963
UPTAKE;; LOSS; RADIONUCLIDES; BENTHOS; ALGAE; ZINC 65
310 Uptake and Retention of Cesium 137 and zinc 65 by Seaweeds
Gutknecht, J.; University of North Carolina, Chapel Hill, and Bureau of Commercial Fisheries Radiobiological Laboratory, Beaufort, NC
Limnology and Oceanography, 10(1), 58-66; 1965, January
UPTAKE; RETENTION; CESIUM 137; ZINC 65; SEAWEEDS; CONCENTRATION FACTORS; GROWTH RATE; BIOLOGICAL HALF-LIFE; PREUNDLICH ADSORPTION EQUATION; ADSORPTION; LIGHT; ANOXIA; TRANSPORT
311 Mechanism of Radioactive Zinc Uptake by Ulva lactuca
Gutknecht, J.; University of North Carolina, Chapel Hill, NC; Marine Biological Laboratory, woods Hole, MA
Limnol. Ocean., 6, 126-131; 1961
METABOLISM; PH; CARRIER IONS; TEMPERATURE; LIGHT; PHOTOSYNTHESIS; SURFACE VOLUME RATIO; ZINC 65; BIOACCUMULATION
TAXONCMY: ULVA LACTUCA
312 A General Numerical Solution of the Two-Dimensional Diffusion-Convection Equation by the Finite Element Method
Guymon, G.L.; Scott, V.H.; Herrmann, L.R.; University of California, Davis, California 95616
Water Resources Research, 6(6), 1611-1617; 1970, December
NUMERICAL SOLUTION; FINITE ELEMENT METHOD; EQUATIONS; ADAMS-MOULTON METHOD; STREAMS; ESTUARIES; ENERGY TRANSFER; TRANSPORT
338 Automated colorimetric Procedure for the Deteraination of Total and Unchanged Urea Herbicide Residue in Soil
Guth, J.A.; Voss, G.; Agrochem. Div., Ciba-Geigy Ltd., Basel, Switzerland
Heed Res. (WEREAT), 11(2-3), 111-119; 1971
METHOD; COLORIMETRY; HERBICIDES; SOILS; UREA; RESIDUE ANALYSIS
35 343
343 Characterization of Hater Movement into and Through Soils During and Immediately after Bainstorns
Haan, C.T.; Kentucky Water Resources Inst., Lexington, KY
Report No. RR-56; Contract DI-1U-31-0001-3217; Monitoring Agency Rept No. R73-08464, OWRR-A-025-KY(3); Proj. OWRR-A-025-KY, 42 p.; 1972, December
WATER YIELD; WATERSHEDS; FLUID INFILTRATION; SOIL WATER; RAINFALL; GROUND WATER; SURFACE' WATER; RUNOFF; WATER SUPPLY; DIFFUSIVITY; THUNDERSTORMS; DARCYS LAW; PERMEABILITY; SOILS; RAIN
344 Movement of Pesticides by Runoff and Erosion
Haan, C.T.; Agric. Eng. Dep., Univ. Kentucky, Lexington, KY
Trans. ASAE (Amer. Soc. Agr. Eng.) (TAAEAO) 14 (3) 445-7,449; 1971
INSECTICIDES; WATER; RUNOFF; EROSION; DDT; ALDRIN; DIELDRIN; MOVEMENT; PESTICIDES; RUNOFF
345 Comparative Investigations on the Water Movement in Healthy Trees and Trees Injured by Fluorine-*
Halbvachs, G.
Centralbl Gesamte Forstw. 87(1), 1-22; 1970
WATER; TREES; FLUORINE; SPRUCE-G; FI.NE-G; BIRCH-D; ALDER-D; WILLOW-D; MOBILITY; INJURY; FORESTS; MOVEMENT
346 Adsorption (Of Organic Chemicals By Soils)
Hamaker, J.W.; Thompson, J.M.; Ag-Org. Dep., Dow Chera. Co., Walnut Creek, Calif.
org. Chen, soil Environ. (26DJAB) 1, 49-143; 1972
REVIEW; ORGANIC; ADSORPTION; SOILS; HERBICIDES; PESTICIDES;
347 Salt Movement and Distribution in Soil Columns
Hamid, A.; Warkentin, B.P.; Macdonald Coll., McGill Univ., Montreal, Que.
Pak. J. Sci. Res. (PJSRAV) 23 (3-4) 143-6; 1971
SALTS; MOVEMENT; SOILS; LEACHING; EVAPORATION; SOIL COLUMNS;
348 Use of Ultra-violet-irradiated.Sea Water in the Preparation of Culture Media
Hamilton, R.D.; Carlucci, A.F. , i ,
Nature, 211, 483-484; 1966, July 30
SEA WATER; CULTURE MEDIA; MARINE; BACTERIA; ALGAE; DIATOM; CRYSOPHITE; ULTRAVIOLET RADIATION
TAXONOMY: SKELETONEMA COSTATUM; MONOCHRYisiS LUTHERI; CYCLOTELLA NANA
349 Accumulation, Retention and Elimination of Zinc-65 in Freshwater Organisms Studied in Pond- i Experinents
Hannerz, L.
Part cf Proc. 1st Int. Congr. Radiat. Prot. (417) ; 1966
RETENTION; ELIMINATION; RADIOACTIVITY;.WATER; SEDIMENTS; PLANTS; INVERTEBRATES; FISH; PIKE; : ROACH; CHIRONOMID; SNAILS; LEACHES;" BIOACCUMULATION; LAKES; ZINC 65
350 Biochemistry of Selective Toxicity and Biodegradability. Comparative 0-dealkylation ,by, Aguatic Organisms.
Hansen, L. G.
Comparative and General Pharmacology, 3, 339;- 1972
BIOCHEMISTRY; TOXICITY; BIODEGRADABILITY; AQUATIC ORGANISMS
351 . ' . . -.-I 'V - --Adsorption of Isocil and Bromacil from Agueous Solution onto Some Mineral Surfaces
Hague, R.; Coshow, W.R.; Department of Agricultural Chemistry,and Environmental Health ) Science Center, Oregon State University, Corvallis, OR 97331
Environmental Science and Technology, 5(2) • 139-141; 1971, February
ADSORPTION; URACIL HERBICIDES; ISOCIL;* BROMACIL;,• V ILIITE; MONTMORILLONITE; SILICA GEL; HUMIC ACIDS; KACLINITE; FREUNDICH-TYPE ISOTHERMS; HYDRCGEN-BOND FORMATION
352 Epibenthic Algal production and Community, Respiration in Sediments of.Marion Lake
Hargrave, B.T.
J. Fish. Res., 26, 2003; .1969;
BENTHOS; ALGAE; SEDIMENTS;; PRODUCTION ;< COMMUNITY- J RESPIRATION; LAKES; CARBON^FLUX; OXYGEN . CONSUMPTION
353 36
353 Rate of Absorption of Methylated Mercury by carassius Auratus
Haring, G.E.; Nemanic, E.B.; Dep. Phys., Indiana State Univ., Terre Haute, Indiana
Proc. Indiana Acad. Sci. (PIACAP) 18, () 271-3; 1972 . ~
MERCURY; ADSORPTION; GOLDFISH; FISH; ABSORPTION RATE; METHYLMERCURY
TAXONOMY: CARASSIUS AURATUS
358 Toxicological Studies on cutworms. IX. Laboratory and Microplot Field Studies on Effectiveness and Persistancc of Some Experimental Insecticides Used For Control of the Darksided Cutworm
Harris, C.R. ; svec, H.J.; Sans, W.W.; Res. Inst., Canada Dep. Agric., London, Ont.
J. Econ. Entomol. (JEENAI) 66 (1) 199-203; 1973
INSECTICIDES; CUTWORMS; TOBACCO; RYE; EUXOA BICTHION; LEPTOPHOS; LABORATORY STUDIES; FIELD STUDIES
351 • t • Mycorrhiza and Nutrient Uptake in Forest Trees
Barley, J.i. Part of Luckirill, L.C. and C.V. Cutting (Eds.) , Physiology of Tree Crops, Symposium, Academic Press, Inc.; New York, NY; London, England (163-178) ; 1970
MINERALS; GROWTH; FORESTS; NUTRIENTS; PLANTS; UPTAKE; TREES
TAXONOMY: MYCORRHIZA
359 Behavior of Dieldrin in Soil Micro Plot Pield Studies on the Influence of Soil Type on Biclcgical Activity and Absorption by Carrots
Harcis, C.R.; Sans, W.W.
J Econ Bntomol 65 (2). 333-335; 1972
INSECTICIDES; PERSISTENCE; MOVEMENT; TRANSPORT; SOILS; PLANTS; DISLDRIN; SOIL MICRO PLOT; FIELD STUDIES; ABSORPTION; CARROTS
355 4 Toxicological Studies on Cutworms. X. Laboratory and Field Microplot Studies on Effectiveness and Persistence of Some Experimental insectidices Used,to Control the Black Cutworm in Organic Soil
Harris, C.R.; Svec, H.J.; Sans, W.W.; Res. Inst., Canada Dep. Agric., London, Ont.
J. Econ. Entouol. (JEENAI) 66 (1) 203-8; 1973
INSECTICIDES; SOILS; CUTWORMS; CHLCRPYRIFOS; LEPTOPHOS; VEGETABLE; AGROTIS; LABORATORY STUDIES; FIELD HICROPLOTS; PERSISTENCE
356 Movement' of Herbicides in Soil
Harris, C.I.
J. of Wed/,Soc. of Amer., 15(3), 214-216; 1967 HERBICIDES; MOBILITY; SOIL COLUMNS; TRANSPORT; SOILS; AROMATIC ACID HERBICIDES; TOLUIDINES
357 Influence of Soil Properties on Adsorption and Phytotoxicity of CIPC, Diuron, ana Simazine
Harris, C.I.; sheets, T.J.
Weeds, 13(3), 215-219; 1965, July
EDSO; PHYTOTOXICITY; OATS; SOILS; ISOPROPYL N—(3-CHLOHOPHENYL) CARBAMATE; CIPC; 3— (3,4—DICHLOROPHENYL)-1,1-DIMETHYLUREA (DIURON) ; 2-CHLOK0-4,6-BIS (ETHYIAMINO)-S-TRIAZINE (SIMaZIflE); ADSORPTION
360 Toxicological Studies on Cutworms. VII. Microplot Field Experiments on the Effectiveness of Four Experimental Insecticides Applied as Rye Cover Crop and Soil Treatments for Control of the Dark-Sided Cutworm
Harris, C.R.; Svec, H.J.; Sans, W.W.; Research Institute, Canada Department of Agriculture, London 72, Ontario
Journal of Economic Entomology 64(2), 493-096; 1971, April
TOXICOLOGY; CUTWORMS; INSECTICIDES; RYE; SOIL TREATMENTS; DURSBAN; BAY 37289; STAUFFER N-2596; O, 0-DIETHYL 0-(3,4,5-TRICHLORO-2-PYRIDYL) PHOSPBOROTHIOATE; 0-ETHYL 0-2,4,5-TRICHLOROPHENYL ETHYIPBOSPHONOTHIOATE; S-(P-CHLOROPHENYL) 0-ETHYL ETHYLEHOSPHONODITHIOATE; FIELD PLOTS
TAXONOMY: EUXOA MESSORIA(HARRIS)
361 RadioFhosphorus Metabolism in Zooplankton and Microorganisms
Harris, E.
Canadian Journal of Zoology, 35, 769-782; 1957
PHCSPHORUS;; RADIOPHOSPHORUS METABOLISM; ZOOPLANKTON; MICROORGANISMS
362 Advances in the Development and Application of Continuous Culture
Harrison, D.E.; Borden Microbiol. Lab., Shell Res. Ltd., Sittingbourne/Kent, Engl.
Rep. Progr. Appl. Chem., 56, 570-582; 1972
DEVELOPMENT; APPLICATION; CONTINUOUS CULTURE; REVIEW; FERMENTATION
37 353
358 Systems Studies of DDT Transport
Harrison, H.L.; Loucks, O.L.; Mitchell, J.W.; Parkhurst, D.P.; Tracy, C.R.; Watts, D.G.; Yannacone, V.J., Jr.
Science, 170, 503-507; 1970, October 30
DDT; TRANSPORT; SYSTEMS ANALYSIS; MECHANISTIC MODEL; HODEL
361 The Distribution of Mercury in Rivers and Estuaries of the Northern Gulf of Mexico
Harriss, R.C.; Andren, A.W.; Dion, E.
Progress Report to the Environoental Protection Agency, 51 p.; 1971
DISTRIBUTION; MERCURY; RIVERS; ESTUARIES
365 Adsorption of Phosphorus by Lake Sediment
Harter, R.D. Soil Science Society of America, Proceedings, 32, 51U-518; 1968
ADSORPTION; PHOSPHORUS; SEDIMENTS; LAKES
366 Slov Release and Amended Fertilizers
Hauck, R.D.; Koshino, N. Part of Olson, R.A. (Ed.). Fertilizer Technology 6 Use. 2nd Edition. 611p. Soil Science of America, Inc.; Madison, His., U.S.A. (455-U9U); 1971
FERTILIZERS; TREE CROP; NUTRITION; METHODS; HATER; MICROBIAL DECOMPOSITION; PHYSICAL CHARACTERISTICS; SOIL TRANSFORMATIONS; MICROORGANISMS; SOILS; RELEASE; TREES
367 The Use of Experimental Streams to Determine Environaental Factors Responsible for the Productivity of Aquatic Communities
Haydu, E.P.; Weyerhaeuser Company, Longviev, WA
Preprint, 3tt pp.
EXPERIMENTAL STREAMS; PRODUCTIVITY; AQUATIC COMMUNITIES; ANNUAL VARIATIONS; TROPHIC LEVELS; SEASONAL VARIATIONS; ENERGY FLOW
368 On the Kinetics of Phosphorus Exchange in Lakes
Hayes, F.R.; McCarter, J.A.; Cameron, M.L.; Livingston, D.A.
Journal of Ecology, U0, 203-216; 1952
KINETICS; PHOSPHORUS; EXCHANGE; LAKES
369 • Lake Water and Sediment. IV. Radiophosphorus Equilibrium with Mud, Plants, and Bacteria under oxidized and Reduced conditions
Hayes, F.R.; Phillips, J.E.; Zoological ' Laboratory, Dalhousie University, Halifax, Nova Scotia
Limnol. oceanog?., 3, i»59-'«75; 1958
EXCHANGE RATE; LAKES; SEDIMENTS; BOTTLE ;; . ' EXPERIMENTS; RADIOPHOSPHOROS; PLANTS; BACTERIA; , \ PHYTOPLANKTON; PHOSPHORUS; WATER; TURNOVER TIME; MUD; EXCHANGE
370 Interactions betveen Organophosphorus Compounds , and Soil Materials. I. Adsorption of Ethyl ' Methyl-Phosphonofluoridate by Clay and Organic, Hatter Preparations and by soils. ' ;
Hayes, N.H.B.; Lundie, P.B.; stacey, M.; Dept. of Chem., The University, Birmingham B15 2TT, England
Pestic. Sci., 3(5), 619-629; 1972
ETHYL METHYLPHOSPHONOFLQORIDATE; ORGANOPHOSPHORUS COHPCUNDS; SOILS; ADSORPTION; MONTHOBILLONITE; • KACLINITE; CLAYS
371 Application of Microcalorimetry to the Study of Interactions Between Organic Chemicals and Soil Constitutents
Hayes, M.H.B.; Pick, M.E.; Toms, B.A.; Dep. Chem., Univ. Birmingham, Edgbaston/Birmingham, Engl.
Sci. Tools (SCT0AB) 19 (1) 9-12; 1972
CALOEIMETBY; HERBICIDES; SOILS; ADSORPTION; DIQUAT; PARAQUAT; CLAYS; MICROCALORIMETRY; ORGANIC CHEMICALS
372 Plant Growth Responses to Vesicular Arbuscular Mycorrhiza. Part 3. Increased Uptake of Labile . Phosphorus from Soil
Hayman, O.S.; Mosse, B.
New Phytol., 71(1), «1-U7; 1972 ; -
ONIONS; PLANTS; SOILS; ROOTS; GROWTH; UPTAKE; MYCORRHIZA; UPTAKE; PHOSPHORUS
TAXONOMY: ALLIUM CEPA VAR. JAMES LONG KEEPING
3 7 3 r -38
373 An Open-Top Field Chamber to Assess the Impact of Air Pollution on Plants -
Heagle, A.S.; Body, D.E.; Heck, W.W.
Journal of Environmental Quality, 2(3), 365-368; 1973
AIR;; COSTS; CONTROLS; CLOSEE-TOP FIELD CHAMBERS; GREENHOUSES; OPEN-TOP FIELD CHAMEER; TEMPERATURE; RELATIVE HUMIDITY; SUNLIGHT; RAIN; TOBACCO PLANTS;; OZONE; PLANT GROWTH; PLANT INJURY; PLANTS
TAXONOMY: NICOTIANA;,TABACUM L. i
371 Requirements for Mathematical Models in the Toxicology Information Program.; Final Rept.
Heilberg, E.; Chase, N.N.; Chase, Rosen and Wallaces inc., Alexandria, VA
Contract NLM-69-19; Monitoring Agency Rept. No. 18; PB 211339; 88p.; 1972, May
REQUIREMENTS; FORECASTING; COHPUTER SIMULATION; TOXICITY; INFORMATION CENTERS; HUMANS; ANIMALS; INFORMATION SYSTEMS; TOXICOLOGY; MATHEMATICAL MODELS
375 Pesticide Mobility in Soils. I. Parameters of Thin-Layer Chromatography
Helling, C.S.; Plant Sci. Res. Div., Agric. Res. Serv., Beltsville, MD
Soil Sci. Soc. Amer., Proc. (SSSAA8), 35 (5), 732-7; 1971
THIN-LAYER CHROMATOGRAPHY; CHROMATOGRAPHY; SOILS; MOBILITY; HERBICIDES; PESTICIDES; TRANSPORT
376 Pesticide Mobility in Soils. Part 3. Influence of Soil Property
Helling,.C.S. i
Soil Sci Soc Am Proc 35 (5), 713-718; 1971
MOBILITY; SOILS; DICAHBA; PICLORAM; FENAC; 2 4-D; THIN LAYER CHROMATOGRAPHY; INSECTICIDES; HERBICIDES; LEACHING; MOVEMENT; CLAYS; ORGANIC MATTER; FIELD MOISTURE CAPACITY; ADSORPTION
377 Pesticide Mobility in Soils. Part 2. Applications of Soil Thin Layer Chromatography
Helling, C.S.
Soil Sci Soc Am Proc 35 (5), 737-713; 1971
MOBILITY; SURFACTANTS; DIOXINS; HERBICIDES; INSECTICIDES; CLAYS; LEACHING; ADSORPTION; DIFFUSION; ORGANIC REMOVAL; THIN LAYER CHROMATOGRAPHY; SOILS; TRANSPORT; CHROMATOGRAPHY
378 Algae Bioassay Detection of Pesticide Mobility in Soils
Helling, C.S.; Kaufman, D.D.; Dieter, C.T.
Weed Sci. 19(6), 685-690; 1971
ALGAE; BIOASSAY; PESTICIDES; MOBILITY; SOILS; TRANSPORT
TAXOKCMY: CHLORELLA-SOROKINIANA
379 Pesticide Mobility: Determination by Soil Thin-layer Chromatography
Helling, C.S.; Turner, B.C.
Science, 162, 562-563; 1968, November
PESTICIDE MOBILITY; RF; THIN LAYER CHROMATOGRAPHY; SOILS
380 Part 1. persistence of chlorthiamid in Soil. Part 2. Influence of Chlorthiamid and Dichlobenil on Carbon Dioxide Liberation, Ammonification and Nitrification in Soil
Helveg, A.
Tidsskr. Planteavl., 76(2), 115-155; 1972
PERSISTENCE; CHLORTHIAMID; DICHLOBENIL; CARBON DIOXIDE LIBERATION; AMMONIFICATION; NITRIFICATION; HERBICIDES; PHYTOTOXICITY; SOILS
TAXONOMY: SORGHUM VULGARE
381 Chemical Behavior of Mercury in Aqueous Media
Hem, J.D. Part of U.S.G.S. Professional Paper 713, p. 19-21; 197 0
MERCURY; AQUEOUS MEDIA
382 Availability of Trace Elements to Plants vith Respect to Soil Plant Interaction
Hemphill, D. D.
Ann N.Y. Acad. Sci. 199, 16-61; 1972
AVAILABILITY; TRACE ELEMENTS; PLANTS; MINERALS; SOILS
393
399 Vegetation: A Sink for Atmospheric Pollutants
Hill, A.C.
J. Air Pollut. control Assoc., 2 1 (6), 341-346; 1971
ALFALFA-D; CANOPIES; PLANT UPTAKE; HYDROGEN FLUORIDE; SULFUR DIOXIDE; CHLORINE; NITROGEN DIOXIDE; OZONE; PEROXYACETYL NITRATE; NITRIC OXIDE; CARBON MONOXIDE; PLANTS; ATMOSPHERE
38a Fate of Diguat in the Aquatic Environment; Final Rept
Hiltibran, R.C.; Underwood, D.L. ; Fickle, J.S.; Illinois Univ., Urbana. Hater Resources Center
Illinois Univ., Urbana. Hater Resources Center; PB 208 598; Report No UILU-WRC-72-0052, WRC-RR-52; Prol. OHRR-A-035-ILL; Monitoring Agency Rept No. H72-07355, OHRR-A-035-ILL (1) ; F; 52 p.; 1972, February
DIQUAT; WATER; HERBICIDES; FRESHWATER BIOLOGY; BIODETERIORATION.; LIMNOLOGY;, WEED CONTROL; AQUATIC WEEDS; SPECTROSCOPIC ANALYSIS; LABELED SUBSTANCES; CARBON 14; FISH; ADSORPTION
385 Fate of Zinc Phosphide and Phosphine in the Soil-Water Environment
Hilton, H.W.; Robinson, W.H.; Hawaiian Sugar Planters Assn., Honolulu, Hawaii 96822
J. Agric. Food Chem., 20(6), 1209-1213; 1972
ZINC PHOSPHIDE; ZINC PHOSPHIDE; ZINC PHOSPHINE; SOILS; SOIL HOISTURE; OXICATION; PH
386 Residues Following Treatment of Sugar Cane with Radioactive Diguat to Control Flcwering
Hilton, H.W.; Yuen, Q.H.; Tucker, B.V.; Puck, D.p.• ospenson, J.N. . . '
J. Agr. Food Chem., 16(6), 906-907; 1968,-November - December
DIQUAT; RESIDUES; 6,7-DIHYDRODIPYRIDO (1,2-A:2•,1 C)PYRAZIDIXNIUM CATION; CARBON 1 4 ; C 1 4 DIQUAT
387 Transport of Organic Insecticides to the Aguatic Environment
Hindin, E.; Bennett, P.J.; Washington State University, Pullman, Wash.
Advan. Water Pollut. Res., Proc. Int. con£., 5th (2UJNA8) , 2, III-19, 1-16; 1971 ',
TRANSPORT; INSECTICIDES; ORGANOCHLCRTNE INSECTICIDES; SOILS; IRRIGATION; DDT; ETHION
388' 1 , . . . • , V ' .' Alpha.-Trichloromethylbenzylanilines andL .Alpha.-Trichloronethylbenzyl Phenyl Ethers wish DDI-like Insecticidalx Action .
Hirve, A.S.; Hetcalf, H.L.; ;Kapoor,.I.P.;Dep. l.f Entomol.., Univ. Illinois, Urbana, IL
J. Agr. Food Chem., (JAFCAU) , 20 (4) , 8184824V 1972
DDT-ANALOGS; ALPHA.-TRICHLOROMETHXLBENZYLANILIUES;' .ALPHA.-TRICHLOBOMETHYLBENZYL PHBSYL ETHERS; " DDT; BIODEGR AD ABILITY; INSECTICIDES; MODEL ECOSYSTEM '. • , • ' "< •'
TAXONOMY: MUSCA DOMESTICA; PHORMIA REGINA; CULEX PI PI ENS QUINQU EFASCIATUS; ANAOPHELES ALNIM ANUS; j, ESTIGMENE ACREA
389 • • • • : •.;,, • •. v;c Photoassimilation of Organic Compounds by Autotrophic Blue-Green Algae
Hoare, D.S.; Moore, R.B. '.';•"
Bicchim. Biophys. Acta, 109, 622—625; ,'19.65
PHOTOASSIMILATION; AUTOTROPHIC ALGAE; BLUErGREEN ALGAE; MICROORGANISMS; ALGAE; EUCARYOTIC ALGAE; PHOTOSYNTHETIC BACTERIA; BACTERIA; PHOTOSYNTHESIS; PHOTOAUTOTROPHIC BACTERIA; ORGANIC COMPOUNDS • . V. a. ,. . ' ' ' •:::
TAXONOMY: CHLOROBIUM; ANACYSTIS NIDULANS: •:
390 Chemistry of Trace Elements in Soils with Reference to Trace Element Concentration in Plants
Hodgson, J . F. , • r.;;^; v-V,
Part of Hemphill, Delbert ,D. (Ed.),, Proceedings > of University of Missouri's 3rd Annual Conference on Trace Substances in Environmental'Health.' :-v '" 391p. University of Missouri: Columbia, MO, USA (45-58).; 1970.
TRACE ELEMENTS; SOILS;; PLANTS; CYCLE; CHEMISTRY
391 The Trace Elements in the Ocean: A .Bibliographic Compilation
Hogdahl, o.T.
Put. Central Institute of Industrial Research,5 ; ; Oslo, 47 p.; 1963 7,"'-.::' • "
TRACE ELEMENTS; OCEAN; BIBLIOGRAPHY , • ........
392 A Study of the Sorption of Arsenates in Soils, Part 1. Adsorption Isotherms of Phosphates and Arsenates •., • , ,=•„•
Holobrady, K.; Galba, J.; Chrenekova, E. . „• ,
Pol' Nohospodarstvo 15 (11)', 956-963; 1969
SORPTION; ARSENATE; SOILS; PHOSPHATES; ISOTHERMS; ADSORPTION . VV :: ' '•..••.•
393 ao
393 Organic Hatter in Natural Haters
Hood, D.W. (Ed.); Oniversity of Alaska
Institute of Harine science Occasional; 1970, June
HATER'ANALYSIS; REVIEW; AQUATIC ECOSYSTEMS; ORGANIC HATTER; NATURAL WATERS
39U Continuous Culture of Microorganisms
Horiuchi1,T.; Pac. Pharm., Kyushu Univ., Fukuoka, Japan' * > • " ' . •
Tampakushitsu Kakusan Koso, Bessatsu (TKKBBT) (Saikin Fa^i Idenjikfc) 35-43; 1972
REVIEW; MICROORGANISMS; CONTINUOUS CULTURE
395 A Rapid Bioassay" for Diphenamid and its Application in Soil Studies
Horowitz, M.; Hulin, N.
Weed Res 11(2-3), 143-149; 1971
BIOASSAY; DIPHENAMID; SOIL STUDIES; OATS-M; HERBICIDES; BIOACTIVITY; SLURRY; ADSORPTION; RELEASE PROCESSES; SOILS
396 Transfer of Inorganic Mercury to Milk cf Goats
How, Sister Mansion; McGee, J.; Lengemann, F.W.; South Dakota sch. Mines Technol., Rapid City, SD
.Nature (LONDON) (NATUAS), 237(5357) 516-518; 1972
TRANSFER; GOATS; FOOD CHAIN; MERCURY; ABSORPTION; DIGESTIVE TRACT; MILK; LACATION
397 Toxic Metals in Acid Soil Part 2 Estimation of Plant Available Manganese
Hoyt, P.B.; Nyborg, M.
Soil sci Soc Amer Proc 35 (2), 241-2411; 1971
EXTRACTS; ION METHODS; CATION; EXCHANGE CAPACITY; BASE SATURATION; PLANTS; MANGANESE; ACID SOILS; SOILS; AVAILABILITY
TAXONOMY: HORDEUM-VURLARE-M; BRAS SICA-CAMPESTRIS-D; MEDIC AGO-S ATIVA-D
398 Effect of Selected Factors on Pesticide Sorption -and Desorption in the Aquatic System
Huang, J.C.
J. Water Pollut Control Fed 43(8 0), 1739-1748; 1971
CHLORINATED HYDROCARBONS; DIELDRIN; PESTICIDES; SORPTION; DESOF.PTION; AQUATIC SYSTEMS
399 Adsorption of Pesticides on Clay Minerals
Huang, J.C.; Liao, C.S.
Trans Mo Acad Sci 3, 103; 1969
ADSOFPTION; PESTICIDES; MINERALS; DDT; CLAYS
UOC Sorption and Desorption of Chlorinated Hydrocarbon Pesticides in Aquatic Sediment Minerals
Huang, J.C.; Liao, C.S.; Chien, F.S,; Chiang, L.T.; Missouri Water Resour. Res. Cent., Rolla, MO
US Nat. Tech. Inform. Serv., PB Rep(XPBRCA), (No. 204706) 16 p.; 1971
CHLORINATED HYDROCARBONS; PESTICIDES; ADSORPTION; CLAYS; HUMUS; WASTE TREATMENT; SLUDGES; SEDIMENTS; MINERALS; SORPTION; DESORPTION; WATER
401 Distribution of Radionuclides in Bottom Sediments of the Columbia River Estuary
Hutbell, D.W.; Glenn, J.L.; Geological Survey, Portland, Oreg., Water Resources Div
Geological Survey, Portland, Oreg., Water Resources Div. Open File Beport TID--25724; 1971
DISTRIBUTION; RADIOISOTOPES; CHROMIUM 51; COBALT 60; MANGANESE 54; NIOBIUM 95; POTASSIUM 40; RUTHENIUM 106; SCANDIUM 46; ZINC 65; ZIRCONIUM 95; QUANTITATIVE ANALYSIS; ESTUARIES; SEDIMENTS
402 Effect of 2 Nonionic surfactants on Adsorption and Mobility of Selected Pesticides in a Soil Systea
Huggenberger, F.; Letey, J.J.; Farmer, W.J.
Soil Sci. Soc. Am. Proc., 37(2), 215-219; 1973
LINDANE; DIURON; ATRAZINE; MASS TRANSPORT; LEACHING; TRANSPORT; SOILS; ADSORPTION; PESTICIDES
403 Adsorption and Mobility of Pesticides in Soil
Huggenberger, F.; Letey, J.J.; Farmer, W.J.; uiv. Agric. Sci., Univ. California, Berkeley, Calif..
Calif. Agr. (CAGSA3), 27(2), 8-10; 1973
ADSORPTION; MOBILITY; PESTICIDES; SOILS; T R A N S O M
404 Mercury in Sediments from 3 Virginia Estuaries
Huggett, R.J.; Bender, M.E.; Slone, H.D.
Chesapeake Sci. 12(4), 280-282; 1971
MERCURY; SEDIMENTS; ESTUARIES
U1 U 0 5
"3 405 Neutron Activation Analysis For Studying the Role of Humic Acids During Transport of Trace Elements in the Marine Biocycle
Huljev, D.; Strohal, P.
Part of Nuclear Activation Techniques in the Life Sciences, Vienna International Atomic Energy Agency, 1972, 385-390. Symposium on Nuclear Activation Techniques in Life Sciences, Bled, Yugoslavia, CONF-720425; 1972, April 10
ACTIVATION ANALYSIS; ANTIMONY; CESIUM; COBALT; EUROPIUM; HUMIC ACIDS; IRON; MOLTI-ELEMENT ANALYSIS; NEUTRONS; QUANTITATIVE CHEMICAL ANALYSIS; SCAK.DIUH; SELENIUM; SILVER; STRONTIUM; TRACE ELEMENTS; TRANSPORT; BIOCYCLE
4 0 6 Phosphorus Adsorption and Movement in Some Sandy Forest Soils
Humphreys, F.R.; Pritchett, W.L.
Soil Sci Soc Am Proc 35 (3), 495-500; 1971
ADSORPTION; MOVEMENT; SOILS; PHOSPHATES; LEACHING; SORPTION; BUFFERING CAEACITY; FERTILIZATION; FORESTS; TRANSPORT
TAXONOMY: PINUS-ELLIOTTI-VAR-ELLIOTTII-G
407 Calcium Magnesium Exchange Equilibria in Soils
Hunsaker, V.E.; Pratt, P.F.
Soil Sci Soc Amer Proc 35 (11r 151-152; 1971 CALCIUM; MAGNESIUM; MONTMORILLONITE; ALLOPHANE; ION EXCHANGE; SOILS; EQUILIBRATION
4 0 8 Movement and Persistance of Piclcram in Soil
Hunter, J.H.; Stobbe, E.H.; Plant Sci. Dep., Univ. Manitpba, Winnipeg, Manitoba
Weed Sci. (WEESA6), 20(5), 486-9; 1972
SOILS; HERBICIDES; MOVEMENT; PICLORAM AMINOTRICHLOROPICOLINATE; LEACHING; ANALYSIS; TRANSPORT; PERSISTENCE; MOVEMENT
409 Effects of an Organc Phosphorus Insecticide on the Phytoplankton, Zooplankton, and Insect Populations of Fresh water Ponds
Hurlbert, S.H.; Mulia, M.S.; Willson, H.R.
Ecol. Monogr. 42(3), 269-299; 1972
ORGANOPHOSPHORUS; PHYTOPLANKTON; ZOOPLANKTON; INSECTS; FRESHWATER; AQUATIC POPULATIONS; INSECTICIDES; PLANKTON; ALGAE
410 Significance of Conversion Products and Metabolites oil Pesticides in the Environment
Hurtig, H.
Environaental Quality and safety. Chemistry, Toxicology and Technology, Vol. 1. Global Aspects of Cheaistry, Toxicology and Technology as Applied to the Environment, 267p. Georg Thine Publishers, Stuttgart, West Germany; Academic Press; Nev York, NY, USA (58-78); 1972
CONVERSION PRODUCTS; METABOLITES; PESTICIDES; BUMANS; INSECTICIDES; FOOD CHAINS; RESIDUES.
411 Long Distance Transport of Pesticides
Hurtig, H. Part of Matsumura, Fumio, G. Hallory Buush and Tomomasa Misato (Ed). Environmental,Toxicology of-Pesticides. Proceedings of a United States-Japan Seminar. OISO, Japan, October, 1971. 637 p. Academic Press: New York, NY, USA; London, England (257-280).; 1972
FISH; INSECTICIDES; SOILS; PERSISTENCE; TRANSPORT; AIR; AQUATIC ECOSYSTEMS; ATMOSPHERIC TRANSEORT
4 1 2 Leaf Excision as a Means of Evaluating Picloram Uptake in the Bean-D Plant
Hurtt, W.
U.S. Gov. Res. Develop Rep. 71(3), 39; AD-715 704; 1971 f
HERBICIDES; PLANTS; LEAF EXCISION; PICLORAH; UPTAKE; BEAN-D
413 Role of Sugars in the Uptake and Translocation of Systemic Insecticides in Plants
Husain, A.A.; Hashmat, S.; Askari, A.
Z. Angevf. Entomol., 67(3), 290-296; 1971
SUGARS; UPTAKE; TRANSLOCATION; SYSTEMIC INSECTICIDES; PLANTS; APHID; INSECTICIDES; FOIIAB FEEDING
4 1 4 Limnology Studies in Connecticut. IX. A Quantitative Radiochemical Study of the Phosphorus in Linsley Pond
Hutchinson, G.E.; Bowen, V.T.
E c o l c g y , 3 1 , 1 ? i t - 2 0 3 ; 1 9 5 0
PHOSEHCRUS; PONDS; RAPJOCHEMISTY
983 42
415 Cadmium and Zinc Toxicity and Synergist) to Floating Aquatic Plants
Hutchinson, T.C.; Czyrska, H.; Department of Botany and institute of Environmental sciences and Engineering, University of Toronto, Toronto, Ontario
Water Pollution Research in Canada 1972, 59-65, Institute of Environmental Sciences and Engineering Publ. No. EI-3; 1972
CADMIUM; ZINC; TOXICITY; SYNERGISM; AQUATIC PLANTS; UPTAKE; GROWTH
4 16 Movement of Phosphate and Other Ions fron and Through Lake Muds
Hynes, H.B.N.; Greib, B.J.
Journal of Fisheries Research Board of Canada, 27, 653-668; 1970
MOVEMENT; PHOSPBATE; IONS; MUDS; SEDIMENTS; LAKES
417 Mineralization of Nitrogen in 2 Soil Organic Matter Fractions Extracted vith Formic-Acid
Ibrahim, H.S.
Plant Soil, 37(1), 1-10; 1972
MINERALIZATION; NITROGEN; ACETYL ACETONE; HYDROFLUORIC ACID; LEACHING; MICROBIAL ACTIVITY; SOILS; SOIL FRACTIONS; FORMIC ACID; EXTRACTION
418 Determination of the Diffusion Coefficient of Radioelements in the Rhone Sediments
Ijuin, M.; Picat, P.; Saas, A.; Grauby, A.; Dep. Environ. Contamination, Natl. Inst. Radiol. Sci., Chiba, Japan
Health Phys. (HLTPAO), 24(6), 665-672; 1973
RADIOELEMENTS; SEDIMENTS; CERIUM 141; COBALT 60; CESIUM 137; MANGANESE 54; STRONTIUM 85; ZINC 65; ANALYSIS; DIFFUSION COEFFICIENT
419 Chenical Methylation of Inorganic Mercury vith Methylcobalamin, A vitamin B12 Analog
linura, N.; Sukegawa, E. ; Pan, S.K.; Hagao, K.; Kim, J.Y.; Kvan, T.; Ukita, T.
Science, 172, 1248-1249; 1971
MERCURY; METHYLATION; HETHYLCOBALAHIN
987 Mobility of Some Organophosphorus Sheep Dip Insecticide in Soil
Inch, T.D.; Ley, R.V.; Utley, D.; Chem. Def. Estahl., Porton Dovn/salisbury/wilts., England
Pestic. Sci. (PSSCBG), 3(3), 243-253; 1972
MOEIIITY; SHEEP DIP; TRITHION; DELNAV; DICHLCPENTHION; HEPTANE; ORGANOPHOSPHORUS INSECTICIDES; SOILS; CHLORFBKVINPHOS; RESIDUES; PESTICIDES;; CHROMATOGRAPHY; SOILS; THIN LAYER CHROMATOGRAPHY
421 Movement of Soil Moisture in Forest Stand Part 1
Incue, K.; Ivakava, 0.
J. Jap. Forest Soc., 52(8), 238-243; 1970 MOVEMENT; SOIL MOISTURE; FORESTS; SOILS; TRANSPORT; TERRESTRIAL ECOSYSTEMS
i'AXONOMY: CH AM A EC Y PARIS OBTGSA G; CRYPTOMERIA JAPONIC* G
422 Order of Stability of Metal Complexes
Irving, H.; Williams, R.J.P.
* Nature, 162, 746-747; 1948
STABILITY; METALS; COMPLEXES
423 Unstructured Marine Food Webs and "Pollutant Analogues'
Isaacs, J.D.; Scripps Institution of Oceanography, La Jolla, CA
Fishery Bull., 70<R3) 1053-1059, COM-72-50251-03, NOAA-72101809-33, 9p.; 1972, July
CESIUM; CESIUM ISOTOPES; PETALS; MARINE FISH; GULFS; FISHES; FOOD CHAINS; WATER ; MARINE BIOLOGY; ANALOGS
424 Uptake and Accumulation of Radioisotopes of Phosphorus and Sulfur by Trees in Autumn, Winter and Early Spring in Boghara of central Tadzhikistan
Isaev, N.
Trudy Tadzh. Sel'skokhoz. Inst. (TTDSA5), 15, 105-107; 1971
UPTAKE; ACCUMULATION; RADIOISOTOPES; PHOSPHORUS; SULFUR; TREES; NUTRITION; AUTUMN; WINTER; RADIOACTIVITY; SPRING; SEASONAL VARIATIONS
43 »25
425 Distribution of Alkyl Arsenicals in Model Ecosystea
Isensee, A.R.; Kearney, P.C.; Woclson, B.A.; Jones, G.E.; Williaas, V.P.; Agricultural Environaental Quality Institute, Agricultural Research center, ARS, O.S. Departaent of Agriculture, Beltsville, MR 20705
Env. Sci. Tech., 7(9), 841-645; 1973, Septeaber
CARBON 14; BIOMAGNIFICATION; ALKYL ARSENICALS; MODEL ECOSYSTEM; CACODrLIC ACID; D It! ETHYL ARSXNE; DMA; FOOD CHAIN; ALGAE; SNAILS; FISH; ARSENIC; AQUATIC ECOSYSTEMS
TAXONOMY: DAPHNIA MAGNA
426 Static and Kinetic Distribution cf Sevin in the, Environaent
Ivanova, L.N.; nolozhanova, ».G„
Gig. Sanit, 38(2), 24-28; 1973
STATIC; KINETICS; UISTRIBUTIOH; SEVIN; APPLES; SOILS; FRUIT; INSECTICIDES; RESIDUES; PESTICIDES
427 Renovation of Fertility of Biocide Treated Soils
Iyer, J.G. Part of Kanvar, J.S. (Ed.), International Syaposiua on Soil Fertility Evaluation, Vol. 1, Indian Society of Soil Science, Indian Agricultural Research Institute; Nev Delhi, India (613-618); 1971
MICROORGANISMS; FERTILITY; ; NUTRIENTS; . AVAILABILITY; TREE GROWTH; TREES; RECOVERY; BIOCIDES ,
428 Correction of Mycotrophic, Deficiencies of .Tree • Nursery stock Produced on Biocide Treated Soils
Iyer, J.G.; Lipas, E.; Chesters, G.
Mycorrhizae^ Symposium. 225p. U.S. Government Printing Office; Washington, DC, USA (233-236); 1971 , r.
TREE NURSERY; MYCORBHIZA; ERADICATION; NUTRIENTS; UPTAKE; FERMENTED COMPOST; ACIDIFICATION; INHIBITION
TAXONOMY:>• PINUS RADIATA-G , . ,. . ... , :
429 Cadmium Content of Sea Water, Bottom Sediment, and Fish, and its Elimination Rate in Fish
Jaakkola, T.; Takahashi, H.; Soininen, R.; Rissanen, K.; Miettinen, J.K.; Univ. Helsinki, Helsinki, Finland
Radiotracer Stud. Chem. Residues Food Agr., Proc. Comb. Panel Res. Coord. Meet., 69-75; 1v72
ELIMINATION RATE; CADMIUM; FISH; SEA WATER; SEDIMENTS
430 • Mercury Uptake by Plants and Effects on Boot.- ;r..,..-,>.-r, Meabrane Permeability • '. j;-
Jackson,. P.C. , .. <•> ^ • <i r--* > ,<. ' •" : ' '• 'I •' 't ' ! • • ' J r.' . ' . / o r
Plant Physiol 47 (SU9PL). 8; 1971 i-r,r. l.ur.i
BARLHY-M; CALCIUM; POTASSIUM ;r,PH; • ROOTS;- NERC0RT;.r, UPTAKE; PLANTS; MEMBRANE PERMEABILITY
: ' . ' " ' • ' • • ' • : . ' • '' ; • « r - . r . ; -j . ';<• i ,1
; .:<:'», ; i "!') ,111"'!?". •:»,',
431 , " i ;:,.;.„.;. ; V »'f rfl < j * A T Arsenic-phosphorus Interactions on Corn-H
Jacobs, L.W.; Keeney, D.R.
Soil Sci. 1(2) , 85-93; 1970 ; , •, > ) ..-, .t:^ • • i ! I U , I •:> i
MINERALS; UPTAKE; TOXICITY; CORN; PLANTS; ARSENIC; PHOSPHORDS . . . i,.-
Arsenic sorption by Soils
Jacobs, L.W.; syers, J.K.; Keeney, D.R.
Soil Sci Soc Aaer Proc 34 (5) , 750r754; ,1970 (
ARSENIC; SORPTION; SOILS . / <•'••!,
; • .. *: * r. •> his .••'.. >- h » on i
433 ••• ; <••< < :;r'» Evolution of Carbon-14 Dioxide Froa Soil Incubated with Dieldrin-14c and the Action of Soil Bacteria on Labelled Dieldrin
Jagnov, G. ; Haider,K.;Inst.Bodenbiol.,!..) •»,•• Forschuugsanst. Landvirtsch., .Brunswick,< Ger.j] •;<:••
Soil Eiol. Biochea. (SBIOAH) 4(1), 43-9; 1972
CARBON. 14{ . DZE.LDSXHi'r SOIL -BACTERIA;- CHLORINATED; INSECTICIDES; CARBON 14 DIOXIDE; SOILS; DIELDRIN-1.4C;. BACTERIA f •• , f ; ...-M< J (wt.-.v) i nau-.i'.
; '".i , '(vi ? t'.n- " * ; - < ? ) z7"
434 The Uptake and Distribution of Manganese-54 by Char a braunii in a Fresh Water System
ti James, A.; ,Kereiakes,, J.:; Scarpino-,v P.V. 5>rno
• i ; ! , •>.-:!,. • 7 i ! > . ' i n i J. Environ. Health, 32(3), 312-315; 1969
UPTAKE; DISTRIBUTION; FRESHWATER; HANGANESE,-<54; MANGANESE
r-r-'t ; f : ? -M -.stHifj.'.-iO &r.-nx<i.i TAXONCMY: CHARA BRAUNII
~ F ••* A O-.I'J >f X i t'.T^'i f. 'i fi 'if: ; Vrl ',.0;iaf)JYK
W35 ;!.Afi rjJ 'r.' Q tT .iX*i!0<t!>«?A r'/.'lOaoX/ST The Absorption of Arsenate Ions by Chlorellae
Jean jean, R.; Gaudin, C.
Comet, ^endu. Hebd. Seances Aca4. Sci. Ser. D. Sci. Nat. (Paris), 272(1), 64-67; 1971
ABSORPTION; ARSENATE; IONS; ALGAE
TAXONOMY: CHLORELLAE
44 43«
436 Dynaaics of Dieldrin in Soil, Earthworms, and Song Thrushes
Jefferies, D.J.; Davis, B.K.; Nature Conservancy, Honks Hood Experimental Station, Huntingdon, England
J. Wildlife Management, 32(3), 441-456; 1968, July
DIELDRIN; EARTHWORMS; SONG THROSHES; METABOLISM; ACCUMULATION; SOILS; BIRDS; HORNS
TAXONOMY: TURDUS ERICETORUM
437 Role of Certain Streaa Sediment Coaponents in Radio-ion sorption
Jenne, E.A.; Wahlberg, J.S.
U.S.G.S. Professional Paper 4 3-F, 16 p.; 1968
RADIO-ION; SORPTION; SEDIMENTi; STREAMS
438 Biosyntes av kvicksilver
Jensen, S.; Jernelov, A.
Biocidinforaation, 10, 3-5; 1967
BIOSTNTES; MERCURY
439 Bis (P-Chlorophenyl) Acetonitrile (DDN), a New DDT Derivative Foraed in Anaerobic Digested Sewage Sludge and Lake sediaent
Jensin, S.; Gothe, R.; Kindstedt, M.O.; Spec. Anal. Lab., Univ. Stockhola, Stockhola, Swed.
Nature (London) (Natuas), 240(5381), 421-2; 1972
BIS(P-CHLOROPHENYL) ACETONITRILE; DDN; DDT; SEWAGE SLUDGE; SEDIMENTS
440 Release of Hethyl Mercury froa Sediaents with Layers Containing Inorganic Mercury at Different Depths
Jernelov, A.
bianol Oceanogr 15 (6), 958-960; 1970
METHYLMBRCURY; SEDIMENTS; INORGANIC MERCURY; MERCURY
TAXONOMY: AKODOHTA TUBIFICIDAE
441 Factors in the Transforaation of Mercury to Methylaercury
Jernelov, A.; Inst. Hater Air Pollut. Res., Stcckhola, Swed.
Part of Hartung, R. (ed.) Environmental Mercury Contaaination. international Conference, 1970, Ann Arbor Science Publishing, Inc. Ann Arbor, Michigan (p. 167-172) 000 1970; 1972
METHYLATION; LAKE HATER; PHENYLHERCURY; INDUSTRIAL WATER; MUSSELS; TUBIPICID SEDIMENT; SEDIMENTS; TRANSFORMATION; MERCURY; HETHYLMERCURY
442 Mercury and Food Chains
Jernelov, A.; Inst. Hater Air Pollut. Res., Stcckhola, Swed.
Part of Hartung, R. (ed.)Environaental Mercury Contaaination, International Conference, 1970, Ann Arbor science Publishing, Inc. Ann Arbor, Michigan (p.174-177); 1972
FISH; MERCURY; FOOD CHAINS
443 Mercury Accuaulation in Food Chains
Jernelov, A.; Lann, H.
Oikos 22 (3)- 403-406; 1971
FISH; ANIMALS; MERCURY; ACCUMULATION; FOOD CHAINS
444 Biolcgic&l Effects and Physical Properties; in the Marine Environaent of Aliphatic Chlorinated By-Prcducts Fro« Vinyl Chloride Production
Jernelov, A.; Rosenberg, R.; Jensen, S.; Swed. Water Air Pollut. Res. Lab., Goteborg, Swed.
Water Res. (WATHAG) 6 (10) 1181-91; 1972
VINYL CHLORIDE; BYPRODUCT; SEA HATER; ANIMALS; EDC; TAR; BIOLOGICAL EFFECTS
445 Uptake and Release of Phosphorus by a Benthic Harine Aaphipod
Johannes, R.E.
Liaonology and Oceanography, 9, 235-242; 1964
UPTAKE; RELEASE; PHOSPHORUS; AHFHIPOD; BENTHOS; SEA WATER
45 1013
446 Uptake and Release of Dissolved Ocganic Phosphorus by Representatives of a Coastal Rarine Ecosystea
Johannes, R.E.
Lianology and oceanography* 9, 224-234; 1964
UPTAKE; RELEASE; ORGANIC; EHOSPRORDS; MARINE ECOSYSTEMS; AQUATIC ECOSYSTEMS
447 Release of Dissolved Aaino Acids by Marine Zooplankton
Johannes, R.E.; Hebb, K.L.; University of Georgia Marine Institute, Sapelo Island, GA
Science, 150, 76-77; 1965, Oct. 1
AMINO ACIDS; MARINE ZOOPLANKTON; ZOOPLANKTON; RELEASE RATES; TEMPERATURE; COPEPCDS; SALPS; CHAETOGNATHS; COELENTERATES; RADIOLARIANS; RELEASE
448 Lead Availability Related to Soil Properties and Extractable Lead
John, H.K.
J Environ Qual 1 (3) 295-298; 1972
NICKEL; ALUMINUM; PH; SOILS; AVAILABILITY; LEAD; EXTRACTION
TAXONOMY: LACTUCA-SATIVA; AVENA-SATIVA
449 Cadoiun Contamination of Soil and Its Uptake by oats
John, M.K.; Chuah, H.H.; Van Laerhoven, C.J.; Research Station, Canada Department of Agriculture, Agassiz, BC, Canada
Env. Sci. Technol., 6(6), 555-557; 1972, June
CADMIUM; UPTAKE; OATS; GROWTH CHAMBER; SOILS; ROOTS
450 Lead Uptake by Lettuce and Oats as Affected by Lime Nitrogen and Sources of Lead
John, M.K.; Van Laerhoven,.C.J.
J. Environ. Qual., 1(2), 169-171; 1972
TAXONOMY: LACTUCA SATIVAr AVENA SATIVA
4 5 . Factors Affecting Plant Uptake and Phytotoxlclty of Cadaiua Added to Soils
John, H.K.; Van Laerhoven, C.J.; Cbuah, H.H. Research Branch, Canada Departaent of Agriculture, Agassiz, B.C. r Canada , . i : "y '
Environ. Science and Technology, r6.(12)»', ; ! 1005-1009; 1972, Noveaber >
UPTAKE; PHOTOTOXICITY; CADMIUM; SOILS; PLANTS; : YIELDS; RADISH; LSTTOCB
452 Ultrarapid Extraction of Insecticides fron Soil... Using a New Ultrasonic Technique
Johcsen, R.B.; Starr, R.I.; Dep. Entbaol;, " n ' Colorado State Univ., Fort Collins, Colo.
J. Agr. Pood Chen. (JAFCAU),20(1) 48-51; 1972
EX1RACTION; INSECTICIDES; ULTRASONIC TECHNIQUE; 1 '* 1 .: :••!; INSECTICIDE RESIDUES; SOILS
453 Biomagnification of P,P'-DDT and netfcoxychlor by Bacteria . ,
Johnson, B.T.; Kennedy, J.O.; Fish-Pesticides Research Laboratory Bureau of Sport Fisheries and Wildlife, Coluabia, MO
Appl. Microbiol. (APHBAY), 26(1), 66-71; 1973
DDT; HETHOXYCHLOR; BACTERIA; ORGANOCHLORINE INSECTICIDES; INSECTICIDES; UPTAKE; BICHAGNIFICATION
TAXONOMY: AEROBACTER AEROGENES; BACILLUS SOBTILIS
454 • • •• • ' Biological Magnification and Degradation of DDT and Aldrin by Prcsifater Invertebrates
Johnson, B.T.; Saunders, C.R.; Sanders, H.O.; Campbell, R.S.; Bureau of Sport Fisheries and Wildlife Fish-Pesticide Research Laboratory, Columbia, HO .65201; Division of Biological
, Sciences, University of Missouri, Coluabia, MO • 65201
J. Fish. Res. Bd. Canada, 28, 705-709; 1970/ Deceaber 29
MAGNIFICATION; DEGRADATION; DDT; ALDRIN; FRESHHATER; INVERTEBRATES; PBSTICIDES; RESIDUES;. FISH; FOOD CHAINS; INSECTICIDES; LABELING; CARBON' 14 ,
455 Biological Magnification and Degradation of DDT ' and Aldrin by Freshwater Invertebrates
Johnson, B.T.; Saunders, C.R.; Sanders, H.O.; Campbell, R.S. ,
J. Fish. Res. Bd. Canada 28: , 705-709; 1971 : :
MAGNIFICATION; DEGRADATION; DDT; ALDRIN; FRESHWATER; INVERTEBRATES; PESTICIDES; RESIDUES; FOOD CHAIN; CARBON 14; RADIOISOTOPES; TRACERS
'•'Jo tt>&•!
Phas jlus-vulgaris-D Mitochondria ! ! f , i i s ; r )
J o h n s o n * ; l ^ f e J , i j L s o n , , , , ) f > y ;
Biochin Biophys STRONTIUM; UPTAKE; BEB.N-D;,.MITOCHONDRIA; .RAT, . • LIVER; CALCIUM' ioN;" 'ORTHO £HdsPHA"TE; !-2'," XVriil" NITRO PHENOL; ATP; ARSENATE';*"'AC&TAIE; NITRATE; MA L A TE;.,,0HALAXES-CARB.p.NAT,E;, CHLORIDES;.„SWELLING;..... PERMEA'Bf^fTV^R'ESPIRA'TlON;' ' l O ^ ^ q ^ ^ l - ' j o ^ 'fjnSi CV TAXONOMY! PHASEOLUS VULGARIS-D
157 __ Iio2 moR-aal/jijarysnl :r.o jjo.c insiSin hietyn-zi i V . g i / o J - n i f S ' i ' : >.: !'<£' V: * j .J "3 1 J « i p r ;: i; Concentration of Copper,' Lead," Zinc, and Cadmium
in Shallow |M.^r(ine Sediments,. Cardigan Bay, (Wales).
Jones, A.S.; Marine Sci. Lab., Univ. Coll. North W a l e s r p M e n a i ^ i d g e ^ ^ a l e s . j , ^ ; ^ ^ ^
Mar . A G ^ . , ,,14 (.2). r 2(1hM9;, 31973. s ; O T r M ; ;,^
SEDIMENTS; MARt'^SEDIM^TS; 5 METALS; 'fcoPPER; LEAD; ZINC; CADMIUM
4 6 1 , , , Caticn Transport ,,in fSoils and .Factors ,Effecting Soil.^Carbona'te'^oiubi Vj)-'"..JJ Protection Technology "Series ""' '" ' ' r. ' . ,
Jurinak, J.J.; Lai, S-H; Hassett, J. J.; Utah,.., . State University, Logan, UT
Monitoring Agency "Report lN6:.' 'W7i-Vl7li, ~ • 1 EPA-R2t,7;3-235; ^Pro}. . EPA- 1.3.030-rFDJ, .,90 .3.,;. 1973,.,, May
DOLOMITE; SOIL CHEMISTRY; CATION; CARBONATES; MAGNESIUM; TRANSPORT PROPERTIES; LEACHING; SOLUBILITY; CALCIUM-INORGANIC COMPOUNDS; MODEL;, , SOILS; MINERALS. ; , ; .. ; ,,., ;.. : ,
.'.'I.' ? < :•. ' I . • •
Uptake of Trace'Elements from Deeper Horizons of' the Soil by Plants _ >1>A(, .
Kabata^P.endias, ..A,; ,Lab. .Mikroelement., .Inst. . .,, ,,, Uprawy, .:Nawoze'n'ia,,Giebozn,',^,'Pula.wy,!,''Pol^'',J\" f..':
Rocz .'''Gleboziw^ : 23 (2) , : 129-131; 51972' ''"""' A ,,n''!'"
UPTAKE; PLANTS; CLOVER; TRACE ELEMENTS; SUBSOILS; SOILS; HORIZON; MICRONUTRIENTS
i .••• -hi ' i 1 1 rnp: vr,
Lead Uptake from Solution by Perennial Ryegrass " a n d T - „ , ,<„-, : , r .
Jones, L.H.P.; Clement, C.R. ; „Hopper , M.,J.; , , , [ • v Grassland Res. Inst., Hurley/Berksiiirej "Erig'li
f r C - ' I ' - t C - h - , ( f \ .V, _ m w ; ! . f « f - - J< , . r O " . ! . - « ' . Plant Soil,' 38(2); U03-U 1ft; 1973
"jJT-.iriTtj-jt'i qf. • f : 1" • TC? LEAD; ENGLISH RYEGRASS; .TRANSLOCATION; PLANTS; . ..r TRANSPORT; UPTAKE;'ROOTS; "SHOOTS" tta > 4 K'.-Vf'
C ' T , j r ? ? i y > ; w j a t D A y ; * i ^ ' r * r-IO*
a 5 9 The Accumulation of Nitrosyl Ruthenium by Fine Particles and Marine Organisms ,
Jones, R.F. K,>;fi::,.tr7 -J 10 » i - u ) | V l s. i •(.•,}«
Limnol., f . q c e a n r , 3 1 2 - 3 2 5 ; 1960,,,„,.. ;, • . - . M, i ;s.
NITROSYL.,RUTHfiRItiM;106; '.RADIOACTIVE,'HsisTE WATERS• -PARTICLES ;'.:AL<?AE; ANIMAL'S;' SAND; "-'SILT"; '.FERRIC ,' / HYDROXIDE;;0iAT0MS; ,AQUATIC'ECOSYSTEMS;^MUSSELS;I , CHROHATdGRAPHY;"RADIONUCLIDES ' 4 ;
T A X O N O M Y : F J P H A E P D A C T Y L U M , C O R N U T U M ; P L E U R O N E C T E S , P L A T E S S A ' " ' " "
;v:vn^J(i ; '",'<.! .• • f '• A • i -ssf n-r-f-i ; ... M«:i*«t ; '•:'.' • ' q f l T u ' - i c \ " c ' S ' l T " ! "
Factors Determining the Leaching "of Nitrogen from," Soil, Including Some Aspects of Maintenance of Water Quality Jung, J.; Agric. Res. Stn., Bad. Anilin-Und Soda Fabr.rjA.-G.,,. jLimburgerhof, Germany f.,,, „ , . , ,
Qua].. Plant. "Mater.' !Vegi: (QPMVAW) ''H (<*), ' 343-366; 1972 1 <-><•;• r.t,-
LEACHING; WATER; REVIEW; NITROGEN; SOIL WATER; SOILS r V } i r ; e {; V - >, .r-c ,T
i /.'»
<in-< - i ;
U63 Availability of Zinc Phosphorus and Calcium in Soils Treated, with.,Varying Levels of zinc and., Phosphate: A Soil Incubation Study
Kaiyanasuridaram, *N.K.; Mehta, B. V.'' :' >;,.. , ,'.,
Plant Soil 33(3), .699-706; 197,0 , f J
AVAIIABILITY; ZINC; PHOSPHORUS; CALCIUM; SOILS; SOIL INCUBATION STUDY; ANTAGONISM; IFDUCED DEFICIENCY; SOIL PROPERTIES
464 . r ( , . , Biological Cycling of Elements and '.Stable ,, 1 Isotopes in Marine Environment's. 'Progress . Report, April 1, 1971-Mayl, 1972 1
Kaplan,'i. R.; California Univ., Lois Angeles"'
California U i i i v ^ L o s Angeles; UCLA-34-P-134-6;. . Monitoring Agency Rept No. 18; Contract AT (04-3) -34; 208 p.; 1972
ALGAE; CNIDARIA; MOLLUSCS; SILTS; TRACE ELEMENTS; URANIUM; URANIUM ISOTOPES; BIOLOGICAL CYCLING; ' STABLE ISOTOPES; BIOLOGICAL. CYCLING; STABLE', ISOTCPBS; ISOTOPES; SEA WATER " '"
465 , . L '
Comparative Metabolism.of ,DDT,...Hethychlor, and, Ethoiychlor in Mouse insects and in a Model Ecosystem
Kapoor, I.P.; Hetcalf, R.L.; Hirwe, A.S.; Lu, Po-Yung; Coats, J.R.; Nystrom, R.F.
J. Agric. Food Chem., 20(1), 1-6; 1972
METAECLISM; HETHYCHLOR; ETHOXYCHLOR; INSECTS; MODEL ECOSYSTEM; FISH; FOOD CHAINS; PESTICIDES; DDT; MODEL; DDE
4 6 6 . „ , . . . . . „ p . , . S t r u c t u r e A c t i v i t y C o r r e l a t i o n s o f ' • B i o d e g r a d a b i l * . t y o f D D T A n a l o g s , „ > - ,
K a p d o r ? I ; P . ? ' ' H e ' t c a l f i ^ R . ' t i ' i ; f H ^ « e - i 0 - A r ^ : r ; , ' ' C o a t s i > 0 0
J . R . ; K h a l s a . n . S . ; , D e p . . E n t o m o l . . U n i v . . r> . I l l i n o i s ; " u ' r b a n a ' , 1 I t ' ' ; . ' ' ? . ^ ^
\ \ i j r < ! .1 £-'•"..'• 41 '.••<" S ;. v : ; v . i t [ w j o . w '<••> / '.-c1 j -t
J . A g r . F d p a C h e n ; , i ! ( J » P C A D ) 5 ; ' 2 i ^ j , r ;310-?3'IS-Utfii
S T R U C T U R E A C T I V I T Y V C O R R E L A T f b ' N S " 1 1 " " S 4 ' . • ' 6 1 ! r " ^ B I O D E G R A D A B I L I T Y ; D D T A N A L O G S ; " f f ' ' ' " " t " : " " N E T H O X Y - M E H I O C H L O R ; E T H O X Y C H L O R ; . , . , . , , , . „ , . . . . . . C H L O R O N E T H Y t C H L ' O R V . ' T E R R E S T H I A L A N I B A L S YS.TEH'S ; ' > f ' ' ' P A T H W A Y S ; : M O U S E ; ' S A L T ' H A R S H ' C / . T E R P I L E A R ; M O D E L •"•' • :
ECOS Y S T B M j : ' • A i G A' E ; ' ' S N A T L S ; ' M O S i j 0 1 T O j ' - F i S H ; ' ' ' " J/!":' S T R U C T U R E ; ' M E T A B O L I S M ; " A U I M A i s ; ' P L A N T S ' ?,.i • " ' " ' J '
T A X O N O M Y : ' E S T I G M E N E A C R E A : f ' '*' J r ' " iK A i !
4 6 7 . , , . . . C o m p a r a t i v e M e t a b o l i s m o f ' E t h ' o x y c h i i o r ! M ^ t h i d c h l o ' r a n d D D T i n M o u s e I n s e c t s a n , d ( i n a , M o d e l . . E c o s y s t e m {
K a p o o r , I . P . ; M e t c a l f , R . L . ; N y s t r o m , R . F . , ; ,
v •; : ? , i . ; v f . - - c . , " . 3 . ( 1
J . A g r . F 6 o d c l i e m V , ' ' 1 8 ( 6 | v / ' " 1 * 14'5— r7 l ' S 2 ' v r 1 J.'
M E T A B O L I S M ; E T H O X Y C H L O R ; , M E T H I 0 . C H L C R ; , . M O U S E ; , , . „
M O D E L E C O S Y i S T E H ; ' F I S H ; M A M M A L S ; I N S E C T S ; " D D I ) ; ' I
D D E ; F O O D ^ H ^ I N ^ j ^ ' : - ^ R S . V v K o V ' ^ V l ' l r f O
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4 6 8 R e c y c l i n g S e w a g e E f f l u e n t T h r o u g h t h e S o i l a n d i t s A s s o c i a t e d B i o s y s t e m s
K a r d o ' s , ' L . T . * ' 1
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P a r t o f W e s t l e y , B . , . ( E d . ) , . I d e n t i f i c a t i o n , a n d S
M e a s u r e m e n t o f ' ' E h v i r o n n e n t a l P q l l u t a n t s ' , : ; ; ir " ' ; •
S y m p o s i u m , O t t a w a ' O n t a r io^" , J "Can ia i d a 1 J u n e j l 1 9 7 1 , N a t i o n a l R e s e a r c h C o u n c i l , C a n a d a ' ' 1 1 ; ' ( 1 1 9 - 1 2 3 ) ; 1 9 7 1
E U T R O P H I C A T I O N ; W A S T E ' V i T B S j ; { P ! : ' P H O S P H O R U S ; N I T R O G E N ; S E W A G E ; S E W A G E ' E F F L U E N T ; ' ! r t
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4 6 9 B e n t h i c D i s t r i b u t i o n ' a W d ; ^ ' I S e a s d n a i ; j F l u c ^ t u a ' t i o ' n ' s i n ' t A b u n d a n c e o f C h a c b o r u s S p e c i e s D i p t e r a ! y
C h a o b o r i d a e i n a n A r t i f i c i a l P o n d .. .. . . „
K a r i m , M . A . ; I n g \ i s , , J . M . ; , .. , ^ 1 4 . . f } -
P a k . J . S c j L . R e s . , . . 2 2 ( . 1 - 2 ) , . ^ 6 9 - 7 8 ; . 1 , 970 ,
L A R V A ; B E N T H O S ; D I S T R I B U T I O N ; S E A S O N A L " V A R I A T I O N S ; A R T I F I C I A L P O N D S ; M O D E L E C O S Y S T E M ; A Q U A T I C E C O S Y S T E M S
T A X O N O M Y : , C H A O B O F O S B L A V I C A N S ; C H A O B O R U S „ ; M l ) P U N C T I P E N N I S ; ' D I P T E R A ; ' C H A O B O R i D A E ; ' s ! l f " ' f - f " ' 1 J "
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4 7 0 B f f e e ? f ' o f " S t t i i u t s o J » " p S ^ a n d ^ v S i i l b l l i ^ y n o f T 0 1 ^ ' ' P h o s p h o r u s i n C a l c a r e o u s , S o J , l s ; , , I n f l u e n c e r o i S u l f u r a n d N i t r o g e n o n Y i e l d ' a n d C h e m i c a l ' " " c o m p o s i t i o n . o f . c p r n ^ . ^ ,
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B o r o n : M a n g a n e s e ; ; a i i d f C o f i ^ 1 1 ^ i t f f a. M i n e r a l F e r t i l i z e r s o n ' t h e B i o l o g i c a l ; A c t i , v i € y . . , o f T o b a c c o - D R h i z o s p h e r e !
: ' " '
K a s i n c v a , G . K . ; Z a n a n o v , P . B . ; A b u s h e v , R . A . ; t : r ( y r . Safarov, M.G.
U c h . T Z a p , . , A z e r b . u U n i v . „ S e r . ' - B i o l . , . N a u k . , ( 3 ) , , , „ -q J ^ g^-Q f j j p i B i h i l i / ' i i v a j r > i j ' I A K ( I f i i 1 >JUJ T i l f S .'"^r:
T R A C E E L E M E N T S ; C O B A L T ; F E R T I L I Z E R S ; B I O L O G I C A L A C T I V I T Y ; T O B A C C O - D ; R H I Z O S P H E R E ; M I C R O F L O R A ; N I T R O G E N ^ ^ T ^ N S i ^ L ^ ^ g s ^ O ^ ^ B ^ G ^ S ^ ; ^
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- Z 2 2 A J 2 1 t S V V l l i J j S S S ^ O ; 0 A ? J E ; 8 r i S 5 ! Y n a l l t S K j f H «
P a r t o f D i s p o s a l o f R a d i o a c t i v e W a s t e s i n t o S e a s , o a e a n s a n d S u r f a c e W a t e r s , I A E A , V i e n n a ( p . „ „ i63-n«u m ,, , ^ A C C O M u f m ' o r ; n A D ' l O A C T i v E ^ ^ E L E H E ^ ' ; 7 D R I V E R S * " ' '
t ( 7 3 S.TSM ;l>5.~c , { f j , - i - f t H . J b i * ' . a f l
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- . • . t t S T e ' f V u M ' J i l t ' s , ? ; ! ; H S T 2 ? c O . - . ; < • A a . j y i f 5 0 8 0 J B »
K a v a d i a , V . S . ; P h i l l i p s , F . T . ; R o t h a m s t e d E x p . S t n . , H a r p e n d e n / H e r t s . , E n g l .
P e s t i c . S c i . , ( P S S C B G J . 3 ( 5 ) , 5 2 7 - 3 2 ; , . 1 , 9 7 2 . 0
D i n E R I ^ V p T A K E ; ' ^ W T T W ^ ' W s T l V l D E S ; , R d ' b W ; C K : r 9 ^ £ > 0
PLANTS; > „o!-
4 7 4 O r g a n o c h l o c m e P e s t i c x d e ; R e s i d u e s , r P , l a n t , s S o i l s . 1 2 . A b s o r p t i o n ' 4 o f • Y f d r i i i ' J D i e l d r i n ' u i n ' ~ a
T u r n i p s
O f i i l K a w a h a r a , T . ; ; A g r i c . C h e m . I n s p . S t n . , M i n i s t . A g r i c . F o r . . , K o d a i r a , J a p a n „ .. : ' . . 3 pi>i j u n j i j . o s - f n o o n U je . I-Q c o x J - « U £ , X ' S , a i V 5
N o y a k u K e n s a s ^ c T ^ r f o W k \ ( T ^ I ^ - l W l ' ' 3
O R G A N O C H L O R I N E V P E S T I C I D E S ;*A%SO R P T l t f N ; : T U S R I P S ' ; f D I E L i ? R I N ; A L D R I N ; . P L A N T S ; . S O I L S „ . . - - , - r r
rver ;.q A; .OK-
HSJ!< l . i j S T i f S f t l O S U " t y s U O i S i a K
475 ' :
475. Bporidatiori of Aldrin by a Fresh Hater Ostracod
Kavatski, J.A.; Schmulbach, J . c .
J. Econ. Entomol., 64(1), 316-317; 1971 EPOXIDATION; ALDRIN; OSTRACOD; INSECTICIDES; FOOD TOXICITY .. . . ,
TAXONOMY: CHLAMYDOTHECA ARCUATA
476 Persistence and Metabolism of Chlorodioxins in Soils
Kearney, P.C.; Woolson, E.A.; Ellington, C.P.; Agcic. Environ. Qual. Inst., Agric. Res. Serv., Beltsville, MD
Environ. Sci. Technol. (ESTHAG), 6 (12), 1017-19; 1972
PERSISTENCE; METABOLISM; CHLORODIOXIN; SOILS; HERBICIDES; CONTAMINANTS; ENVIRONMENTAL BEHAVIOR
477 Lead Uptake and Lead Distribution in Young Spruce-G Plants
Keeler, T.; Zuber, R.
Forstviss Centralbl 89 (1), 20-26; 1970 ^
SPRUCE; TREES; LEAD; OPTAKE; DISTRIBUTION; PLANTS
478 The Effects of Grazing by Snails on community Structure of. Periphyton in laboratory Streams
Kehde, P.M.; Rilha, J.L.
Am. Midi. Nat., 87(1), 3-24; 1972
GRAZING; SNAILS; PERIPHYTON; SPECIES DIVERSITY; CHLOROPHYLLA; MODEL ECOSYSTEH; AQUATIC ECOSYSTEHS
479 Guidelines for Environmental study of pesticides. Determination of Bioconcentration Potential
Kenaga, E.E.; Do* Chem. Co., Midland, Mich.
Residue Rev., 44, 73-113; 1972
GUIDELINES; PESTICIDES; DETERMINATION; BIOCONCENTRATION; REVIEW; DDT
480 Distribution of Mercury in Unconsolidated Sediments fros Southern Lake Michigan
Kennedy, E.J.; Huch, R.R.; Shisp, N.F.
Illinois St. Geological Survey Env. Geol. Notes, No. 44, 18 p.; 1971
MERCURY; SEDIMENTS; LAKES
481 Cadmium Accrual in a Flowing Marine Microcosm
Kerfoot, W.B.; .Dept. of Biology, Woods Hole Oceanographic Institution, Woods Hole, MA 02543
Pact cf Ryther, J.H., WHOI-73-2, The Use of Flowing Biological Systems in Aquaculture, sewage Treatment, pollution Assay, and Food-Chain Studies, Woods Hole Oceanogcaphic Institution, January 1, 1972-December 31, 1972, Unpublished Manuscript, 10 p.
MICROCOSMS; MARINE ECOSYSTEHS; ACCUMULATION; CADHIUM; TRACE ELEMENTS; SEDIMENTS; OYSTERS; CLAMS; WORMS; SHRIMP; ALGAE; PHYTOPLANKTON; SHELLFISH; MATERIAL BALANCE; ECOSYSTEM ANALYSIS; CADMIUM IODIDE; PERSISTENCE; CONCENTRAITON; UPTAKE; SAND; QUAHOGS; AQUATIC ECOSYSTEMS
482 Chemical Forms of Iron in Sea Water
Kester, D.R.; Byrne, R.H., Jr.
Part of Perromanganese Deposits on the Ocean Floor, D.R. Horn (Ed.), Lamong-Doherty Geological Observatory, Columbia Univ., Palisades, NY (107-116); 1972
SOLUBILITY; PH; TEMPERATURE; PRESSURE; CHEHICAL EQUILIBRIUM; CHEMICAL ANALYSIS; HYDROXIDES; COMPLEX COMPOUNDS; TRACE ELEMENTS; MANGANESE MODULES; IRON HYDROXIDES; SEA WATER; IRON COMPOUNDS; WATER CHEMISTRY
483 The Cycle of Phosphorus in a Plankton Bloon in the Gulf of Maine
Ketchua, B.H.; Corwin, N.; Woods Role Oceanographic Institution, Woods, Hole, Massachusetts
CYCLING; EUPHOTIC ZONE; DECOMPOSITION; PHOSPHORUS; PARACHUTE DROGUE; BLOOM; PHYTOPLANKTON; OXYGEN; CHLOROPHYLL; SEA WATER
484 The Annual Cycle of Phosphorus and Nitrogen in New England Coastal Waters
Ketchua, B.H.; Vaccaro, R.F.; Corwin, N.
J. Harine Research, 17, 282-301; 1958
PHOSPHORUS; NITROGEN; CYCLING; COASTAL WATERS; EUPHOTIC ZONE
485 Primary Productivity and Energy Relationships in Artificial Streams
Kevern, N.R.; Ball, B.C.; Department of Fisheries and Wildlife, Michigan State University, East Lansing, HI
Linnol. Ocean. 10, 74-87; 1965
PRIMARY PRODUCTIVITY; ENERGY; ARTIFICIAL STREAMS; PRODUCTIVITY; ALGAE; MODEL ECOSYSTEH; AQUATIC ECOSYSTEMS
983
987 In Vivo and In Vitro Epoxidation of Aldrin by Aquatic Food Chain organisas
Khan, M.A.; Kaaal, A.; Wolin, B.J.; Runnels, J.; Dep. Biol. Sci., Univ. Illinois, Chicago, 111.
Boll. Environ. Contain. Toxicol., 8(4), 219-228; 1972
IN VIVO; IN VITRO; FOOD CHAINS; ALDRIN; EPOXIDATION; AQOATIC ORGANISMS; EIELDRIN; INVERTEBRATES; PESTICIDES; ABSORPTION
487 Interaction of Hunic Substances vith Bipyridylium Herbicides
Khan, S.Q.; Res. Stn., Agric. Dep. Canada, Regina, Sask.
Can. J. Soil Sci. (CJSSAR), 53<2), 199-204; 1973
DIQUAT; PARAQOAT; COMPLEXES; BIPYRIDYLIUM; HERBICIDES; SOILS; RUNIC ACID; FOLVIC ACID
488 Adsorption of Pesticide by Hunic Substances. Review.
Khan, S.D.; Res. stn., Canada Dep. Agric., Regina, Sask.
Environ. Lett. (EVLTAX) 3(1), 1-12; 1972
REVIEW; PESTICIDES; HUMIC SUBSTANCES; ADSORPTION
489 • . , Leaching of Nutrients by Drainage Haters .
Kinderis, Z.B.
Sov. Soil Sci. (Transl Pochvoved) 2, 99-108; 1970
LEACHING; NUTRIENTS; DRAINAGE HATERS; MINERALS; WATER
490 Role of Carbon in Eutrophication
King, D.L.
J. Water Pollution Control 4 2, 2035; 1970 REVIEW; CARBON; EUTROPHICATION; LAKES; PLANTS; ALGAE; BLOOMS; NUTRIENTS
491 Uptake and Transfer of Cesium-137 by Chlamodononas, Daphnia, and Bluegill Fingerlings
King, S.F.
Ecology 54, 852-859; 1964
BLUEGILLS; UPTAKE; TRANSFER; ALGA; CESIUM 137; DAPHNIA; FISH
TAXONOMY: CHLAMYDOMONAS; DAPHNIA PULEX; DAPHNIA MAGNA
492 --"vW. Nitrate Adsorption. Part i. In Soae Acid Solids of Mexico of South Aaerica
Kinjo, T.; Pratt, P.F. •••. • .j-.-iy-.;*<..
Soil Sci Soc Aa Proc 35 (5), 722-725; .1971 -s-}i} i^.-'A'r
HITRATES; ANIONS; NITROGEN; TROPICS; ADSORPTION; ACID SOILS; SOILS
493 Nitrate Adsorption. Part 2. In Coapetition vith , Chloride Sulfate and phosphate
Kinjo, T.; Pratt, P.P. : v j
Soil Sci Soc An Proc 35 (5), 725-728; 1971
CHLORIDES; SULFATES; PHOSPHATES; ANIONS; TROPICS; ' SOILS; NITRATES; NITROGEN
494 Nitrate Adsorption. Part 3. Desorption Moveaer't and Distribution in Andepts
Kinjc, T.; Pratt, P.P.; Page, A.L. \
Soil Sci Soc An Proc 35 (5), 728-732; 1971 i
NITRATES; DESORPTION; MOVEMENT; DISTRIBUTIONi V COEFFICIENTS; TROPICS; SOILS; NITROGEN; TRANSPORT
495 . v Absorption, Translocation, and Elinination of Carbon-14-Labeled 2, 4-D in Plants <
Kiselev, V;E^; Al»Tergot, V.F., "Nauka", Sib. OTD. , Novosibirsk, USSR ' f ; s rvi
Fiziol. Mekh. Adapt. Ustoich. Rast. (26HFAH) 1, : () 228-4 3; 1972 ...
CHIOROPHENOXYACETATE; ABSORPTION; BEANS; TRANSLOCATION; DICHLOROPHENOXYACETATE; DECARBOXYLATION; HERBICIDES; CUCUMBERS; PLANTS; 2,4-D; CARBON ,14; .TRACERS ^ iU''-
496 • ,"-.• .- - >:-".. Uptake and Excretion of Cs 134 fron Fallout Sinulant and Vegetation by Cotton' Rats
Kitchings, J.T., III.; Dunavay, P.B.; Story, 'i;' U.D. ; Radiation, Ecology Section, Health Physics , !V Division, Oak Ridge NationalLaboratory/ ;Oak' ' < Ridge, TN 37830 ;.,•'- v'' r, A ' : •• ' """
Health Physics, 17, 265-277; 1969
CESIUM 134; FECES; FALLOUT SIMULANT; TRANSPORT; UPTAKE; EXCRETION; COTTON RATS
TAXOHCNY: SIGMODON HISPIDUS
ft97
637.
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K l e i n , D . H . ; G o l d b e r g , E . D . ; S c r i p p s I n s t i t u t i o n o f O c e a n o g r a p h y , L a J o l l a , C K 1 * ! ' 9 2 0 3 7 i , T
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' j K O j ' S O . K T ; & K Q T K A M E R C U R Y ; C O A S T A L W A T E R S ; M A R I N E O R G A N I S M S ; U 0 3 S E W A G E ; , B I O C O N C E N T R A T I O N ; E L E C T R O P L A T I N G ; A T M O S P H E R E f.
U 9 8 • - "* f i a i * s J h t t a B S t r e a m F l o w N i t r o g e n L o s s F o l l o w i n g F o r e s t E r o s i o n C o n t r o l F e r t i l i z a t i o n 1 - ' i T ' ^ C / V, :
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0 ! f S i i 3 F , o E i t ' s e r ! T ; . ! ' ; ; R e s ; , . ? i N o t e ; ; p . H W 1 6 9 ; A I - ; 9 ; i , 9 7 i i s I . m h : ; . ' ' w s p t v m « W A T E R S H E D S ; F O R E S T S ; S T R E A M S ; C O N S E R V A T I O N ; N I T R O G E N ; E R O S I O N ,
• ' • . t t o i i g - s o a ^ a > - 4 y v , U h \ A i . r i ! r h ' ft99 • '• m A i t o l J t £-:r o ' ' I ' - I A A ' S S a n i t a r y L a n d f i l l s . A B i b l i o g r a p h y
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Kolli, R.
E e s t i P o l l u m a j a n a u s e A k a d . T e a d . T o o d e K o g u m i k ( E P S N A 8 ) 7 5 , 1 6 5 - 2 0 2 ; 1 1 9 7 1 ' » ( * > • « > • • ; ' • > "
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I z v . s i b . ' O t d . ' A k a d ; ' N a u k ' S S S R / ^ S e r i B i o l . - N a u k ( I S B N B N ) ( 2 ) 1 1 9 - 2 2 ; 1 9 7 2
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rs: v r - ' a ' V r < ;:<J f *.."• ^ j : : ^ ' 1 ^ ? , ! ^ M m i - v ' K i : :
5 0 8 U p t a k e o f N i t r o g e n , P h o s p h o r u s , a n d P o t a s s i u m i n t o B e a n P l a n t s D u r i n g T r e a t m e n t W i t h I n s e c t i c i d e s a n d A p p l i c a t i o n o f M i n e r a l ' F e r t i l i z e r s " ' ' ' ' ' * " • • ' " ! ' i f i ' '
K o n o v a , V . M . ; L e n i n g r . S ; - K H . i n s t i > ! L e n i n g r a d , ' U S S R
Z a p . L e n i n g r a d . S e l ' S k o k h o z . I n s t . ( Z L S I A Q ) 1 5 6 , 1 4 3 - 6 ; 1 9 7 1 v ' ^ T - r ' f . ' . . ^ A ' } ; . ^
R O G O R ; N U T R I E N T S ; U P T A K E ; P L A N T S ; C H L O R O P H O S "> 1 ' f I N S E C T I C I D E ; M I N E R A L F E R T I L I Z E R ; I N S E C T I C I D E S ; F E R T I L I Z E R S ; N I T R O G E N ; P H O S P H O R U S ; P O T A S S I U M ; B E A N P L A N T S
5 1 1 ^ S o i l - F o o d - C h a i n - P e s t i c i d e W i l d l i f e f R e l a t i o n s h i p s ^ ^ i n A l d r i n - T r e a t e d F i e l d s j ; * : » • « t t f t f
K o r s c h g e n , L . J .
T h e j o u r n a l * o f w i l d l i f e M a n a g e m e n t s 4 ( 1 ) ^ J a i l ' t o w * 1
1 8 6 - 1 9 9 ; 1 9 7 0 , J a n u a r y : 5
•rt.iA'T-an • A 3 ? .
S O I L S ; F O O D C H A I N S ; P E S T I C I D E S ; A L D R I N ; F I E L D S T U D I E S ; M A C R O I N V E R T E B R A T E S ; V E R T I B R A T E S ; S E E D S , ; D I E L B R I N ; T E R R E S T R I A L E C O S Y S T E M S
T A X O N O M Y : ' L U M B R l C I l j A E ; G R Y L L t D A E ; I ' C A R A B I D A ' E ; Y s W g v P E R O M Y S C U S M A N I C O L A T U S ; ' B U F O " A M E R r C A N O S ; i n , f r r r , r , T H A M N C P H I S S I R T A L I S ; P I T U O P H I S S A Y I ; Z E A M A Y S ; S E T A R I A F A B E R I I ; H E L I A N T H U S - A N N U U S * v ' r . ^ ' i o i . i f . s S > ! a i
i- _1 n ,v:: . ;>v">f? ISo-J &;*«'»{? • s j i H i i l S ' f i S d f i r t B .
5 1 2 . • • 4 .«?<vrn j 2 3 i H . ' ! . * 5 ; r c H . • ^ n s - i / j . i j ^ i n t o a ' i o X o / R T e c h n i c a 1 E n v i r d n m e n t a l J , c H ' e » i c a I s ; ! ' O c c u r r e rice>' • >! T D e g r a d a t i o n , a n d C o n s e g u e n c e s V K o r t e , F . ; K l e i n , W . ; D r e f a h l , D .
' f i t *
N a t u r w i s s R u n d s c h 2 3 1 C 1 1 ) ^ 4 5 - 4 5 7 ^ : 1 9 7 6 ' - f r f ?
P E R S I S T E N C E ; P E S T I C I D E S ; I N S E C T I C I D E S ; 1 R E C Y C L I N G ? * A N I M A L S ; P L A N T S ; H U M A N S ; D E G R A D A T I O N
£<'VF' ; f , 1 1>~ i? r i ..• O f . . „ ' ; . • " . , f .on u c o t .
aca zs^hw, r??r.itofriz'
5 1 3 . D i s t r i b u t i o n o f C h l o r o r g a n i c P e s t i c i d e s A l o n g a S o i l P r o f i l e ;
K o z h i n o v a , L . A . ; G r i g o r ' e v a , " ^ ! ? ! ? ; : ! Y u r a s i o i v a " / - !
O . I . ; N i k o n o v a , A . G . ; I n s t . O b s h c h . K i m m u n a l ' n . G i g i f ' I u r ^ s y s i n a , <H8dcoi<
y U 5 S H ^ » - ! ' * ? • • ' '• .. . o . r-
K h i m . S e l . K h o z . ( K S K Z A N ) 1 0 < 3 ) , 1 9 8 - 2 0 1 ; 1 9 7 2 ; ; i.i • , f. f. I (CI; •,•?:> . V V J " ; ^ :t X J b !. iy> <l H H F / « o KC>,
O R G A N C C H L O R I N E ; P E S T I C I D E S ; S O I L P R O F I L E ; P E S T I C I D E S ; t i : S O I L S ; ; D I S T R i B U T I O N ; i r D D T ; H E X A C H i O R O C Y C L O H E X A N E ; ' T R A N S E O B i T 1 t T « 0 C 0 3 3 1 KOT. 'V j r / i j ; ?
<:> Hi- J-j"i",!.0 :•:•,.> / ; - r-^-.iu^t-^f.
5 0 9 L e a c h i n g c f T r i f u r a l i n a n d o r y z a l i n ' - i n S o i l - w l t l i - ^ T h r e e S u r f a c t a n t s
f'' j f- s, - is)?. '--^vii-f-v <3' .:.oZ
K o r e n , E . ; D i v . W e e d R e s . , V o l e a n i I n s t . A g r i c . R e s i : , B e t ; D i g a r i ^ " l s r a e l ; , t , ' j ; ^ r - ^ _ ; H X ? ^
W e e d S c i . ( W E E S A 6 ) r , 2 0 ( 3 ) 2 3 0 - 2 3 2 ; 1 9 7 2
L E A C H I N G ; T R I F U R A L I N ; O R Y Z A L I N ; S U R F A C T A N T S ; S O I L S ; H E R B I C I D E S ; M O B I L I T Y ; T R A N S P O R T
!•<••?•• •;>:.• T.'JR-V ,:>JF: ILO X ? S 3 I ,",V; 0!5 C>J6K.( is r,S
5 1 0 - - r * i ' t V ' t ' Z srj-ss- sr;i U p t a k e a n d L o s s o f Z i n c - 6 5 i n t h e D r a g o n f l y P l & t h e m i s L v d i a ^ ^
K o r m o n d y 7 ' - E . J ^ f ' ^ f l e p a r t m e t i t ' o f ^ B i o ^ i g y p O f e ' e r l i n C o l l e g e , « d b ' e f l i r i ; - r O H " ^ " - W : i ' 1 ' ? ' A"; t '? i -V.
UH'S.OYCr T-'OJC-ftH
L i m n o l o g y a n d O c e a n o g r a p h y , 1 0 ( 3 ) , 4 2 7 - 4 3 3 ; 1 9 6 5 , J u l y
U P T A K E ; D R A G O N F L Y ; Z I N C 6 5 ; E Q U I L I B R I A ; L O S S R A T E ; T R A N S P O R T ; . L A B O R A T O R Y E X P E R I M E N T S ; F I E L D E X P E R I M E N T S ; T E M P E R A T U R E ; A D S O R P T I O N ; C A T I O N E X C H A N G E ; M E T A B O L I C A C T I V I T Y ; E N E R G Y F L O W ; S E D I M E N T S
' A X O N O M Y : P L A T H E M I S L Y D I A
5 1 4 , P h y t c t r o n s a n d E n v i r o n m e n t a l P h y s i o l o g y
. v o d w r r . R - r ; r f J r s l ,j<:<
K r a m e r , P . J i « ' " ' s l S t * H e l i ' i e t a f . ^ H ' i 4 - ? ) ft o .*•• r= £'• 'J ^ b a , it o L?. x x - t k 10
N a t u r e a n d R e s o u r c e s , 8 ( 4 ) , 1 3 - 1 6 , U N E S C O , P a r i s ; 1 9 7 2 s * * * . - 1 ® , .r.9.•}$<-•>£)! ; , F ! T { O x i > - . A ^ o n u X
• . • - t o j ^ j ^ t o ^ j p y fifls . . . V i t e
P H Y T O T R O N S ; E N V I R O N M E N T A L P H Y S I O L O G Y ; B O T A N Y ; -PHYSICLOGY-" . f fi -ftX'ij 1. ioDas
. . . c T c r i ? e - r s
5 1 5 ; . 7 ? !01T 'A f l -TB 1-3 3 :}\T. H ; ? J [ Y 8 T « ! ? i ' ( ?
E f f e c t : " o f J P o i y c t i l o r i n S t ' e d ^ H y . ^ M e t a b o l i s m o f W a r m - B l o o d e d A ' i i i i a f i S . ? ' ' 1 J - O l " W Z ' J y S X f j P e r s i s t e n t I n s e c t i c i d e s i n E c o l o g i c a l S y s t e m s
. - i H a j j a d i S a on-s;.Y?tcs»o5f/iir
Krampitz, G.; Hardebeck, H.; Inst. Anat. Physiol. Haustiere, Univ. Bonn; Bonn, Germany
- f&.i?-t 'T
D e u t . T i e r a e r z t l . W o c h e n s c h r . ' ( D T T I A F ) 8 0 ( 1 ) , 1 4 - 1 6 ; ' , r ( 4 ) ! " ^ 8 2 - 5 f ( 5 ) } P }
ANIMALS: INSECTICIDES; METABOLISM; REVIEW; ; ECOLOGY; PERSISTENCE; POLYCHLORf NA'TED0-^ ' I HYDROCARBONS; DRUGS; HORMONES '
•rvv? t f.> v - f . „ t s > ^ e s fi-a-' -v o .1 n
; - F 3 0 0 f 1 ; ; t T V ! £ p",1" f HC j I S S J ^ S H ft1?!?
983 52
51fi F a c t o r s C o n t r o l l i n g t h e C o n c e n t r a t i o n s o f T h i r t e e n R a r e r i e t a l s i n S e a W a t e r
Krauskopf, K.E*
Geochiraica et. Cosmochimica Acta, 9, 1-32; 1956
SEA WATER; M'STALS
.517 Theory for the Quantitative Estimation of Bed Load Transport Using Radioisotopes
Krishnaraurthy, K.: Rao, S.
Bhabha Atomic 'Research Centre, Bombay, India
RADIOISOTOPES; DEPOSITS; ESTUARIES; RIVERS; TRACERS; TRANSPORT;' .BED LOAD; THEORY
518 The stability of a Complex Ion
Kruger, P.; Schubert, J.
Journal of Chem. Ed., 30, 196-198; 1953
STABILITY; COMPLEX ION
519 Kinetics of Pesticides
Xude, T.W.; Borthwick, P.W.; Rick, A.J.; Schm.itt, ».D.
Us Dep Fish Wildlife Serv. Circul 335, 33; 1970
FISH; PHYTOFLANKTON; PESTICIDES; AQUATIC ECOSYSTEMS; DDT; TROPHIC LEVELS; ACCUMULATION; PLANKTON
520 Pharmacodynamics of Methyl Mercury in the Rainbow Trout {Salmo Gairdneri). Tissue Uptake, Distribution, and Excretion
, Kudo, A.; Gloyna, E.F.; Dep. Biochem., State Univ. New York, Buffalo, NY
Toxicol. Appl. Pharmacol. (TXAPA9), 24 (1), 81-91; 1973
MERCURY; RETENTION; RAINBOW TROUT; ,DIMETHYLMERCURS; FISH; ELIMINATION; PHARMACODYNAMICS; METHYLMERCURY; MERCURY; UPTAKE; DISTRIBUTION; EXCRETION
TAXONOMY: SALMO GAIRDNERI
521 Transport of cesium 137, part 2. Interaction with Bed sediments
Kudo, A.; Gloyna, E.F.
Water Res 5 (2), 71-79; 1971
TRANSPORT; CESIUM 137; SEDIMENTS; MODEL; RIVERS
987 Experimental Data on the Sorption Capacities of Water Hearing Strata and Survival of Escherichia-coli During Bacterial Contamination of Ground Water
Kudryavtseva, B.M.
Gig. Sanit., 37(7), 19-23; 1972
SORPTION; GROUND WATER; SORPTION CAPACITY; BACTERIA
TAXONOMY: ESCHERICHIA COLI
523 Rate of Phosphorus Uptake by Phaeodactylum tricornutum
Kuenzler, E.J.; Ketchum, B.H.; Woods Hole Oceanographic Institution, Woods Hole, MA
Biological Bulletin, 123(1), 134-145; 1962, August
PHOSPHORUS; PHOSPHORUS 32; UPTAKE; ALGAE
TAXONOMY: PHAEODACTYLUM TRICORNUTUM; NITZSCHIA CLCSTEBIUM F. MINUTISSIMA
524 Movement of Chemicals in Soils by Water
Kurtz, L.T.; Melsted, S.w.
Soil Sci., 115(3), 231-239; 1973 CHEMICALS; SOILS; WATER; CHLORIDE ION; ADSORPTION; TRACERS; SOLVENT EFFECT; WEATHERING AGENT; TRANSPORT
525 Soil Moisture Measurement by the Capacitance Method
Kuz Hichev, D.S.
Sov. Soil Sci. (Transl Pochvoved), 3(1), 124; 1971
MOISTURE; CAPACITANCE METHOD; DISPERSION; ORGANIC MATTER; PEAT; SAND; SOILS
526 Radioisotope Partition Between sea Water and Sediments
Kuznetsov, Y.V.; Shchehetkovskii, V.N.
Geochem. Int., 8(6), 891-896; 1971
CERIUM 144; CESIUM 137; CLAYS; ISOTOPE RATIO; SECISENTS; THORIUM 234; UPTAKE; SEA WATER; RADIOISOTOPES
53 1013
5 2 7 T h e C r o p c a p a c i t y o f V a r i o u s S o r t s o t B a r l e y - M a n d t h e C a t i o n E x c h a n g e C a p a c i t y - o f T h e i r R o o t S y s t e m s
K u z n e t s o v a , N . N .
V e s t n L e n i n g r a d U n i v . s e r B i o l 2 5 ( 4 ) , 1 6 9 - 1 7 0 ; 1 9 7 0
Y I E L D S ; BOOT S Y S T E M S ; C R O P S ; P L A N T S ; B A R L E Y - H ; C A T I O N EXCHANGE C A P A C I T Y
5 2 8 E f f e c t o f A l u m i n u m o n t h e C a t i o n - E x c h a n g e C a p a c i t y o f B a r l e y R o o t s
K u z n e t s o v a , N . N .
V e s t n . L e n i n g r a d . U n i v . , B i o l . ( V L B B B 6 ) ( 3 ) 1 3 1 - 2 ; 1 9 7 2
B A R L E Y ; R O O T S ; C A T I O N ; ALUMINUM; EXCHANGE; P L A N T S ; C A P A C I T Y
5 2 9 S o i l O x y g e n D i f f u s i o n R a t e s a n d M i n e r a l A c c u m u l a t i o n s i n C i t r u s S e e d l i n g s ( C i t r u s S i n e n s i s , V a r . B e s s i e )
L a b a n a u s k a s , . C . K . ; S t o l z y , L . H . ; K l o t z , L . J . ; D e W o l f e , T . A . ; U n i v e r s i t y o f C a l i f o r n i a , R i v e r s i d e
S o i l S c i . , 1 1 1 ( 6 ) , 3 8 6 - 3 9 2 ; 1 9 7 1
D I F F U S I O N ; C I T R U S - D ; S E E D L I N G S ; R E S P I R A T I O N ; N U T R I E N T ; U P T A K E ; ACCUMULATION
TAXONOMY? C I T R U S S I N E N S I S - D VAR B E S S I E
530 L a b o r a t o r y S t u d i e s o f t h e P u r i f i c a t i o n K i n e t i c s o f R i v e r W a t e r I s e r e b y S e d i m e n t a r y S u s p e n s i o n s . C a s e o f C h r o m i u m 6 1 , I r o n 5 9 , C o b a l t 6 0 . S t r o n t i u m 8 5 , R u t h e n i u m 1 0 6 , C e s i u m 1 3 7 , C e r i u m 1 1 1 , a n d M e r c u r y 2 0 3
L a c h e t , B . Z .
R a d i o p r o t e c t i o n , 7 N o . 3 , 1 4 3 - 1 5 7 ; 1 9 7 2
LABORATORY S T U D I E S ; K I N E T I C S ; C E R I U M ; C E S I U M ; C H R O M I U M ; C O B A L T ; I R O N ; MERCURY; P U R I F I C A T I O N ; R A D I O N U C L I D E M I G R A T I O N ; R I V E R S ; R U T H E N I U H ; S E D I M E N T S ; S T R O N T I U M ; HATER
5 3 1 U p t a k e o f C a d m i u m , L e a d , a n d Z i n c b y R a d i s h - D f r o m S o i l a n d A i r
L a g e r w e r f f , J . V .
S o i l S c i - 1 1 1 ( 2 ) , 1 2 9 - 1 3 3 ; 1 9 7 1
U P T A K E ; C A D M I U M ; L E A D ; 7 , I N C ; R A D I S H - D ; ATOMIC A B S O R P T I O N S P E C T R O P H O T O M E T B Y ; Y I E L D S ; T R A N S L O C A T I O N ; S O I L S ; A I R "
5 3 2 E c h a n g e A d s o r p t i o n o r P r e c i p i t a t i o n o f L e a d i n S o i l s T r e a t e d w i t h C h o r i d e s o f A l u m i n u m , C a l c i u m , a n d S o d i u m
L a g e r w e r f f , J . V . ; B r o w e r , D . L . ; N a t l ; . A g r i c . R e s . C e n t . , A g r i c R e s . S e r v . , B e l t s v i l l e , HD
S o i l S c i . S o c . A m e r . , P r o c . ( S S S A A 8 ) , 3 7 ( 1 ) 1 1 - 1 3 ; 1 9 7 3
A D S O R P T I O N ; P R E C I P I T A T I O N ; L E A D ; E X C H A N G E ; S O I L S ; C H L O R I D E S ; ALUMINUM; C A L C I U M ; SODIUM
5 3 3 C a t i o n A d s o r p t i o n i n o n e - D i m e n s i o n a l F l o w t h r o u g i . S o i l s : A N u m e r i c a l S o l u t i o n
L a i , S . H . ; J u r i n a k , J . J . ; D e p a r t m e n t o f S o i l S c i e n c e a n d B i o m e t e o r o l o g y , U t a h S t a t e U n i v e r s i t y , L o g a n , U t a h 8 4 3 2 1
H a t e r R e s o u r c e s R e s e a r c h , 8 ( 1 ) , 9 9 - 1 0 7 ; 1 9 7 2 , F e b r u a r y
A D S O R P T I O N ; C A T I O N S ; N U M E R I C A L S O L U T I O N S ; EXCHANGE F U N C T I O N ; S E P A R A T I O N FACTOR
5 3 4 T h e T r a n s p o r t o f C a t i o n s i n S o i l C o l u m n s a t D i f f e r e n t P o r e V e l o c i t i e s
L a i , S u n g - H o ; J u r i n a k , J . J ;
S o i l S c i . A m e r . P r o c . , 3 6 , 7 3 0 - 7 3 3 ; 1 9 7 2
T R A N S P O R T ; C A T I O N S ; S O I L COLUMNS; P O R E V E L O C I T I E S ; S O D I U M ; M A G N E S I U M ; T H E O R E T I C A L C A L C U 1 A T I 0 N S ; T A I L I N G ; T H E O R E T I C A L M O D E L ; I O N CHROMATOGRAPHY; C A T I O N EXCHANGE; R E T E N T I O N ; A D S O R P T I O N ; MODELING
5 3 5 T h e E f f e c t o f S o m e S o i l c h a r a c t e r i s t i c s o n t h e E x t r a c t a b i l i t y o f M a c r o N u t r i e n t s
L a k a n e n , E . ; H y v a r i n e n , S . !
A n n A g r i c F e n n 1 0 ( 3 ) . 1 3 5 - 1 4 3 ; 1 9 7 2
O R G A N I C MATTER; P H ; C A T I O N ; EXCHANGE C A P A C I T Y ; C L A Y S ; C O N T E N T ; S O I L S ; N U T R I E N T S ; E X T R A C T A B I L I T Y
536 S o i l F a c t o r s A f f e c t i n g t h e C a l c i u m S t r o n t i u m R a t i o i n P l a n t s
L a k a n e n , E . ; S i l l a n p a a , M.
A n n A g r i c F e n n 8 ( 4 ) 2 7 3 - 2 8 0 ; 1 9 6 9
T I M O T H Y - M ; MAGNESIUM; P O T A S S I U M ; P H O S P H O R U S ; AMMONIUM A C E T A T E ; E X T R A C T ; P H ; C A T I O N ; EXCHANGE C A P A C I T Y ; S O I L S ; P L A N T S
;•> 5 4 5 3 7
• ' . . > , - , . , • ' < - • . ' • • • • . , . , . ! . .
M o v e m e n t a n d M S o r p t i o n o f , C h e m i c a l s A p p l i e d . . t o t h e . S o i l " ''"" . . . , , ' . "
L a m b e r t , , S . M . ; . P o r t e r , P . E . ; . . S c h i e f e r s t e i n , R . H .
W e e d s , 1 3 , 1 9 5 - 1 9 0 ; ' 1 9 6 5 '
P E R C O L A T I O N ; S O I L S ; T R A N S P O R T ; S I O T T E D T U B E T E S T ; I N D I C A T O R O R G A N I S M S ; A C T I V E F R A C T I O N ; MOVEMENT; S O R P T I O N ; . . C H E M I C A L S ; .CHROMATOGRAPHIC .COLUMNS , . . .
5 3 8
M e r c u r y M e t . h y l a t i o n i n a n A q u a t i c E n v i r o n m e n t , . ,
L a n g l e y , D . G . " ' " " ' '' . j. ' . , . . .
J o u r n a l , W P C F , 4 5 y ) , , , , 4 ^ - 5 1 ; , 1 9 7 3 , , J a n u a r y . t > .
MERCURY M E T H Y L A T I O N ; ' AQU A T I C ' ' ECOSYSTEMS;: ." ' . . „ ' . METHYLMERCURY; M E R C U R Y ' ; " R I V E R S ' ; S E D I M E N T S
5 3 9 ' ;..;. ,•••'.. . ., • . . . A p p l i c a t i o n o f , - X - R a y F l u o r e s c e n c e S p e c t r o m e t r y t o , t h e D e t e r m i n a t i o n o f M i n o r a n d T r a c e ' E l e m e n t s i n M o d e r n a n d S u b r e c e n t M a r i n e s e d i m e n t s
L a p a q u e l l e r i e , Y . ; L a t o u c h e , C . ; P a r r a , M . ; s a l i n e r e s , , B . , ; ; . V e r n e t t e . G . ; , . I n s t . G e o l . . , B a s s i n , . A q u i t a i n e , " B o r d e a u x , " F r . ' .' *',',".',".. ".
B u l l . I n s t . G e o l . B a s s i n - A g u i t a i n e , ( I G B B A 4 ) , . ( 1 2 ) , 3 - 1 4 ; 1 9 7 2 " ' ' ' " ' ' * ''''
X - R A Y F L U O R E S C E N C E S P E C T R O M E T R Y ; TRACE E L E M E N T S ; ' S E D I M E N T S ; M A R I N E . S E D I M E N T S ; , , S E R P E N T I N E ; B A S A L T ; . . . S P E C T R O M E T R Y • ",'.. ~ ^ ;. . . J ' . , . . ' ' . . . , .
S o i l F l u o r i n e
L a r s e n , S . ; W i d d o w s o n , A . E .
J . S o i l S c i . , 2 2 ; ( ^ ^ ; 2 i 0 - 2 2 1 ; : ; i . 9 7 1 / . ; ; ; ,
F L U O R I N E ; P H O S P H A T E F E R T I L I Z E R ; E Q U I L I B R I U M ; F L U O R I D E C O N C E N T R A T I O N ; S O I L S ; M E T H O D S ; R A D I O A C T I V E I S O T O P E ; ANION- EXCHANGE R E S I N ; . , .. „ . F E R T I L I Z E R S ; PH ' ' '
5 4 1 T h e P e r s i s t e n c e o f P e s t i c i d e s i n I m p o u n d e d W a t e r s
L a u d e r d a l e , . R . A . - ; , . , i . •• < . .
U . S . G o v . R e s . D e v . R e p . 7 0 ( 2 1 ) , 4 0 ; P B - 1 9 4 0 5 6 ; 1 9 7 0
A L D R I N ; A L G A E ; D I E L D R I N ; C H L O R D A N E ; D D T ; . S E D I M E N T A T I O N ; V O L A T I L I Z A T I O N ; P E R S I S T E N C E ; P E S T I C I D E S ; , IMPOUNDED. W A T E R S ; WATER . . .
5 4 2 . . . . A M o d e l , ' s t r e a , m f o r S t u d i e s i n L o t i c : ' E c o l o g y '
L a u f f , G . H . ; C u m m i n s , K . W . ; D e p t . o f Z o o l o g y , U n i v e r s i t y o f M i c h i g a n , A n n A r b o r
E c o l o g y , . 4 5 ( 1 ) , 1 8 8 - 1 9 1 ; 1 9 6 4
MODEL S T R E A M S ; A Q U A T I C E C O S Y S T E M S ; L O T I C O R G A N I S M S ; S T O N E . F L Y ; D I S T R I B U T I O N A L B E H A V I O R A L P A T T E R N S ; S T R E A M ' O R G A N I S M S ; P A R T I C L E ' S I Z E ; F O O D ; V E L O C I T Y ; T E M P E R A T U R E ; L I G H T ; O B T A I N E D ; ' B E N T H I C M A C R O I N V E R T E B R A T E S
TAXONOMY: P E R L E S T A P L A C I D A ( H a g e n )
543 I n f l u e n c e o f S o d i u m I o d i d e U p o n t h e N i t r o g e n M e t a b o l i s m o f a M a r i n e o r g a n i s m , M i c r o c o s m u s s a t a t i e r i '' ' ' ' ;
L a u r e n s , S . ; C o m m a n a y , . L . . _ ., . ,
C . R . S e a n c e s S o c . B i o l . F i l . , 1 6 4 ( 2 ) , 4 5 I 5 - 4 5 9 ; 1 9 7 0
SODIUM IODIDE; N I T R O G E N ; M E T A B O L I S M ; P R O T E I N S ; AMINO A C I D P O O L ; MABINE O R G A N I S M S _
TAXONOMY: MICROCOSMUS 1 S A B A T I E R I
5 4 4 ' ' ' " ' ' • ''"'• ' : J ' ' "' " - " "" • ' " , - ' • • ' • • ' • ' M e t h y l M e r c u r y a n d , I n o r g a n i c , M e r c u r y , C o l l e c t i o n b y a S e l e c t i v e C h e l a t i n g R e s i n
L a v , S . L . ' " '"" ' " . ' , . ' ' , , . ' . ' , , . ' ' , ' . , ' , ' ','„',
S c i e n c e , 1 7 4 , . 2 8 5 - 2 8 7 ; 1 9 7 1 , .
METHYLMERCURY; MERCURY; S E L E C T I V E C H E L A T I O N R E S I N ; C H E L A T I O N
5 4 5 " ' ' ' • ' ' . .'" . " . ' , " ; '.' " ' '' ' , „ . " " ; ; A D i s t r i b u t e d H y d r o l o g i c a l M o d e l , B a ' s e d , o n t h e C o n c e p t o f G r o u n d w a t e r ' R e c h a r g e , T r a n s m i s s i o n , .' a n d D i s c h a r g e " ' '
L a w s o n , D . W . . , • .
J o u r n a l o f H y d r o l o g y ( N . Z . ) , ' 1 0 ( 2 ) , ' 1 3 3 - 1 4 0 ; 1 9 7 1
H Y D R 0 L 0 G I C A L M O D E L ; ' G R O U N D W A T E R ; R E C H A R G E ; WATER; D I S C H A R G E . ; . . T R A N S M I S S I O N ; MODEL ' .
5 4 6 M o v e m e n t o f A g r i c u l t u r a l P o l l u t a n t s w i t h G r o u n d W a t e r ,
L e G r a n d , H . E . ' ' ' ' ' • '
P a r t c f W i l l r i c h , T e d L . a n d G e o r g e E . S m i t h ( E d . ) , A g r i c u l t u r a l P r a c t i c e s a n d W a t e r , Q u a l i t y .
S y m p o s i u m . 4 1 5 p . T h e i d v a S t a t e U n i v e r s i t y P r e s s ; A a e s , I o w a , U . S . A . . 3 0 3 - 3 1 3 ; . 1 9 7 . 0
ANIMAL W A S T E S ; P E S T I C I D E S ; WATER; T R A N S P O R T ; GROUND WATER; MOVEMENT
55
5 4 7
P h o s p h o r u s D y n a m i c s i n L a k e V a t e r * ;
L e a n , ' D . R . S . , , . -1.< :
s c i e n c e , : 1 7 9 , 6 7 8 - 6 8 0 ; 1 9 7 3 , F e b r u a r y 1 6
E X C H A N G E ; P H O S P H A T E ; P L A N K T O N ; E X C R E T I O N ; O R G A N I C I H O S P H O R O U S C O L L O I D - ' : 1 ;:••••" •
5 4 8 I n S i t u E x p e r i m e n t a l M a n i p u l a t i o n o f D i a t o m A s s e m b l a g e s f r o m s a l t H a r s h A u f v . u c h s C o m m u n i t i e s . ,
L e e , J . J . ; H a g e n , J . ; M a s t r o a o l o , C . A . ; R u b i n , H .
T h e B i o l o g i c a l B u l l e t i n , 1 4 5 ( 2 ) , . 4 4 5 - 4 4 6 ; . 1 9 7 3 , . , O c t o b e r
SALT M A R S H ; C O M M U N I T I E S ; I R O N ; C O P P E R ; Z I N C ; C H R O M I U M ; L E A D ; : D I A T O M S . • • • . ' , - . • < \ 7 : ^'-,
T A X O N O M Y : . H E L O S I R A : ' N U M M U L O I D E S ; H E I O S I R A S U L C A T A ; : : S Y N E D R A F A S C I C U L A T A ; O P E P H O R A M A R T Y I ; . AUFWUCHS < H A U K I A N A ; N I T Z S C H I A S 1 I C R O C E P H A L A
5 U 9 -. • ; , ; -.•>. .• • . - ..... , ..>-. t E d u c i n g t h e F u n c t i o n a l R e l a t i o n s h i p s ; a m o n g t h e • D i a t o m A s s e m b l a g e s w i t h i n S u b l i t t o r a l S a l t M a r s h E p i p h y t i c . C o m m u n i t i e s , ? , - i : • <
L e e , J . J . ; M c E n e r y , M . E . ; K e n n e d y , E . H . ; R u b i n , H .
B u l l . E c o l . R e s . C o m m . ( S t o c k h o l m ) , 1 7 : 3 8 7 - 3 9 7 ; 1 9 7 3 . ' . ' •. - . • • • • ) < : '.• : •.
S A L T M A R S H ; C O M M U N I T I E S ; D I A T O M S ; : E P I P H Y T E S - > ;
5 5 0 '•'•< • T r o p h i c D y n a m i c s a n d N i c h e s - o f 1 S a l t M a r s h • ' F o r a m i n i f e r a
L e e , J . J . ; M u l l e r , W . A . ; D e p a r t m e n t o f • B i o l o g y • i-.-' c i t y C o l l e g e o f C i t y O n i v e r s i t y o f N e w Y o r k , C o n v e n t : A v e n u e a n d 1 3 8 t h S t r e e t , . N e w . Y o r k , NY
Inner. Z o o l . , : ' 1 3 s - i 2 ' . 1 5 - 2 2 3 ? S 1 9 7 3 :• !• :••
T R O P H I C . D Y N A M I C S ; - - N I C H E S ' ; - " S A L T - MARSH'; ' ' ' ' • '•• F O R A M I N I F E R A S T A B I L I T Y ; D I V E R S I T Y ; E N E R G Y ; " . > . B E ' . I T H O S ; M I C R O O R G A N I S M S
T A X O N O M Y : A L L O G R O M I A L A T I C O L L A B I S ; R O S A L T N A > L E E I ; 1 < ' S P I R O L O C U L I N A " H Y A L I N A : • ; ! • i " J ; v r.
5 5 1 M e d i a - . ' f o r , : t h e f . N u m e r a t i o n a n d ; S e l e c t i v e I s o l a t i o n :.-" o f s a l t M a r s h E p i p h y t i c A l g a e , B a c t e r i a , - . P r o t o z o a a n d M i c r o m e t a z o a n H e r b i v o r e s f r o m t h e c o m m u n i t y
. . . V> -:1>." ' » L e e , J . J . ; T i e t j e n , J . H . ; K e n n e d y , E . M .
T h e B i o l o g i c a l B u l l e t i n , 1 4 1 ( 2 ) , 3 9 4 - 3 9 5 ; 1 9 7 1 , O c t o b e r - ' • > , ' c ;>••;• v v ;
- 5 , i ' N U T R I T I O N ; E P I P H Y T E S ; I S O L A T I O N ; S A L T M A R S H ; A L G A E ; B A C T E R I A ; P R O T O Z O A ; M I C R O M E T A Z O A N H E R B I V O R E S ; N I T R A T E ; T H I A M I N E ; B I O T I N ; V I T A M I N B 1 ; M A N N I T O L ; V I T A M I N S
TAXONOMY: E N T E R O M O R P H A I N T E S T I N A L I S ; A X O N O L A I M U S S P ; M O N H Y S T E R A D E N T I C U L A T A ; CHROMODORA G E R M A N I C A ; DESMODORA S P ; EUCHROMODORA S P ; O N C H O L A I M U 5 S P ; T H E R I S T U S S P ; MONHYSTERA D E N T I C U L A T A
5 « t 7
5 5 2 P a t t e r n s . 1 o f ; C o n t a m i n a t e d : . Z o n e s o f f W a t e r r i n ; t h e > : > 7 G r o u n d - > <•{ i •.•'.-If •.'< •>.•-, n . v
L e g r a n d , , H . E . ; U . S . . G e o l o g i c a l ; S u r v e y , : . / ' . ; . ;?. ."<<,-•.,: W a s h i n g t o n , D . C .
\ ! " ' i : • ' . - . : : •>!••) V . " „ i . . j i ' - i n i i . - j y ' ? . A W a t e r R e s o u r c e s R e s e a r c h , 1 ( 1 ) , 8 3 - 9 5 ; 1 9 6 5
T R A N S P O R T ; ; * C O N T A M I N A T E D , Z O N E S ; ' .W»BE; . - i »7J IA .1«J ::-,«3H8t G R O U N D W A T E R ; D E C A Y ; S O R P T I O N f t - . ! j S H A a m
5 5 3 I n s e c t i c i d e - . R e s i d u e s . i n W a t e r a n d . - S e d i m e n t : f r o m - f C i s t e r n s o n , t h e U . S. :> a n d : B r i t i s h V i r g i n d s l a n d s i : - ^ 1 9 7 0
: . , ' 1; X r ' - . ; „ T , r> f ; , , \ ' v L e n o n , H . ; C u r r y , i L ' . V . 1 ; ' M i l l e r , ' A . ; ; P a t u l s k i v D . p '
T-. I.- - ? ' ; " ) .£ . ' ) • "
P e s t i c , M o n i t . J . „ 6 ( 3 ) , 1 8 8 - 1 9 3 ; 1 9 7 2 ' - . • ' l - ' r ' , ,'i. •-.) '> ! ' • • -l<
H U M A N S ; C H L O R I N A T E D H Y D R O C A R B O N S ; M A L A T H I O M ; D D T ; D I H L D B I N ; CHROMATOGRAPHY ; I N S E C T I C I D E S ; . R E S I D U E S ; > C I S T E R N S : W A T E R ; S E D I H E N T S • ,•>•,',v.-.->>:s
5 5 4 . . D i s t r i b u t i o n o f . M i n o r : : E l e m e n t S i ' A m o n g t h e ' ^ c C o a p o n e n t s o f a S o i l D e v e l o p e d i n L o e s s i
L e R i c h e , H . H . ; . P e d o l . - D e p . . R o t h a m s t e d : E x p . S t n . H a r p e n d e n / H e r f : ? ; : E n g l a n d . • ; • ; o ' : : . nr.-.-.-.<:,
G e c d e r m a - ( G E D M A B ) ; 9 ( 1 ) , : - 4 3 . - 5 7 ; t t 1 9 7 3
L O E S S ; S O I L S ; T R A C E - E L E M E N T S
5 5 5 - ' v . : '.• • v A:; : .en-"' '-. . " ' i 1 ' s t r o n t i u m 9 0 D i f f u s i o n a l T r a n s p o r t i n S e d i m e n t s i1;;-o f t h e G r e a t L a k e s
L e r m a n , A . ; C a n a d a C e n t r e f o r I n l a n d W a t e r s , B u r l i n g t o n , O n t f '
J . G e c p h y s . R e s . , 7 7 ( 3 ) , 4 7 4 - 4 8 1 ; 1 9 7 2 , J a n u a r y 2 0
T R A N S P O R T ; . A B S O R P T I O N ; D A T A ; D I F F U S I O N ; - L A K E S ; • ( < > ( R A D I O N U C L I D E M I G R A T I O N ; S E D I M E N T S ; - " S T R O N T I U M •'
5 5 6 ' . r . : •.•:-• T l i - i - r c n i ' . r T h e A s s e s s n ' e n t : : o f i - t h e P o t a s s i u m S t a t u s o f N a t a l . '; S o i l s - 5 " -'.':v . -i < t :'•'<• • ; r ' t p i -v -uy
L e R o u x , J . ; S u m n e r , M . E .
A g r o c h e m o p h y s i c a 1 ( 2 ) , 3 1 - 4 2 ; 1 9 6 9
N U T R I E N T S ; h A V A I L A B I L I T Y ; = B U F F E R I N G C A P A C I T Y ; . . j i •.. Q U A N T I T Y I N T E N S I T Y ' T E C H N I G U B ; i S O I L S i . •
5 5 7 ': . , , • • ) • , - ' : . v v • . ' . : • • ' • • 1
A d s o r p t i o n o f C h l o r i n a t e d H y d r o c a r b o n P e s t i c i d e s b y M i c r o b i a l F l o e a n d ' ' L a k e S e d i m e n t a n d i t s • / E c o l o g i c a l I m p l i c a t i o n s . < > - r
L e s h n i o w s k y , W v O . r D u g ' a n , P . R . ; P f i s t e r , ; R . ' M . ; ' F r e a , J . I . ; R a n d i e s , C . I . > \ . > r : . - ; .h ; . : • • • '
P r c c C o n f G r e a t L a k e s R e s 1 3 ( 2 ) , 6 1 1 - 6 1 8 ; 1 9 7 0
B A C T E R I A ; P O L L U T I O N ; P E S T I C I D E S ; F L O C ; S E D I H E N T S ; L A K E S ; C H L O R I N A T E D H Y D R O C A R B O N S
393
558 Effect of Irrigation Treatments for Apple Trees on Water Uptake from Different scil layers
levin, I.; Assaf, R.; Bravdo, B.
J. An. Soc. Hortic. Sci. 97 («} , 521-526; 1972
CLIMATE EFFECTS; EVAPORATION; YIELD; FRUITS; TREES; PLANTS; IRRIGATION; APPLE TREES; WATER UPTAKE; SOIL LAYERS
559 Selectivity Coefficients of CalciuB-Magnesiua Exchange for Three Nontraorillonitic Soils
levy, R.; Shainberg, I.; Shalhevet, 0.; Alperovitch, N.; Volcani Inst. Agric. Res., Bet-Dagan, Israel
Geoderma(GEDHAB) 8 (2-3), 133-46; 1972
SELECTIVITY COEFFICIENTS; HONTMORILLONITE; SOILS; CALCIUM; EXCHANGE; NAGNESIUH;
560 Measurement of Exchangeable Inorganic Phosphate in Lake Sediments
Li, W.C.; Armstrong, D.E.; Harris, R.P.; Department of Soil Science, University of Wisconsin, Madison, Wis. 53706; Water Chemistry Laboratory, University of Wisconsin, Madison, Wis. 53706
Environmental Science 6 Technology 7(5), 454-456; 1973, May
INORGANIC PHOSPHATE; PHOSPHATE; SEBIHENTS; EQUILIBRATION SYSTEMS
561 Theoretical Prediction of Evaporation Losses from Groundwater
Liakopoutlcs, A.C.; Onesco Collega of Engineering, Riyadh, Saudi Arabia
Water Resources Research, 2(2), 227-240; 1966
EVAPORATION; GROUNDWATER; THEORY; MODELING; PRESSURE; MATHEMATICAL MODEL; NONL1HEARITY; POROUS MEDIUMS; SOIL MOISTURE; UNSATURATED FLOW; SOILS
399 Root Cation Exchange Capacity of Poplar
Liani, A.; Cent. Sper. Agric. For., Rome, Italy
Pubbl. Cent. Sper. Agr. Forest., Rome (PUAPAG) 11 (3) 193-204; 1972
POPLARS; ROOTS; CATION EXCHANGE; SANDY SOILS; SOILS; TREES;
564 Movement of Insecticides in Soils Under Leaching and Non-Leaching Conditions
Lichtenstein, E.P.; Department of Entomology, University of Wisconsin, Madison
J. Econ. Entom., 51, 380-383; 1959
MOVEMENT; INSECTICIDES; SOILS; LEACHING; TRANSPORT; ALDRIN; LINDANE; DDT; PESTICIDES; TRACERS; PHOSPHORUS 32; RADIONCULIDES; PLAINFIELD SARD; PARATHION
565 Movement and Fate of Dyfonate in Soils under Leaching and Nonleachiug conditions
Lichtenstein, B.P. ; Schulz, K.R.; Fufiremann, T.W.; Dep. Bntoaol., Univ. Wisconsin, Madison, WI
J. Agt. Food Chem., (JAFCAU) , 20(4), 831-838; 1972
MOVEMENT; FATE; DYFONATE; SOILS; LEACHING; INSECTICIDES; TRANSPORT; ORGAN0PH0SPHATE INSECTICIDES; CARBON 14; TRACERS
566 Deep Seepage on Piedmont watersheds
Ligon, J.T.; Wilson, T.V.; clesson Univ., S.C. Water Resources Research Inst.
clemsoti Univ., S.C. Hater Resources Research Inst; PB 209 S34; Report No. WftRI-29; Contract DI-14-01-0001-1861, DX~14-31-0001-3041; Monitoring Agency Repot No. N72-08590, OWRR—A-014-SC(3); Pro}. OWRR-A-014-SC; 74 p.; 1972, April
PIEDMONT WATERSHEDS; GROUNDWATER MOVEMENT; WATERSHEDS; GROUND WATER; WATER TABLE; PESCOIATCON; GROUND WATER RECHARGE; MOISTURE
562 Evaluation of the Effectiveness of the Lead Peroxide Method for Atmospheric Monitoring of Sulfur Dioxide
Liang, S.F.; Sternling, C.V.; Galloway, T.R.; Bellatre Res. Cent., Shell Dev. Co., Houston* TX
J. Air Pollat. contr. Ass. (JPCAAC), 23(7), 605-607; 1973
LEAD PBROIIDE HETHOD; MONITORING; SULFUR DXOZXDR; AIR ANALYSIS; ATMOSPHERE
567 Influence of the Soil Matrix on tj»e Availability of Trace Elements to Plants
Lindsay, w.L.
Unn N»f. Acad. Sci 199. 37-45; ^ 7 2
AVHitABILITY; TRACE ELEMENTS; PLANTS; MINERALS; NUTRIENTS; SOILS
57 1013
568 Theory on the Mass Transport of Previously Distributed Chemicals in a Hater-Saturated Sorbing Porous nediua. III. Exact Solution for First-Order Kinetic Sorbtion
Lindstroa, F.T.; Boersma, L.
Soil Sci. (SOSCAK), 115(1), 5-10; 1973
TRANSPORT; POROUS MEDIUM; SORPTION; MODEL; MATHEMATICAL MODEL; FIRST ORDER KINETICS; KINETICS
569 A Theory on the Mass Transport of Previously Distributed Chenicals in a Hater Saturated Sorbing Porous Medium
Lindstrom, F.T.; Boersaa, L.
Soil Sci., 111(3), 192-199; 1971
TRANSPORT; POROUS MEDIUM; MATHEMATICAL HODEL; MODEL; SORPTION
570 Theory of Chemical Transport vith Simultaneous Sorption in a Hater Saturated Porous Nediua
Lindstroa, F.T.; Boersna, L.
Soil Sci., 110(1), 1-9; 1970
TRANSPORT; SORPTION; POROUS HEDIOH; HODEL; MATHEMATICAL MODEL
571 The Persistence of Atrazine, Aaetryne, Proaetryne and Diuron in Soils Onder Greenhouse Conditions
. l»iu,L.C.; Cibos-Viade, H.R. ; Gonzalez-Ibanez, J.
J. Agr. Oniv. P. R., 54(4), 631-639; 1970
PERSISTENCE; ATRAZINE; AMETRXNE; PROMETRYNE; DIURON; PLANTS; HERBICIDES; MICROBIAL DETOXIFICATION; ORGANIC MATTER CONTENT; GREENHOUSE CONDITIONS
TAXONOMYi AVENA SATXVA M
572 Leaching Apparatus
token, P.J.; Stranger-Johannessen, H.
lut Blodeterior Bull 8 (1) 2932; 1972
BIODETERIORATION; RESISTANCE; TESTING; LEACHING
573 Depletion of Nitrate Reductase Activity In Response To Soil Leaching
Long, R.C.; Woltz, V.G.; Agric. Exp. Stn., North Carolina State Univ., Raleigh, N.C.
A?ron. .1. (AGJOnT) 60 (6) 789-92; 1972
SITRATE REDUCTASE; TOBACCO; SOILS; LEACHING; FERTILIZERS; NITROGE5'
570 Leaching by Hater of DDT Carbon 10 Retained by Mono Ionic Clays
Lopez-Gonzalez, J.D.; Gonzalez, G.C.
An Quia 66(3), 271-282; 1970
INSECTICIDES; SOLUBILITY; TRANSFORMATION; CLAYS; RETENTION
575 Retention of DDT and DDE on Silica Gel
Lopez-Gonzalez, J.D.; Valenzuela Calahorro, C.; Navarrete Guijosa, A.; Fac. cine., Univ. Granada, Granada, Spin
An. C«ia., 69(1), 63-77; 1973
ADSORPTION; SILICA GEL; RETENTION; DDT; DDE
576 isotopic Exchange Studies of Hicronutrients in Soils
Lopez, P.L; Graham, E.R.
Soil Sci., 110(1), 20-30; 1970
ISOTOPIC EXCHANGE; HICRONUTRIENTS; SOILS; RADIOISOTOPES; MANGANESE 54; IRON 59; ZINC 65
577 The Influence of Seasonal Nitrogen Supply on the Growth of Apple-D Trees; part 4. Influence on Reproductive Growth
Ludders, P.; Buenmann, G.
Gartenbauwissenschaft 34(6), 539-564; 1969
YIELD; UPTAKE; ACCUMULATION; SEASONAL VARIATIONS; PLANTS; NITROGEN; GROWTH; APPLE-D; REPRODUCTIVE GROHTH
578 Absorption and Metabolism of Arsenic in Fish
Lunde, G,; Cent. Inst. Ind. Res., Blindern/Oslo, Norway
Fiskecidir. (Norway) Skr., Ser. Teknol. Unders. (FSTUSW) 5(1-2) 16pp.; 1972
ARSENIC; METABOLISM; RAINBOW TROUT; EYES; GILLS; ABSOBETIOH; FISH
579 Moveaent of Water Through soils
Luthin, J.N. Part of swader, F.N. (Chairman), Cornell University Conference on Agricultural Haste Management ^ 7 0 . Relationship of Agriculture to soil and Water Pollution. 270P. Agricultural Waste Management Proqram, Cornell University: Ithaca, N.Y., U.S.A., 1970 (21-29)
WATE1; SOILS; PHOSPHATES; NITRATES; EQUATIONS; MOBILITY
983 58
5 8 0 A p p l i c a t i o n ? o f t h e G r e e n - a n d ' C o r e y M e t h o d i f o r i-c o m p u t i n g H y d r a u l i c C o n d u c t i v i t y i n \ l 2 y d r o l o g i c .i M o d e l i n g
L u x m o o r e , R . J . ; I n s t i t u t e f o r E n v i r o n m e n t a l S t u d i e s , U n i v e r s i t y o f ' W i s c o n s i n , ' M a d i s o n , W i s c o n s i n 5 3 7 0 6
K'uj'i;: r ; f . • IV E D F B - I B P - 7 3 - « , I n t e r n a t i o n a l B i o l o g i c a l P r o g r a m ; ' ^ ' O a k R i d g e N a t i o n a l L a b o r a t o r y ; 1 9 7 3 , A p r i l
C O R E ! M E T H O D ; H Y D R A U L I C C O N D U C T I V I T Y ; M O D E L I N G ; G R E E N M E T H O D ; HYDROLOGY; WATER C O N T E N T ; P R E S S U R E ; '-' C O N D U C T I V I T Y - r . . . J < .. y . ; a , . ' < • i •; t - ; ;
: " Ihil : ! rA . . ' / „ ; . ::-.< <• . . / ; ; - y I nV » , - r - n < • . * h i - i w • „ t v ; » «
5 8 1 ')•.:•.;> 'v T r a n s f o r m a t i o n P r o d u c t s o f C o m p o u n d A n t i m o n y a n d L e a d S u l f i d e s U n d e r t h e E f f e c t o f > t h e . ' B a c t e r i a
L y a l i k o v a V N i N . i ; ; S h l a i n , ' : L . B . ' ; ; U n a n o v a , , 0 ; G . " ; - i r - : r . -A n i s i m o v a , L . S .
I z v . A k a d . N a u k . S S S R S e r . B i o l . , ( 4 ) , 5 6 4 - 5 6 7 ; 1 9 7 2
T R A N S F O R M A T I O N ; . A N T I M O N Y ; L E A D S U L F I D E ; B A C T E R I A ; . L E A D ; A N T I M O N Y S U L F I D E
5 8 2 B i o l o g i c a l - M a g n i f i c a t i o n . o f ^ P e s t i c i d e R e s i d u e s i n F o o d C h a i n s V -'•'•'. - ' r f • ; : • - " • > ' ,
M a c e k , K . J . ; F i s h - P e s t i c . R e s . L a b . , B u r . S p o r t F i s f c W i l d l i f e , C o l u m b i a , MO
B i o l i I m p a c t : P e s t i c . - E n v i r o n . , p r o c . S y m p i • 5.-. s (17-21); • -1970 ••' ' '-.n-: ... . -,
R E S I D U E S ; F O O D C H A I N ; B I O L O G I C A L M A G N I F I C A T I O N ; P E S T I C I D E S ; DDT . . . •
S i g n i f i c a n c e o f t h e F o o d c h a i n i n ; D D T 1
A c c u m u l a t i o n b y F i s h i f : ? . ' , i
M a c e k , K . J . ; K o r n , S .
J . F i s h R e s . B o a r d C a n . , 2 7 ( 8 ) , 1 4 9 6 - 1 4 9 8 ; 1 9 7 0
D D T ; BROOK T R O U T ; P E S T I C I D E S ; B I O A C C U M U L A T I O N ; F O O D - ' C H A I N S ; • f i •.•.;• .< • • . • •< " . . r ,
5 8 4 - ' • : . . . " v • R a t e o f E v a p o r a t i o n o f L o v - s o l u b i l i t y C o n t a m i n a n t s f r o m ' W a t e r B o d i e s t o r A t m o s p h e r e
M a c k a y , D . ; w o l k o f f , A . H .
E n v i r o n m e n t a l S c i e n c e C T e c h n o l o g y 7 ( 7 ) , 6 1 1 - 6 1 4 ; 1 9 7 3 , J u l y
E V A P O R A T I O N ; A T M O S P H E R E ; E V A P O R A T I O N R A T E ; H Y D R O C A R B O N S ; C H L O R I N A T E D H Y D R O C A R B O N S ; A C T I V I T Y C O E F F I C I E N T S
987 B i c a s s a y o f . A l g a l P r o d u c t i o n i n C h e m i c a l l y . A l t e r e d W a t e r s . • »• ..;.-...
M a c P h e e , C . -...•. t ,'-.'- "• -. -..> ; •;
L i m n o l . O c e a n . , 6 , 4 1 6 - 4 2 2 ; , 1 9 6 1 < . ,
B I C A S S A Y ; P H Y T O P L A N K T O N ; A L G A E ; P R O D U C T I V I T Y ; C H E L A T I O N ; N U T R I E N T S ; C A L C I U M ; M A G N E S I U M ; S O D I U M ; P O T A S S I U M ; * C H L O R I N E ; - S U L F A T E . ; - . , C A R B O N A T E ; - . BICAHE.ONAT;E . > : ,; : ; ; • ; ; ! • ) rv . : - , ; - ; ; T j • " " I '
5 8 6 M a n a g e m e n t . M o d e l a s , a - T o o l f o r , S t u d y i n g t h e W o r t h O f D a t a ,'.'j ~ , '.';' • • i • •'• ..-:-. •, •• •, i - i : :
M a d d c c k , T . , I I I . ; W a t e r R e s o u r c e s D i v i s i o n , U . S . G e o l o g i c a l S u r v e y , A r l i n g t o n , .VA 2 0 2 4 2 - . .
W a t e r R e s o u r c e s R e s e a r c h , 9 ( 2 ) i 2 7 0 ; • 1 9 7 3 , . A p r i l
M O D E L ; FARM MANAGEMENT; , : -DATA E V A L U A T I O N ; P U M P I N G C O S T S ; C R O P P R I C E S ; H Y D R O L O G I C F A C T O R S ; T R A N S M I S S I V I T Y ; S T O R A G E C O E F F I C I E N T ; GROUND WATER
5 8 7 ..-.. t : . \ - ! - • .• • - . . . . • . - . - • : - , -. • v.. , > • E f f e c t s o f F e r t i l i z a t i o n o f a B l a c k S p r u c e s t a n d - , o n N i t r o g e n C o n t e n t s o f S t e m f l o v , T h r o u g h f a l l , a n d L i t t e r f a l l , - . , ,
M a h e n d r a p p a , M . K . ; O g d e n , E . D . :
C a n . J . o f F o r e s t R e s e a r c h , 3 ( 1 ) , 5 4 - 6 0 ; 1 9 7 3
F E R T I L I Z A T I O N ; BLACK S P R U C E ; N I T R O G E N ; S T E M F L O W ; T H R O U G H F A L L ; L I T T E R F A L L ; N U T R I E N T S ; C Y C L I N G ; F O R E S T S
T A X O N O M Y : E I C E A M A R I A N A .
5 8 8 R e t e n t i o n o f > H e r b i c i d e s i n W a t e r , S l u d g e s , a n d F i s h a f t e r A p p l i c a t i o n i n F i s h P o n d s
H a i e r - B o d e , H . ; P h a r a a k o l . I n s t . , R h e i n i s c h : . . F r i e d r i s c h W i l h e l m s - U n i v . , B o n n , G e r . -
S c h r i f t e n r . V e r . W a s s e r - , B o d e n - , L u f t h ^ g . , B e r l i n - D a h l e m , ( 3 7 ) , 6 7 - 7 5 ; 1 9 7 2 / . , - : • . ,
R E T E N T I O N ; H E R B I C I D E S ; W A T E R ; S L U D G E S ; F I S H ; H E R B I C I D E R E T E N T I O N ; F I S H P O N D ; S I H A Z I N E ; T E R B U T R Y N E ; A T R A Z I N E
5 8 9 E f f e c t s o f D i a z i n o n c o n t a m i n a t i o n o n a n O l d - F i e l d E c o s y s t e m
M a l o n e , C . R .
T h e A m e r i c a n M i d l a n d N a t u r a l i s t 8 2 ( 1 ) , 1 - 2 7 ; 1 9 6 9 , J u l y
I N S E C T I C I D E S ; P E S T I C I D E S ; F L O R A ; F A U N A ; P L A N T S ; A N I M A L S ; I N S E C T S ; S O I L M I C R O A R T H R O P O D ; D E T R I T U S ; N U T R I E N T C Y C L I N G ; D I A Z I N O N ; O L D F I E L D E C O S Y S T E M
59
590 E f f e c t s o f A m m o n i u m o n t h e U p t a k e o f P h o s p h o r u s S u l f u r a n d R u b i d i u m b y C o r n - H
n a m a r i l , C . P . ; M i l l e r , H . R .
A g r o n . J . , 6 2 ( 6 ) , 7 5 3 - 7 5 8 ; 1 9 7 0
AMMONIUM; U P T A K E ; P H O S P H O R U S ; S U L F U R ; R U B I D I U M ; C O R N - H ; R O O T S ; A U T O R A D I O G R A P H Y ; S O I L S
5 9 1 H e a v y M e t a l I o n I n t e r a c t i o n a n d T r a n s p o r t w i t h s y n t h e t i c c o m p l e x i n g A g e n t s a n d D e t e r g e n t p h o s p h a t e S u b s t i t u t e s i n A q u a t i c S y s t e m s ; c o m p l e t i o n R e p t 1 J u l 7 1 - 3 0
M a n a h a n , S . E . ; S m i t h , M . J . ; M i s s o u r i H a t e r R e s o u r c e s R e s e a r c h C e n t e r , R o l l a
M i s s o u r i H a t e r R e s o u r c e s R e s e a r c h c e n t e r , R o l l a ; PB 2 1 3 2 5 2 / 0 ; C o n t r a c t D I - 1 4 - 0 1 - 0 0 0 1 - 3 5 2 5 ; M o n i t o r i n g A g e n c y H e p t N o . H 7 3 - 0 2 1 1 2 , O H R R - A - O U 9 - M O ( 1 ) ; P r o j . O H R R - A - 0 4 9 - M 0 ; 1 9 8 p . ; 1 9 7 2 , A u g u s t
ION S E L E C T I V E E L E C T R O D E S ; P L A N T S ; GROWTH; P O L L U T I O N D E T E C T I O N ; P C T P L T COMPUTER PROGRAM; FORTRAN ft PROGRAMMING L A N G U A G E ; D E T E R G E N T S ; ALGAE; N U T R I E N T S ; C O P P E R ; HATER A N A L Y S I S ; E D T A ; C H E L A T I O N ; T R A C V E L E M E N T S ; C H L O R E L L A ; E L E C T R O D E S ; B U F F E R S C H E M I S T B Y ; C A L I B R A T I O N ; L E A S T SQUARES METHOD; COMPUTER P R O G R A M S ; P O T E N X I C M E T R I C ; A N A L Y S I S ; FORTRAN
5 9 2 A C y l i n d r i c a l , O p e n - T o p C h a m b e r f o r t h e E x p o s u r e o f P l a n t s t o A i r P o l l u t a n t s i n t h e F i e l d
M a n d l , R . H . ; H e i n s t e i n , L . H . ; M c C u n e , D . C . ; K e v e n y , M.
j o u r n a l o f E n v i r o n m e n t a l Q u a l i t y , 2 ( 3 ) , 3 7 1 - 3 7 6 ; 1 9 7 3
A I R ; P L A N T S ; C O N T R O L L E D - E N V I R O N M E N T ; G R E E N H O U S E S ; F I E L D F U M I G A T I O N E Q U I P M E N T ; L I G H T I N T E N S I T Y ; T E M P E R A T U R E ; H U M I D I T Y ; • P R E C I P I T A T I O N ; I N S E C T S ; PLANT P A T H O G E N S ; S T A T I C M O N I T O R I N G ; O X I D A N T S ; HYDROGEN F L U O R I D E ; O X I D A N T E X C L U S I O N ; F L U O R I N E ACCUMULATION; R Y E G R A S S ; T O B A C C O ; P I N T O BEAN
TAXONOMY: L O L I U M P E R E N N E L . ; N I C O T I A N A TABACUM L . ; P H A S E O L U S V U L G A R I S L .
5 9 3 S u c c e s s i v e D i s p l a c e m e n t s o f T r i t i a t e d H a t e r S o d i u m c h l o r i d e - 3 6 T h r o u g h S t e r i l i z e d a n d U n s t e r i l i z e d S o i l C o l u m n s
M a n s e l l , R . S . ; E l z e f t a v y , A . ; H u n t , P . G .
S o i l S c i . , 1 1 5 ( 2 ) , 1 1 3 - 1 1 9 ; 1 9 7 3
METHYL B R O M I D E ; I R R A D I A T I O N ; H E R B I C I D E S ; M O N I T O R I N G ; M I C R O O R G A N I S M S ; SODIUM C H L O R I D E 3 6 ; C H L O R I N E 3 6 ; T R I T I U M
5 9 4 M o v e m e n t a n d A b s o r p t i o n o f P e s t i c i d e s i n S t e r i l i z e d S o i l C o l u m n s
M a n s e l l , R . S . ; H a m m o n d , L . C . ; F l o r i d a U n i v . , G a i n e s v i l l e . H a t e r R e s o u r c e s R e s e a r c h C e n t e r
F l o r i d a U n i v . , G a i n e s v i l l e . H a t e r R e s o u r c e s R e s e a r c h C e n t e r , P B 2 0 4 6 4 4 ; R e p t . N o . H R B C - P U B - 1 6 ; C o n t r a c t D I - 1 4 - 3 1 - 0 0 0 1 - 3 2 0 9 ; M o n i t o r i n g A g e n c y R e p t . N o . H 7 2 - 0 1 6 9 7 , O H B R - A - O 1 3 - P L A ( 3 ) ; P r o j . O H R H - A - O 1 3 - F l a ; 9 , 6 8 p . ; 1 9 7 1 , A u g u s t
A B S O R P T I O N ; MOVEMENT; S O I L S ; A G R I C U L T U R E ; S O I L C H E M I S T R Y ; S O I L P R O P E R T I E S ; P Y R I D I N E S ; C H L O R I N E A L I P H A T I C COMPOUNDS; S Y S T E M I C H E R B I C I D E S ; S O I L S T E R I L A N T H E R B I C I D E S ; PARAQUAT H E R B I C I D E ; B I P Y B I D I N I U M C O M P O U N D S ; H E R B I C I D E S ; HEED C O N T R O L ; GROUND H A T E R ; H A T E R ; 2 , 4 - D ; 2 - 4 - D I C H L O P H E N O X Y A C E T I C A C I D ; S O I L COLUMNS
5 9 5 M o v e m e n t o f A c a r o l a n d T e r b a c i l P e s t i c i d e s D u r i n g D i s p l a c e m e n t T h r o u g h C o l u m n s o f H a b a s s o F i n e S a n d
M a n s e l l , R . S . ; H h e e l e r , H . B . ; E l l i o t t , L . ; S h a u r e t t e , M.
S o i l a n d C r o p S c i e n c e S o c i e t y o f F l o r i d a P r o c e e d i n g s , 3 1 , 2 8 9 - 2 4 3 ; 1 9 7 1 , D e c e m b e r 7 - 9
T E R B A C I L ; P E S T I C I D E S ; S A N D ; CARBON 1 4 ; A C A R O L ; S O I L S ; S O I L C O L U M N S ; M O B I L I T Y
5 9 6
G e o c h e m i s t r y o f O r g a n i c S u b s t a n c e s
. M a n s k a y a , S . N . ; D r o z d o v a , T . V .
P e r g a m o n P r e s s , 3 5 4 p . ; 1 9 6 8
G E O C H E M I S T R Y ; O R G A N I C COMPOUNDS
5 9 7 F i r s t R e s u l t s o f . t h e S t u d y o f t h e S o i l F a u n a o f 2 I t a l i a n A r t i f i c i a l E c o s y s t e m s
M a r c u z z i , G . ; D a l l a V e n e z i a , L .
R e v . E c c l . B i o l . S o l . , 9 ( 2 ) , 2 2 9 - 2 3 3 ; 1 9 7 2
S O I L F A U N A ; A R T I F I C I A L E C O S Y S T E M S ; P O P L A R S T A N D ; C R O P S ; A G R I C U L T U R A L E F F E C T S ; F A U N A ; T E R R E S T R I A L E C O S Y S T E M S ; MODEL ECOSYSTEM
TAXONCMY: P 0 P U L U S X EURAMERICANA
. 5 9 8 R e v e g e t a t i o n F o l l o w i n g F o r e s t C u t t i n g M e c h a n i s m s f o r R e t u r n t o s t e a d y s t a t e N u t r i e n t C y c l i n g
M a r k s , P . L . ; B o r m a n n , F . H .
S c i e n c e ( H a s h D C) 1 7 6 , ( 4 0 3 7 ) , 9 1 4 - 9 1 5 ; 1 S 7 2
C A N O P Y ; C L O S U R E ; N U T R I E N T S ; A C C U M U L A T I O N ; NET ANNUAL P R O D U C T I O N ; STEADY S T A T E ; C Y C L I N G
TAXONCMY: PRUNUS P E N S Y L V A N I C A
983 987 6C
5 9 9 R o l e o f Z o o p l a n k t o n i n t h e F r e s h w a t e r S t r o n t i u m C y c l e a n d i n f l u e n c e o f D i s s o l v e d S a l t s
M a r s h a l l , J . S . ; B e e t o n , A . M . ; C h a n d l e r , D . C .
V e r h . i n t . V e r . L i m n o l . 1 5 , 6 6 5 - 6 7 2 ; 1 9 6 2
Z O O P L A N K T O N ; F R E S H W A T E R ; C Y C L I N G ; S P R I N G S ; E X O S K E L E T O N ; C A L C I U M ; S T R O N T I U M ; S T R O N T I U M 9 0 ; PLANKTON
TAXONOMY: D A P H N I A MAGNA
600 E f f e c t s o f S o i l A r t h r o p o d s a n d E a r t h w o r m s o n t h e G r o w t h o f B l a c k S p r u c e
M a r s h a l l , V . G .
A n n . Z o o l . E c o l . A n i m . 4 ( s p e c i a l n o ) , 1 0 9 - 1 1 7 ; 1 9 7 1
N I T R O G E N ; P H O S P H O R U S ; M I N E R A L I Z A T I O N ; N U T R I E N T S ; S O I L S ; A V A I L A B I L I T Y ; A N I M A L S ; ANTHROPODS; EARTHWORMS; GROWTH; S P R U C E ; WORMS; T E R R E S T R I A L E C O S Y S T E M S
TAXONOMY: P I C E A MARIANA
601 D e t e r m i n a t i o n o f M e r c u r y i n O r g a n i c M e d i u m b y A t o m i c A b s o r p t i o n s p e c t r o s c o p y
M a r t i n e z , H . E . ; R o b l e d o , D . D . ; R o s e n t u l , G . L . ; C e n t . E v a l u a c i o n e s , M i n i s t . M i n a s H i d r o c a r b u r o s , V e n e z .
R e v . S o c . v e n e z . Q u i m . ? B ( 1 ) , 3 - 2 3 ; 1 9 7 1
D E T E R M I N A T I O N ; O R G A N I C M E D I U M ; A T O M I C A B S O R P T I O N S P E C T R O S C O P Y ; MERCURY; O R E A N A L Y S I S
602 A c c u m u l a t i o n o f T r a c e E l e m e n t s b y A l g a l B i o m a s s
M a r v a n , P . ; P r i b i l , S .
A n n u R e p L a b A l g o l T r e b o n 1 9 6 9 . 1 0 3 - 1 1 0 ; 1 9 7 0
E C O L O G Y ; B I O M A S S ; P B O D U C T I O N ; R A D I O A C T I V I T Y ; I O D O B R O M I N E ; U R A N I U M ; S O R P T I O N ; WASTE WATER; A L G A E ; T R A C E E L E M E N T S
TAXONOMY: C Y A N O P H Y C E A E ; C H L O R O P H Y C E A E ; C H R Y S O P H Y C E A E ; EUGLENOPHYCEAE
6 0 3
M e r c u r y U p t a k e b y p o l y A m i n e - c a r b o h y d r a t e s
M a s r i , M . S . ; F r i e d m a n , M.
E n v i r o n S c i . T e c h n o l . 6 ( 8 ) , 7 4 5 - 7 4 6 ; * 9 7 2
MERCURY; U P T A K E ; P O T A T O ; C H I T O S A N ; S T A R C H ; C E L L U L O S E ; D I S T R I B U T I O N
828 O r g a n i c M a t t e r T r a c e M e t a l I n t e r a c t i o n s i n t h e A q u e o u s E n v i r o n m e n t
M a t s c n , W . R .
P h . D . T h e s i s , M a s s a c h u s e t t s i n s t i t u t e o f T e c h n o l o g y , C a m b r i d g e , MA; 1 9 6 8
O R G A N I C M A T T E R ; T R A C E E L E M E N T S ; AQUEOUS ENVIRONMENT
6 0 5 F a c t o r s I n f l u e n c i n g T r a n s l o c a t i o n a n d T r a n s f o r m a t i o n o f M e r c u r y i n R i v e r S e d i m e n t
M a t s u m u r a , F . ; G o t o h , Y . ; B o u s h , G . M . ; D e p . E n t o m o l . , U n i v . W i s c o n s i n , M a d i s o n , WI
B u l l . E n v i r o n . C o n t a m . T o x i c o l . ( B E C T A 6 ) 8 ( 5 ) , 2 6 7 - 7 2 ; 1 9 7 2
MERCURY; T R A N S L O C A T I O N ; R I V E R S ; S E D I M E N T S ; T R A N S F O R M A T I O N
606 P h e n y l m e r c u r i c A c e t a t e : M e t a b o l i c C o n v e r s i o n b y M i c r o o r g a n i s m s
M a t s u m u r a , F . ; G o t o h , Y . ; B o u s h , G . N .
S c i e n c e 1 7 3 , 4 9 - 5 1 ; 1 9 7 1 , J u l y
M I C R O O R G A N I S M S ; P H E N Y L M E R C U R I C A C E T A T E ; D I P H E N Y L M E R C U R Y ; O R G A N O M E R C U R I A L S ; M E T A B O L I S M
6 0 7 C a t i o n E x c h a n g e C a p a c i t y a n d E x c h a n g e a b l e M e t a l s i n a S o u t h F l o r i d a W a t e r s h e d
M a t t r a w , H . C .
P h . D . T h e s i s , F l o r i d a s t a t e U n i v e r s i t y , T a l l a h a s s e e , F L ; 1 9 7 2
C A T I O N ; EXCHANGE C A P A C I T Y ; M E T A L S ; WATERSHEDS
608 D y n a a i c s o f W a t e r - S o l u b l e S a l t s i n L o e s s R o c k s
H a v l y a n o v , G . A . ; K a r p o v , P . M . ; D o b r y k i u a , F . Y . ; I n s t . S e i s m o l . , T a s h k e n t , USSR
U z b . G e o l . Z h ( U Z G Z A Q ) , 1 6 ( 3 ) , 3 - 8 ; 1 9 7 2
S A L T S ; L O E S S ; R O C K S ; S O L U B L E S A L T S ; S O I L S ; L E A C H I N G ; WATER; M I N E R A L S
6 0 9 M o n o g r a p h s i n p o p u l a t i o n B i o l o g y N o . 6 : S t a b i l i t y a n d C o m p l e x i t y i n H o d e l E c o s y s t e s s
H a y , R . M .
M o n o g r a p h s i n P o p u l a r B i o l o g y 2 3 5 ; 1 9 7 3
FOOD C H A I N ; C O M M U N I T Y ; C L I M A T E ; MATHEMATICAL M O D E L ; S T A B I L I T Y ; C O M P L E X I T Y ; N I C H E ; HUMANS; MODEL ECOSYSTEM
61 610
/V
610 M a s s a n d E n e r g y F l o w i n C l o s e d E c o s y s t e m s : A C o n s e n t
H a y , R . M .
J . T h e o r . B i o l . , 3 9 ( 1 ) , 1 5 5 - 1 6 3 ; 1 9 7 3
P O P U L A T I O N D Y N A M I C S ; T R O P H I C L E V E L S ; R E S P I R A T I O N ; F I X A T I O N ; ENERGY F L O H ; C L O S E D E C O S Y S T E M S
611 T o x i c o l o g y o f P b t h a l i c A c i d E s t e r s i n A g u a t i c O r g a n i s n s
H a y e r s F . L . , J r . ; S a n d e r s , H . O .
E n v i r o n m e n t a l H e a l t h p e r s p e c t i v e s , 1 5 3 - 1 5 7 ; 1 9 7 3 , J a n u a r y
P H T H A L I C A C I D E S T E R S ; P L A S T I C I Z E R S ; B I O A S S A Y S ; T O X I C I T Y ; 0 I - N - B U 3 Y L P H T H A L A T E ; F I S H ; S C U D S ; C R A Y F I S H ; D I - 2 - E T H Y L H E X Y L P H T H A L A T E ; FATHEAD H I N N O H ; B L U E G I L L ; CHANNEL C A T P I S H ; RAI tJBOH T R O O T
TAXONOMY: GAMMARQS P S E U D O L I M N A E U S ; O R C O N E C T E S N A I S ; P I M E P H A L E S P R O M E L A S ; L E P C M I S M A C R O C H I R U S ; I C T A L U R U S P U N C T A T U S ; SALMO G A I R D N E R I
612 M e a s u r e m e n t s o f P r i m a r y P r o d u c t i o n i n C o a s t a l S e a H a t e r U s i n g A L a r g e V o l u m e P l a s t i c S p h e r e
M c A l l i s t e r , C . D . ; P a r s o n s , T . R . ; S t e p h e n s , K . ; S t r i c k l a n d , J . D . H . ; F i s h e r i e s R e s e a r c h B o a r d o f C a n a d a , P a c i f i c O c e a n o g r a p h i c G r o u p , N a n a i m o , B i r t i s h C o l u m b i a , C a n a d a
L i m n o l o g y a n d O c e a n o g r a p h y , 6 ( 3 ) , 2 3 7 - 2 5 8 ; 1 9 6 1 , J u l y
PRIMARY P R O D U C T I O N ; P H Y T O P L A N K T O N ; T E M P E R A T U R E ; L I G H T ; P H O T O S Y N T H E S I S ; O X Y G E N ; H I C R O N U T R I E N T S ; P R O D U C T I O N ; C A R B O N ; N I T R O G E N ; F H C S F H O R U S ; CARBOHYDRATE; P R O T E I N ; F A T ; D I N O I L A G E L L A T E S
TAXONOMY: SKELETOMEMA C O S T A T U M ; T H A L A S S I O S I R A N O R D E N S K I G L D I I ; T R O T U L A ; G Y R O D I N I U M FDLVUM; G L E N O D I N I U M D A N I C U M ; N I T Z S C H I A D E L I C A T E S S I M A ; A S T E R I O N E L L A J A P O N I C A
6 1 3 S o l u b i l i t y i n H a t e r o f P a r a f f i n , C y c l o p a r a f f i n . O l e f i n , A c e t y l e n e , c y c l o o l e f i n , a n d A r o m a t i c H y d r o c a r b o n s
M c A u l i f f e , C . ; C h e v r o n R e s e a r c h C o m p a n y , L a H a b r a , C a l i f o r n i a
T h e J o u r n a l o f P h y s i c a l C h e m i s t r y , 7 0 ( 4 ) ; 1 9 6 6 , A p r i l
S O L U B I L I T Y ; P A R A F F I N ; C Y C L O P A H A F F I N ; O L E F I N ; A C E T Y L E N E ; C Y C L O O L E F I N ; AROMATIC HYDROCARBONS; GAS CHROMATOGRAPHY; G A S - L I Q U I D P A R T I T I O N CHROMATOGRAPHY
6 1 4 M o v e m e n t o f M a t e r i a l s i n t h e K y p o l i a n i o n o f a L a k e a s s t u d i e d b y t h e A d d i t i o n o f R a d i o a c t i v e p h o s p h o r u s
H c C a r t e r , J . A . ; B a y e s , F . H . ; J o d r e y , L . R . C a a e c o s , M . L .
C a n a d i a n J o u r n a l o f Z o o l o g y , 3 0 , < ^ 8 - 1 3 3 ; 1 9 5 2
MOVEMENT; H Y P O L I N N I O N ; P H O S P B O R U S ; L A K E S ; T R A C E R S ; R A D I O P H O S P H Q R U S
6 1 5 P r o d u c t i v i t y R e l a t i o n s i n C a r b o y M i c r o c o s m s
M c C o n n e l l , H . J . ; A r i z o n a C o o p e r a t i v e W i l d l i f e R e s e a r c h U n i t , U n i v e r s i t y o f A r i z o n a
L i n n o l . O c e a n . , 4 , 3 3 5 - 3 4 3 ; 1 9 5 9
P R O D U C T I V I T Y ; CARBOY M I C R O C O S M S ; P H O T O S Y N T H E S I S ; R E S P I R A T I O N ; OXYGEN D I F F U S I O N ; O R G A N I C S T O R A G E ; M I C R O C O S M S ; N U T R I E N T S
616 R e l a t i o n s h i p o f H e r b i v o r e G r o w t h t o R a t e o f G r o s s P h o t o s y n t h e s i s i n M i c r o c o s m s
M c C o n n e l l , H . J . ; A r i z o n a C o o p e r a t i v e H i l d l i f e R e s e a r c h U n i t , U n i v e r s i t y o f A r i z o n a , T u c s o n
L i n n o l . O c e a n o g r . , 1 0 , 5 3 9 - 5 4 3 ; 1 9 6 5
M I C R O C O S M S ; P H O T O S Y N T H E S I S ; GROHTH; PLANKTON
TAXONOMY: T I L A P I A HOSSAMBICA ( P e t e r s )
6 1 7 E s t i m a t e o f P r i m a r y P r o d u c t i v i t y i n a P e n n s y l v a n i a T r o u t S t r e a m U s i n g D i u r n a l O x y g e n C u r v e T e c h n i q u e
H c D i f f e t , H . F .
A m . M i d l a n d N a t u r a l i s t 8 7 , 5 6 4 ; 1 9 7 2
P R O D U C T I O N ; S T R E A M S ; COMMUNITY M E T A B O L I S M ; R E S P I R A T I O N ; A Q U A T I C E C O S Y S T E M S ; M E T A B O L I S M
618 T r a c e r s t u d i e s o n C a l c i u m a n d S t r o n t i u m M i n e r a l i z a t i o n a n d M i n e r a l C y c l i n g i n T v o S p e c i e s o f F o r a a i n i f e r a , R o s a l i n a L e e i a n d S p i r o l o c u l i n a H y a l i n a
M c E n e r y , M . E . ; L e e , J . J .
L i m n o l o g y a n d O c e a n o g r a p h y , 1 5 ( 2 ) , 1 7 3 - 1 8 2 ; 1 9 7 0
C A L C I U M ; S T R O N T I U M ; C Y C L I N G ; M I N E R A L I Z A T I O N ; T R A C E R S
TAXONCMY: F O R A M I N I F E R A ; R O S A L I N A L E E I ; S P I R C L O C U L I N A HY&LINA
1013 62
6 1 9 S u r v i v a l o f C o l i f o r m B a c t e r i a i n N a t u r a l w a t e r s : F i e l d a n d L a b o r a t o r y S t u d i e s w i t h M e m b r a n e - F i l t e r C h a m b e r s
M c F e t e r s , G . A . ; S t u a r t * D . G . ; D e p t . o f B o t a n y a n d M i c r o b i o l o g y , M o n t a n a S t a t e U n i v e r s i t y , B o z e m a n , M o n t a n a 5 9 7 1 5
A p p l . M i c r o b i o l o g y , 2 4 ( 5 ) 8 0 5 - 8 1 1 ; 1 9 7 2 , N o v e m b e r
MEMBRANE F I L T E R CHAMBERS; NATURAL WATERS; B A C T E R I A ; A C C U M U L A T I O N ; T E M P E R A T U R E ; P H ; STREAMS
620 S t r u c t u r a l C h a r a c t e r i s t i c s o f B e n t h i c A l g a l C o m m u n i t i e s i n L a b o r a t o r y S t r e a m s
M c l n t i r e , C . D . ; D e p a r t m e n t o f B o t a n y , O r e g o n S t a t e U n i v e r s i t y , C o r v a l l i s , O r e g o n
E c o l o g y 4 9 ( 3 ) , 5 2 0 - 5 3 7 ; 1 9 6 8
ALGAE; D I A T O M S ; LABORATORY S T R E A M S ; MODEL E C O S Y S T E M ; A Q U A T I C E C O S Y S T E M S ; S E A S O N A L V A R I A T I O N S ; CURRENT V E L O C I T Y ; L I G H T I N T E N S I T Y ; S P E C I E S D I V E R S I T Y ; COMMUNITY
TAXONOMY: N A V I C U L A S E M I N U L U M ; M E L O S I R A V A B I A N S ; MERIDON C I R C U L A R E ; NAVICULA R A D I O S A ; ACHNANTHES B X I G f A ; ACHNANTHES M I N U T I S S I M A ; B H O I C O S P H E N I A CURVATA; N I T Z S C H I A L I N E A R I S ; ACHNANTHES LANCEOLATA; N A V I C U L A C R Y P T O C E P H A L A ; SYNEDRA ULNA; GOMPHONEMA P A P " U L U M ; GOMPHONEMA ANGUSTATUM;
- C O C C O N E I S P L A C E N T U L A ; ANABAENA V A R I A B I L I S ; TRIBONEMA M I N O R ; PHORMIDIUM R E T Z I I ; NAVICULA MINIMA
621 P r i m a r y P r o d u c t i o n i n L a b o r a t o r y S t r e a m s
M c l n t i r e , C . D . ; G a r r i s o n , R . L . ; P h i n n e y , H . K . ; W a r r e n , C . E . ; P a c i f i c C o o p e r a t i v e W a t e r P o l l u t i o n a n d F i s h e r i e s R e s e a r c h L a b o r a t o r i e s , O r e g o n S t a t e U n i v e r s i t y , C o r v a l l i s
L i m n o l . O c e a n o g . , 9 ; 9 2 - 1 0 2 ; 1 9 6 4
LABORATORY S T R E A M S ; P R I M A R Y P R O D U C T I O N ; COMMUNITY R E S P I R A T I O N ; P H O T O S Y N T H E S I S - R 3 S P 1 R A T I O N C H A M B E R ; G R O S S PRIMARY P R O D U C T I O N ; I L L U M I N A T I O N I N T E N S I T Y ; HODEL E C O S Y S T E M ; AQUATIC E C O S Y S T E M S
622 A L a b o r a t o r y M e t h o d f o r t h e S t u d y o f M a r i n e B e n t h i c D i a t o m s
M c l n t i r e , C . D . ; W u l f f , B . L . ; D e p a r t m e n t o f B o t a n y , O r e g o n S t a t e U n i v e r s i t y , C o r v a l l i s , OR
L i m n o l o g y a n d O c e a n o g r a p h y , 1 4 ( 5 ) , 6 6 7 - 6 7 8 ; 1 9 6 9
MARINE A L G A E ; D I A T O M S ; B E N T H I C F L O R A ; L I G H T I N T E N S I T Y ; B I O M A S S ; D I S T R I B U T I O N ; AQUATIC E C O S Y S T E M S ; P O P U L A T I O N S ; I N T E R T I E A L A R E A S ; P H Y S I O L O G I C A L E C O L O G Y ; E S T U A R I E S ; P H O T O S Y N T H E S I S ; R E S P I R A T I O N ; P I G M E N T S ; C H L O R O P H Y U . ; T E M P E R A T U R E ; OXYGEN; S A L I N I T Y ; LABORATORY MODEL E C O S Y S T E M ;
S E S P I R O M E T E R C H A M B E R ; V E R T I C A L D I S T R I B U T I O N
TAXONCMY: ACHNANTHES; A C T I N O P T Y C H U S ; A M P H I P L E U R A R U T H J U J S ; ANFHOHA; A U L A C O D I S C U S ; B A C I L L A R I A ; B I D D U I P H I A ; C H A E T O C E R O S ; C O C C O N E I S ; C O S C I N O D I S C U S ; D I K E R O G R A H M A ; D I P L O N E I S ; EUNOTCCSAMHA; F R A G I L A R I A ; GOMPHONEMA; G Y R O S I G M A ; M E L O S i R A ; N A V I C U L A ; N I T Z S C H I A ; S K E L E T O N E M A ; PLAG7.CGRAHMA; P L E U f l O S I G M A ; R H A P H O N E I S ; R H O I C O S P H E N I A ; S U R I R E L L A ; SYNEDRA
6 2 3 A n I n d e x o f D i v e r s i t y o f t h e R e l a t i o n o f C e r t a i n C o n c e p t s o f D i v e r s i t y
M c i n t o s h , R . P . ; D e p a r t m e n t o f B i o l o g y , U n i v e r s i t y o f N c t r e D a m e , N o t r e D a m e , I N
E c o l o g y , 4 8 ( 3 ) , 3 9 2 - 4 0 4 ; 1 9 6 6
R I C H N E S S ; D I V E R S I T Y ; H O M O G E N E I T Y ; S P E C I E S D I V E R S I T Y
6 2 4 I n v e s t i g a t i o n o f S o m e F a c t o r s i n t h e B i o c h e m i c a l c o n v e r s i o n o f M e r c u r y p o l l u t a n t s t o T o x i c M e t h y l - M e r c u r y E f f e c t e d b y M i c r o - O r g a n i s m s i n a M a r i n e s e d i m e n t ; R e s e a r c h R e p t ; R e p o r t o n a T r i d e n t S c h o l a r P r o j .
M C K i n n e y , M . ; N a v a l A c a d e m y , A n n a p o l i s , MD 2 4 5 6 0 0
N a v a l A c a d e m y , A n n a p o l i s , MD 2 4 5 6 0 0 ; A D - 7 4 9 6 7 4 ; R e p o r t N o . U S N A - T S P R — 3 2 ; M o n i t o r i n g A g e n c y B e p t N o . 1 8 , 9 4 p . ; 1 9 7 2 , M a y
M E R C U R Y ; M A R I N E B I O L O G Y ; M I C R O O R G A N I S M S ; R E V I E W ; C H E L A T E S ; S O L U B I L I T Y ; WATER; C O N C E N T R A T I O N C H E M I S T R Y ; T O X I C I T Y ; C H E M I C A L A N A L Y S I S ; GAS CHROMATOGRAPHY; ATOMIC S P E C T R O S C O P Y ; M E T A L S ; MARINE M I C R O O R G A N I S M S ; MERCURY O R G A N I C COMPOUNDS; A N A L Y S I S ; S P E C T R O C H 3 M I C A L A N A L Y S I S ; T R A C E E L E M E N T S ; S E D I M E N T S ; METHYLMERCURY
625 R a p i d U p t a k e o f M e r c u r i c i o n b y G o l d f i s h
M c K o n e , C . E . ; Y o u n g , R . G . ; B a c h e , C . A . ; L i s k , D . J .
E n v i r o n S c i T e c h n o l 5 ( 1 1 ) , 1 1 3 8 - 1 1 3 9 ; 1 9 7 1
U P T A K E ; MERCURIC I O N S ; G O L D F I S H ; MERCURY
626 T h e A c c u m u l a t i o n o f C h l o r i n e 3 6 R i n g - L a b e l e d DDT i n a F r e s h w a t e r H a r s h
K e e k s , R . L .
J o u r n a l o f W i l d l i f e M a n a g e m e n t , 3 2 , 3 7 6 - 3 9 8 ; 1 9 6 8
A C C U M U L A T I O N ; D D T ; F B E S H W A T E B ; H A R S H ; C H L O R I N E 3 6 ; T R A C E R S
63 1013
6 2 7 I n v e s t i g a t i o n o n t h e M o l e c u l a r H e i g h t D i s t r i b u t i o n o f R u n i c S u b s t a n c e s b y G e l F i l t r a t i o n t h r o u g h • S e p h a d e x '
H e h t a , N . C . ; D u b a c h , p . ; D e u e l , H .
Z . P f l a n z f / n e r n a h r . D u n g . B f . a e n k . , 1 0 2 , 1 2 8 - 1 3 7 ; , 1 9 6 3
MOLECULAR H E I G H T D I S T R I B U T I O N ; H O N I C S w S S T A N C E S ; GEL F I L T R A T I O N ; SEPHADEX
628 T h e D e t e r m i n a t i o n o f M e r c u r y i n S o i l s b y F l a m e l e s s A t o n i c A b s o r p t i o n
M e l t o n , J . R . ; H o o v e r , H . L . ; H o w a r d , P . A .
S o i l S c i S o c Am P r o c 3 5 ( 5 ) , 8 5 0 - 8 5 2 ; 1 9 7 1
VAPOR A E R A T I O N S Y S T E M ; MERCURY; S O I L S ; A T O M I C A B S O R P T I O N
6 2 9 T h e E f f e c t o f S o i l M o i s t u r e U p o n t h e A v a i l a b l i t y o f P o t a s s i u m a a d I t s I n f l u e n c e o n t h e G r o w t h o f Y o u n g M a i z e P l a n t s Z e a M a y s
M e n g e l , K . ; V o n B r a u n s c h w e i g , L . C .
S o i l S c i . , 1 1 1 ( 2 ) , 1 U 2 - 1 4 8 ; 1 9 7 2
S O I L M O I S T U R E ; P O T A S S I U M ; G R 0 H T I 1 ; U P T A K E ; D I F F U S I O N ; S O I L S ; N U T R I E N T S ; CORN
TAXONOMY: ZEA MAYS
6 3 0 D e t e r m i n i n g t h e A v e r a g e P o r o s i t y a n d P e r m e a b i l i t y o f a s t r a t i f i e d A q u i f e r w i t h t h e A i d o f R a d i o a c t i v e T r a c e r s
M e r c a d o , A . ; H a l e v y , E . ; D e p a r t m e n t o f H y d r o l o g i c a l R e s e a r c h , TAHAL H a t e r P l a n n i n g f o r I s r a e l L t d . , T e l - A v i v , I s r a e l ; I s o t o p e D e p a r t m e n t , H e i z m a n n I n s t i t u t e o f S c i e n c e , R e h o ^ o t , I s r a e l
w a t e r R e s o u r c e s R e s e a r c h , 2 ( 3 ) , 5 2 5 - 5 3 1 ; 1 9 6 6
P O R O S I T Y ; P E R M E A B I L I T Y ; A Q U I F E R ; R A D I O A C T I V E T R A C E R S ; SANDSTONE
6 3 1 D e m o n s t r a t i o n o f a N e w E n v i r o n m e n t a l P o l l u t a n t . A c c u m u l a t i o n o f P o l y c h l o r o t r i p h e r y l s b y B i r d s
M e s t r e s , R . ; I l l e s , s.; L a b . C h i m . A p p l . E x p e r i m e n t F a c i l i t y P h a r m ; M o n t t e l l i e r , F F
T r a v a u x d e l a S o c i e r e P h a r m o c i e d e M o n t p e l l i e r ( T S P M A 6 ) 3 3 ( 2 ) , 2 0 1 - 8 ; 1 9 7 3
I N S E C T I C I D E S ; R E S I D U E S ; G U L L S ; E G G S ; P O L Y C H L O R I N A T E D T R I P H E N Y L ; C H L O R I N A T E D P E S T I C I D E S ; A N I M A L S ; B I R D S
632 A L a b o r a t o r y M o d e l E c o s y s t e m t o E v a l u a t e C o m p o u n d s P r o d u c i n g B i o l o g i c a l M a g n i f i c a t i o n
M e t c a l f , R . L .
P a r t o f E s s a y s i n T o x i c o l o g y , i n p r e s s ; 1 9 7 3
MODEL E C O S Y S T E M ; B I O L O G I C A L M A G N I F I C A T I O N
6 3 3 A M o d e l E c o s y s t e m f o r t h e E v a l u a t i o n o f P e s t i c i d e B i c d e g r a d a b i l i t y a n d E c o l o g i c a l M a g n i f i c a t i o n
M e t c a l f , R . L . ; S c h o o l o f L i f e S c i e n c e s , U n i v e r s i t y o f I l l i n o i s , USA
E n v i r o n m e n t a l S c i e n c e a n d T e c h n o l o g y 5 ( 8 ) , 7 0 9 - 7 1 3 ; 1 9 7 1 , A u g u s t
LABOR8TORY E C O S Y S T E M ; B I O D E G R A D A B I L I T Y ; P E S T I C I D E S ; C O N T A M I N A T I O N ; CHROMATOGRAPHY; M A G N I F I C A T I O N ; R A D I O N U C L I D E S ; L A B E L I N G ; T R I T I U M ; CARBON 1U
6 3 4 L a b o r a t o r y M o d e l E c o s y s t e m E v a l u a t i o n o f t h e C h e m i c a l a n d B i o l o g i c a l B e h a v i o r o f R a d i o l a b e l e d M i c r o p o l l u t a n t s
M e t c a l f , R . L . ; U n i v e r s i t y o f I l l i n o i s a n d I l l i n o i s N a t u r a l H i s t o r y S u r v e y U r b a n a - C h a a p s i i g n , I l l i n o i s USA '
F A O / I A E A / H H O S y m p o s i u m o n N u c l e a r T e c h n i q u e s i n C o m p a r a t i v e s t u d i e s c f F o o d a n d E n v i r o n m e n t a l C o n t a m i n a t i o n , O t a n i e m i , F i n l a n d ; 1 9 7 3 , A u g u s t
M O D E L ; MODEL E C O S Y S T E M ; O R G A N O C H L O R I N E ; O R G A N C E H O S P H O R U S ; CARBAMATE; H O R M O N E - M I M I C I N S E C T I C I D E S ; H E R B I C I D E S ; P H T H A L A T E E S T E R S ; P C B T C B D ; H E X A C H L O R O - B E N Z E N E ; B I O M A G N I F I C A T I O N ; B I C D E G R A D A B I L I T Y
6 3 5 U p t a k e a n d F a t e o f D i - 2 - e t h y l e h x y l P h t h a l a t e i n A q u a t i c O r q a n i s m s a n d i n a M o d e l E c o s y s t e m s
M e t c a l f , R . L . ; B o o t h , G . a . ; S c h u t h , C . K . ; H a n s e n , D - J . ; L u , P o - Y u n g
E n v i r o n m e n t a l H e a l t h P e r s p e c t i v e s , 2 7 - 3 4 ; 1 9 7 3 , J u n e
U P T A K E ; D I - 2 - E T U Y L H E X Y L P H T H A L A T E ; A Q U A T I C O R G A N I S M S ; MODEL E C O S Y S T E M ; D E H P ; D I O C T Y L P H T H A L A T E ; D O P ; P L A S T I C I Z E R ; P I N E A L G L A N D S ; M I T O C H O N D R I A ; H E A R T S ; C A T T L E ; DOGS; R A B B I T ; R A T ; T E R A T O G E N ; S P L E E N ; L I V E R ; L U N G ; ABDOMINAL F A T ; M E T A B O L I S M ; B I O N A G K I F I C A T I O N ; FOOD C H A I N ; AQUATIC ECOSYSTEMS
636 B i o d e g r a d a b l e A n a l o g u e s o f DDT
M e t c a l f , R . L . ; K a p o o r , I . P . ; H i r w e , A . S .
Bull. W.H.O. , 48 (1-2-3), 363-374; 1971 B I O D E G B A D A T I O N ; D D T ; I N S E C T S ; H O U S E ; I N S E C T I C I D E S ; F O O D ; F L Y ; M O S Q U I T O ; M E T A B O L I C PATHHAY; VECTOR CONTROL
637. 6 U
6 3 7
D e v e l o p n e n t o f B i o d e g r a d a b l e A n a l o g u e s o f DDT
M e t c a l f , R . L . ; K a p o o r , X . P . ; H i r v e , A . S .
C h e m . T e c h . , 1 0 5 - 1 0 9 ; 1 9 7 2 , F e b r u a r y
B I O D E G R A D A B I L I T Y ; DDT A N A L O G S ; I N S E C T I C I D E S ; DDT
6 3 8 N o d e l E c o s y s t e m S t u d i e s o f t h e E n v i r o n m e n t a l F a t e o f S i x o r g a n o c h l o r i n e P e s t i c i d e s
N e t c a l f , R . L . ; K a p o o r , I . P . ; L u , P o - Y u n g ; S c h u t h , C . K . ; S h e r m a n , P .
E n v i r o n m e n t a l H e a l t h P e r s p e c t i v e s , 3 5 - 4 4 ; 1 9 7 3 , J u n e ,
MODEL E C O S Y S T E M ; O R G A N O C H L O R I N E ; P E S T I C I D E S ; C Y C L O D I E N E S ; T O X A P H E N E ; METHOXYCHLOR; DDT ANALOGS; M A G N I F I C A T I O N ; B I O D E G R A D A B I L I T Y
6 3 9 H o d e l E c o s y s t e m f o r t h e E v a l u a t i o n o f P e s t i c i d e B i o d e g r a d a b i l i t y a n d E c o l o g i c a l M a g n i f i c a t i o n
H e t c a l f , R . L . ; S a n g h a , G . K . ; K a p o o r , I . P .
E n v i r o n . S c i . T e c h n o l 5 ( B ) , 7 0 9 - 7 1 3 ; 1 9 7 1
MODEL E C O S Y S T E M ; B I O D E G R A D A B I L I T Y ; E C O L O G I C A L :
M A G N I F I C A T I O N ; P E S T I C I D E S
6 4 0 H a t e r T r a n s l o c a t i o n o f D i a z o n o n ~ C ( 1 4 ) a n d P a r a t h i o n - S < 3 5 ) o f f a M o d e l C r a n b e r r y B o g a n d S u b s e q u e n t o c c u r r e n c e i n F i s h a n d M u s s e l s
M i l l e r , C . N . ; Z u c k e r m a n , B . M . ; C h a r i g , A . J .
T r a n s , o f t h e A m e r i c a n P i s h e r i e s S o c . 9 5 ( 4 ) , 3 4 5 - 3 4 9 ; 1 9 6 6 , O c t o b e r
WATER T R A N S L O C A T I O N ; D I A Z I N O N - C ( 1 4 ) ; P A R A T H I O N - S ( 3 5 ) ; CARBON 1 4 ; SULFUR 3 5 ; MODEL; CRANBERRY BOG; P E S T I C I D E S
TAXONOMY: FUNDULUS H E T E R O C L I T U S ; E L L I P T I O COHPLANATOS
6 4 1 R e s e a r c h o n F o r e s t S o i l s a n d T r e e N u t r i t i o n
M i l l e r , H . G . ; W i l l i a m s , B . L .
G r e a t B r i t i a n F o r e s t r y C o m m i s s i o n R e p o r t o n F o r e s t R e s e a r c h 1 9 7 0 , 1 7 1 - 1 7 3 ; 1 9 7 0
P I N E - G ; S I T K A S P R U C E - G ; N I T R O G E N ; N U T R I E N T S ; U P T A K E ; S H A D E ; M I N E R A L I Z A T I O N ; F O R E S T S ; S O I L S ; T R E E S
642 S o r p t i o n f r o m A g u e o u s S o l u t i o n s b y o r g a n i c c l a y s . I. 2 , 4 - D b y B e n t o n e 2 4
M i l l e r , R . w . ; F a u s t , S . D . ; U t a h S t a t e U n i v . , L o g a n , U t a h
A d v a n . C h e m . S e r . ( A D C S A J ) , 1 1 1 ( F a t e o f O r g . P e s t i c . ) , 1 2 1 - 3 4 ; 1 9 7 2
C H I O R O P H E N O X Y A C E T A T E ; B E N T O N I T E ; A B S O R P T I O N ; H E R B I C I D E S ; C L A Y S ; S O R P T I O N
6 4 3 E u t r o p h i c a t i o n o f L a k e W a t e r M i c r o c o s m s . P h o s p h a t e V e r s u s H o n p h o s p h a t e D e t e r g e n t s
M i t c h e l l , D .
S c i e n c e ( W a s h i n g t o n ) 1 7 4 ( 4 0 1 1 ) , 8 2 7 - 8 2 9 ; 1 9 7 1
A L G A E ; D I V E R S I T Y ; E U T R O P H I C A T I O N ; M I C R O C O S M S ; PHCS P R A T E ; D E T E R G E N T S
6 4 4 T r a c e E l e m e n t s i n S o i l s
M i t c h e l l , R . L . ; M a c a u l a y I n s t . S o i l R e s . , A b e r d e e n , S c o t .
G t . B r i t . , N i n . A g r . , F i s h . F o o d , T e c h . B u l l . (GEABAA) 2 1 , 8 - 2 0 ; 1 9 7 1
R E V I E W ; T R A C E E L E M E N T S ; S O I L S ; M O B I L I Z A T I O N ; MINERALS
6 4 5 T r a c e E l e m e n t s i n S o i l s a n d F a c t o r s T h a t A f f e c t T h e i r A v a i l a b i l i t y
M i t c h e l l , R - L .
G e o l S o c Am B u l l 8 3 ( 4 ) , 1 0 6 9 - 1 0 7 6 ; 1 9 7 2
TRACE E L E M E N T S ; S O I L S ; P L A N T S ; U P T A K E ; A V A I L A B I L I T Y
6 4 6 D i s t r i b u t i o n o f S o m e T r a c e E l e m e n t s i n B o t t o m S e d i m e n t s i n t h e C h u c k c h e e S e a
M i t r o p o l s k y , A . Y . ; O g o t o d n i k o v , V . I . ; I n s t . G e o l . N a u k , K i e v , USSR
D o p o v . A k a d . N a u k U k r . R s r , S e r . B ( D B G G A M ) , 3 4 ( 1 1 ) , 9 8 6 - 8 ; 1 9 7 2
TRACE E L E M E N T S ; BOTTOM S E D I M E N T S ; D I S T B I B U T I O N ; S E D I M E N T S
65 1013
6 4 7 I n e g u i l i b r i u m o f T h o r i u m S e r i e s R a d i o n u c l i d e s i n t h e s e d i n e n t s A r o u n d a R i v e r M o u t h
M i y a k e , H . ; M i c h i j i m a , M . S .
R a a i o i s o t o p e s j ( T o k y o ) 1 2 ( 2 ) , 7 4 - 9 ; 1 9 7 2 , F e b r u a r y
ALPHA S P E C T R O S C O P Y ; GAMMA S P E C T R O S C O P Y ; Q U A N T I T A T I V E C H E M I C A L A N A L Y S I S ; R A D I U M ; RADIUM 2 2 8 ; R I V E R S ; S E D I M E N T S ; T H O R I U M ; THORIUM 2 2 8 ; THORIUM 2 3 2 ; C H E M I C A L P R O P E R T I E S ; SEA H A T E R ; R I V E R S ; R A D I O N U C L I D E S
6 4 8 C a t i o n E x c h a n g e C a p a c i t y a n d W e a t h e r i n g o f M u s c o v i t e M a c r o F l a k e s
M o k r a a , D . L . ; S y e r s , J . K . ; J a c k s o n , M . L .
S o i l S c i s o c A m e r P r o c 3 4 ( 1 ) , 1 4 6 - 1 5 1 ; 1 0 7 0
C A T I O N ; EXCHANGE C A P A C I T Y ; H E A T H E R I N G ; M U S C O V I T E MACRO F L A K E S ; ELECTRON M I C R O S C O P Y ; C L E A V A G E ; CHAHGED P A R T I C L E T R A C K S ; S U R F A C E ; CALCIUM 4 5
6 4 9 U p t a k e o f H e r b i c i d e s b y S o y B e a n - D R o o t s i n C u l t u r e S o l u t i o n s
M o o d y , K . ; K u s t , C . A . ; B u c h h o l t z , K . P .
H e e d S c i 1 8 ( 5 ) , 6 4 2 - 6 4 7 ; 1 9 7 0
U P T A K E ; H E R B I C I D E S ; R O O T S ; CULTURE S O L U T I O N S ; L I N U R O N ; G L Y C I N E - M A X - D ; CHLOROPROPHAM; A T R A Z I N E ; , A M I B E N ; T R A N S P I R A T I O N T E M P E R A T U R E ; S O Y B E A N S ; S - E T H Y L D I P R O P Y L T H I O C A R B A M I D * 2 ; P L A N T S
6 5 0 E f f e c t o f L i n e o n E x c h a n g e p r o p e r t i e s a n d M o v e m e n t o f C a l c i u m a n d M a g n e s i u m i n a n A n d o s o l
M o r e l l i , M . ; I g u e , K . ; F u e n t e s , R .
T u r r i a l b a 2 1 ( 3 ) . 3 1 7 - 3 2 2 ; 1 9 7 1
P H ; T I T R A T I O N ; A C I D I T Y ; EXCHANGE C A P A C I T Y ; S O I L S ; C A L C I U M ; MAGNESIUM
6 5 1
P o l l u t a n t s a n d F o o d C h a i n s
M o r i a r t y , F .
New S c i . , 5 3 ( 7 8 7 ) , 5 9 4 - 5 9 6 ; 1 9 7 2
FOOD C H A I N ; I N S E C T I C I D E S ; M E T A B O L I C R A T E S ; M I T A B O L I S M ; P C B ; O R G A N O C H L O R I N E I N S E C T I C I D E S
6 5 2 C o m b i n e d S u r f a c e W a t e r - G r o u n d v a t e r A n a l y s i s o f H y d r o l o g i c a l s y s t e m s w i t h t h e A i d o f t h e H y b r i d C o m p u t e r
M o r r i s , W . J . ; M o r g a n , N . W . ; H a n g , B . H . ; R i l e y , J . P .
W a t e r R e s o u r c e s B u l l e t i n , 8 ( 1 ) , 6 3 ; 1 9 7 2 , F e b r u a r y
GROUND WATER; H Y B B I D C O M P U T E S ; D I F F E R E N T I A L E Q U A T I O N S ; S I M U L A T I O N ; S U R F A C E W AT B R ; HYDROLOGY; r i , HYDROLOGIC S Y S T E M S ; MODEL
6 5 3 P l a n t G r o w t h R e s p o n s e t o V e s i c u l a r - A r b u s c u l a r M y c o r r h i z a . V . P h o s p h a t e U p t a k e b y T h r e e P l a n t ,! S p e c i e s f r o m P h o s p h o r u s - D e f i c i e n t S o i l s , L a b e l e d w i t h P h o s p h o r u s - 3 2 .
M o s s e , ' B . ; H a y m a n , D . S . ; A r n o l d , D . J . ; R o t h a m s t e d . E x p . S t n . , H a r p e n d e n / H e r t f o r d s h i r e , E n g l . . ,
N e w P h y t o l . ( N E P H A V ) , 7 2 ( 4 ) , 8 0 9 - 8 1 5 ; 1 9 7 3 ,
P H O S P H O R U S ; U P T A K E ; M Y C O R R H I Z A ; R O O T S ; S O I L S ; P L A N T S ; F U N G U S ; P H O S P H A T E S ; GROWTH; T R A C E R S
TAXONOMY: M B L I N I S M I N U T F L O R A ; P A S P A L 0 M NOTATUM; CENTROSEMA P U B E S C E N S ,-. V
6 5 4 " ' „ , P o l y c h l o r i n a t e d B i p h e n y l s a n d liDT A l t e r S p e c i e s . C o m p o s i t i o n i n M i x e d C u l t u r e s o f A l g a e ,,
- s e t , J . L . ; F i s h e r , N . S . ; T e n g , T . C . ; W u r s t e r ,
S c i e n c e , 1 7 6 , 5 3 3 - 5 3 5 ; 1 9 7 2 o
P O L Y C H L O R I N A T E D B I P H E N Y L S ; D D T ; S P E C I E S ' C O M P O S I T I O N ; , C U L T U R E S ; A L G A E ; PCB .
6 5 5 D e s o r p t i o n o f S o m e H e r b i c i d e s f r o m H o n t m o r i l l o n i t e a n d P e a t
M o y e r , J . R . ; t l c K e r c h e r , R . B . ; H a n c e , R . J . ; . S a s k a t c h e w a n I n s t . P e d o l . , U n i v . S a s k a t c h e w a n , S a s k a t o o n , S a s k .
C a n . J . S o i l S c i . ( C J S S A R ) , 5 2 ( 3 ) , 4 3 9 - 4 7 ; 1 9 7 2 ,,
H E R B I C I D E S ; S O I L S ; A D S O R P T I O N ; . M O N U R O N ; A T R A Z I N E ; P B C M E T R Y N E ; P E A T ; D E S O R P T I O N ; H O N T M O R I L L O N I T E
6 5 6 • ' . . , > . . L e a c h i n g o f H a t e r S o l u b l e C a r b o n - 1 4 - L a b e l e d D e c o m p o s i t i o n P r o d u c t s o f A l d r i n f r o m S o i l s
M o z a , P . ; H e i s g e r b e r , I . ; K l e i n , H . ; I n s t . O e k o l . C h e m . , G e s . S t r a h l e n - U n d U m w e l t f o r s c h . M . B . H . , M u n i c h , G e r m a n y
C h e m c s p h e r e ( C M S H A F ) 1 ( 5 ) , 1 9 1 - 5 ; 1 9 7 2
L E A C H I N G ; D E C O M P O S I T I O N P R O D U C T S ; S O I L S ; A L D R I N ; C H L O R I N A T E D I N S E C T I C I D E S ; I N S E C T I C I D E S ; CARBON 1 4 ; M E T A B O L I S M ; L A B E L I N G
657 / 66
6 5 7 , T h e D i e l D r i f t o f C h i r o n o m i d a e i n a n A r t i f i c i a l S t r e a m a n d i t s . R e l a t i o n t o t h e D i e t o f C o h o S a l m o n F r y , O n c o r h y n c h u s K i s u t c h
M u n d i e , J . H .
C a n . E n t o m o l . , 1 0 3 ( 3 ) , 2 8 9 - 2 9 7 ; 1 9 7 1
D I E L D R I F T ; C H I S O N O M I D A E ; A R T I F I C I A L S T R E A M S ; D I E T ; COHO S A L M O N ; ' A Q U A T I C E C O S Y S T E M S ; MODEL E C O S Y S T E M ; ,
TAXONOMY: C R I C O T O P U S S P ; P S E C T R O C L A D I U K S P ; ONCORHYNCHUS K I S O T C H
6 5 8 ' ' E f f e c t s o f - S a l i n i t y o n U p t a k e o f D E T , DDE a n d DDD b y F i s h
M u r p h y ^ P . G . ; H o p k i n s M a r . S t n . , S t a n f o r d U n i v . , P a c i f i c G r o v e , C a l i f .
661 A q u e o u s M i g r a t i o n o f C h e m i c a l E l e m e n t s i n R e g i o n a l P l a i n - T y p e L a n d s c a p e s
N a l i v k i n , Y . V . ; K a z a n . G o s . U n i v . , K a z a n , U S S R
S b . A s p i r . R a b . , K a z a n , G o s . U n i v . , K h i m . , G e o g r . , G e o l . ( 2 5 Q S A V ) , 8 3 - 7 . ; 1 9 7 0
T R A C E E L E M E N T S ; M I G R A T I O N ; WATER; S O I L S ; L E A C H I N G ; H O C K S ; R E G I O N A L P L A I N S ; L A N D S C A P E ; P L A I N S ; T R A N S P O R T
662 T o x i c i t y o f T w e n t y - T h r e e I n s e c t i c i d e s t o a T u b i f i c i d Worm B r a n c h i u r a S o w e r b y i f r o m t h e M i s s i s s i p p i D e l t a
N a g v i , S . M . ; . D e p . Z o o l . , M i s s i s s i p p i S t a t e U n i v . , S t a t e C o l l e g e , M i s s .
J . E c o n . E n t o m o l . , 6 6 ( 1 ) , 7 0 - 4 ; 1 9 7 3
B u l l . E n v i r o n . C o n t a m . T o x i c o l . ( B E C T A 6 ) , 5 ( 5 ) , 4 0 4 - " 0 7 ; 1 9 7 0
S A L I N I T Y ; : U P T A K E ; D D T ; D D E ; DDD; F I S H ; I N S E C T I C I D E S
TAXONOMY: GAMBUSIA A F F I N I S
6 5 9 A d s o r p t i o n - D e s o r p t i o n E q u i l i b r i a o f S o m e R a d i o n u c l i d e s i n S e d i m e n t - P r e s h w a t e r a n d S e d i m e n t - S e a w a t e r S y s t e m s
M u r r a y , c . ; M u r r a y , L .
P a r t o f R a d i o a c t i v e c o n t a m i n a t i o n o f t h e M a r i n e E n v i r o n n e n t . V i e n n a - I n t e r n a t i o n a l A t o m i c E n e r g y A g e n c y , 1 9 7 3 . F r o m S y m p o s i u m o n t h e I n t e r a c t i o n o f R a d i o a c t i v e C o n t a m i n a n t s w i t h t h e C o n s t i t u e n t s o f t h e M a r i n e E n v i r o n m e n t , S e a t t l e , H a s h i n g t o n , USA ( 1 0 5 - 1 2 4 ) ; 1 9 7 3
A B S O R P T I O N ; C O A S T A L W A T E R S ; COBALT 6 0 ; D E S O R P T I O N ; D I F F U S I O N ; E S T U A R I E S ; F R E S H W A T E R ; I S O M E R I C N U C L E I ; P H ; R A D I O N U C L I D E M I G R A T I O N ; R I V E R S ; S A L I N I T Y ; S E A W A T E R ; S E D I M E N T S ; S I L V E R 1 1 0 ; Z I N C 6 5 -
I N S E C T I C I D E S ; C H L O R I N A T E D HYDROCARBONS; O R G A N O P H O S P H A T E ; WORMS; CARBAMATES; T U B I F I C I D WOBM.S; T O X I C I T Y ; C R A Y F I S H ; MUD; CARBAMATE; P H O S P H A T E
TAXONOMY: BRANCHIURA SOWERBYI
6 6 3 C h l o r i n a t e d H y d r o c a r b o n I n s e c t i c i d e s : R o o t U p t a k e V e r s u s V a p o r C o n t a m i n a t i o n o f S o y b e a n F o l i a g e
N a s h , R . G . ; B e a l l , M . L . ; C r o p s R e s e a r c h D i v i s i o n , A g r i c u l t u r a l R e s e a r c h S e r v i c e , U . S . D e p t . o f A g r i c u l t u r e , B e l t s v i l l e , MD 2 0 7 0 5
S c i e n c e 1 6 8 , 1 1 0 9 - 1 1 1 1 ; 1 9 7 0 , May
C H L O R I N A T E D HYDROCARBONS; I N S E C T I C I D E S ; R O O T S ; F O L I A G E ; U P T A K E ; D D T ; D I E L D R I N ; E N D R I N ; H E P T A C H L O R ; T R A N S L O C A T I O N ; R E S I D U E S ; P L A N T S ; S O Y B E A N S ; VAPOR C O N T A M I N A T I O N
6 6 4 D i s t r i b u t i o n o f C h l o r i n a t e d I n s e c t i c i d e s i n C u l t i v a t e d S o i l
660 A S t a t i s t i c a l E v a l u a t i o n o f t h e I n t e r r e l a t i o n s h i p s . b e t w e e n P a r t i c l e S i z e F r a c t i o n s F r e e I r o n O x i d e a n d T r a c e E l e m e n t s
H a i r , K . P . P . ; C o t t e n i e , A .
J . S o i l S c i . , 2 2 ( 2 ) , 2 0 3 - 2 0 9 ; 1 9 7 1
P A R T I C L E S I Z E ; I R O N O X I D E ; TRACE E L E M E N T S ; S O I L P R O F I L E S ; S T A T I S T I C S ; S O I L S
N a s h , R . G . ; W o o l s o n , E . A .
S o i l S c i S o c A m e r P r o c 3 2 , 5 2 5 - 5 2 7 ; 1 9 6 8
D I S T R I B U T I O N ; C H L O R I N A T E D I N S E C T I C I D E S ; SANDY LOAM; A L D R I N ; D I E L D R I N ; I S O D R I N ; E N D R I N ; H E P T A C H L O R ; HEPTACHLOR E P O X I D E ; C H L O R D A N E ; B H C ; D I L A N ; T O X A P H E N E ; M O B I L I T Y ; R E S I D U E S ; P E S T I C I D E S
6 6 5 T r a n s p o r t o f p h o s p h o r u s i n S u r f a c e R u n o f f
N e l s o n , O . H . ; R o n k e i . j , n . J . M .
P a r t o f S w a d e r , F . N . ( C h a i r m a n ) , C o r n e l l U n i v e r s i t y c o n f e r e n c e o n A g r i c u l t u r a l H a s t e M a n a g e m e n t 1 9 7 0 . R e l a t i o n s h i p o f A g r i c u l t u r e t o S o i l a n d W a t e r P o l l u t i o n . 2 7 0 P . A g r i c u l t u r a l W a s t e M a n a g e m e n t P r o g r a m , C o r n e l l u n i v e r s i t y : I t h a c a , N . Y . , U . S . A . , 1 9 7 0 ( 2 1 5 - 2 5 5 )
T R A N S P O R T ; P H O S P H O R U S ; R U N O F F ; R A I N ; WATER; S O I L S ; F E R T I L I Z E R S
67
666 P a t e o f T r a c e - M e t a l s ( I m p u r i t i e s ) i n S u b s o i l s a s R e l a t e d t o t h e Q u a l i t y o f G r o u n d H a t e r : F i n a l R e p o r t
N e l s o n , W . E . ; C a r v e r R e s e a r c h F o u n d a t i o n , T u s k e g e e I n s t i t u t e , T u s k e g e e I n s t i t u t e , A l a b a m a
OWRR P r o j e c t B - 0 2 8 A L A , Z u s k e z e e I n s t i t u t e , A l a b a m a ; 1 9 7 2 , S e p t e m b e r
6 6 7 F a t e o f T r a c e - M e t a l s ( I m p u r i t i e s ) i n S u b s o i l s a s R e l a t e d t o t h e Q u a l i t y o f G r o u n d H a t e r . ; F i n a l R e p t .
N e l s o n , W . E . ; T u s k e g e e I n s t . , A l a . C a r v e r R e s e a r c h F o u n d a t i o n .
P r o j . O H R R - B - 0 2 8 - A L A ; C o n t r a c t D l - 1 4 - 0 1 - 0 0 0 1 - 3 0 5 3 ; M o n i t o r i n g A g e n c y R e p o r t N o . W 7 3 - 0 7 8 0 2 , O W R R - E - 0 2 8 - A L A ( 3 ) ; PB 2 1 9 4 0 2 / 7 ; 1 8 1 p . ; 1 9 7 2 , S e p t e m b e r
WATER; GROUND WATER; T R A C E E L E M E N T S ; S O I L C H E M I S T R Y ; COMPLEX C O M P O U N D S ; A G R I C U L T U R A L W A S T E S ; P R E C I P I T A T I O N C H E M I S T R Y ; A D S O R P T I O N ; R U N O F F ; M E T A L S ; C H E L A T I O N ; L I G A N D S ; F E R T I L I Z E R S ; C O N C E N T R A T I O N ; C O M P O S I T I O N ; I O N EXCHANGE; P E S T I C I D E S ; T R A N S P O R T ; S O I L S ; S U B S O I L S
668 E x c r e t i o n o f O r g a n i c N i t r o g e n b y M a r i n e A l g a e i n B a t c h a n d c o n t i n u o u s C u l t u r e
N e w e l l , B . S . ; D a l p o n t , G . ; G r a n t , B . R . ; D i v . F i s h . O c e a n o g r . , C S I R O , C r o n u l l a , A u s t .
C a n . J . B o t . , 5 0 ( 1 2 ) , 2 6 0 5 - 2 6 1 1 ; 1 9 7 2
N I T R O G E N ; MARINE A L G A E ; A L G A E ; P O L Y P E R T I D E ; BATCH C U L T U R E S ; O R G A N I C N I T R O G E N ; C O N T I N U O U S C U L T U R E
6 6 9 A n a l y s i n g S o i l W a t e r a n d S o l u t e M o v e m e n t U n d e r F i e l d C o n d i t i o n s
N i e l s e n , D . P . ; B i g g a r , J . W . ; U n i v e r s i t y o f C a l i f o r n i a , D a v i s , C A , U n i t e d S t a t e s o f A m e r i c a
S o i l - M o i s t u r e a n d I r r i g a t i o n s t u d i e s . P r o c e e d i n g s o f a P a n e l I n t e r n a t i o n a l A t o m i c E n e r g y A g e n c y , V i e n n a ; 1 9 7 3
MOVEMENT; F L U X ; S O I L P R O F I L E ; D I F F U S I O N E Q U A T I O N S ; P O T E N T I A L E Q U A T I O N S ; S O I L WATER; T R A N S P O R T
6 7 0 S h o o t Z o n e U p t a k e a n d T r a n s l o c a t i o n o f S o i l - A p p l i e d H e r b i c i d e s
N i s h i m o t o , R . K . ; W a r r e n , G . F . ; D e p . H o r t i c o l t . , P u r d u e U n i v . , L a f a y o t t e , I n d i a n a
W e e d S c i . ( W E E S A 6 ) , 1 9 ( 2 ) , 1 5 6 - 6 1 ; 1 9 7 1
H E R B I C I D E S ; SHOOT Z O N E U P T A K E ; D I P H E N A M I D ; R O O T S ; SORGHUM; C O R N ; D I U R O N ; C H L C R P R O P H A H ; U P T A K E ; T R A N S L O C A T I O N ; S O I L S
671 A Synthetic Hicrocosa
£ixon, S.W.; Departaent of Botany, University of North Carolina, Chapel Hill 27514
Lin. e Ocean., 14(1), 142-145; 1969, January
POLYAXENIC MICROCOSM; SYNTHETIC MICROCOSM; AXEMIC CULTURE; FEEDING; NUTRITION; COHPETIIOH; PREDATION; ECOSYSTEMS; COMMUNITY; PRODUCERS; CONSUMERS; MICROORGANISMS; GNOTOBXOTIC CULTURE; BRINE COMMUNITY
6 7 2 A Technique for Determining Mineralization of Carbon in Soils During Incubation
Nommik, H.; Royal College of Forestry, Stockholm
Soil Science, 112(2), 131-136; 1971
CARBON DIOXIDE; OXYGEN; NITROGEN; CARBON; SOILS; MINERALIZATION; INCUBATION; ACCUMULATION; RESPIRATION; METABOLITES; MICROORGANISMS
673 Biotransformation of Methyl Mercury Salts in the Rat Studied by Specific Determination of Inorganic Mercury
Norseth, T.; Clarkson, T.W.
Biochea. Pharaacol., 19(10), 2775-2783; 1972
PESTICIDES; HETHYLMERCURY; RATS; TRANSFORMATION; BIOTRANSFORMATION; MERCURY
674 studies on the Biotransforaatton of Hercury-203 Labeled Methyl Mercury Chloride in Rats
Norseth, T.; Clarkson, T.W.
Arch. Environ. Health, 21(6), 717-727; 1970
BIOTRANSFORMATION; HETHYLMERCURY CHLORIDE; RATS; LAEELING; HERCURY; MERCURY 203; ANIMALS
675 Hysteresis of Flux Gradient Relations for Saturated Flow of Water through Clay Materials
Novak, V.
J. Soil. Sci., 23(2), 248-253; 1972
HYSTERESIS; PLUX; BENTONITE; KAOLINITE; CONDUCTIVITY; CLAYS; SOILS
676 Localized Moveaent of Potassium Ions in Soil
Nye, P.H. Int. Potash Inst. Potassiua in Soil. Proceedings of the 9th Colloquium Landshut, Wost Germany, 220 p.. International Potash Institute; Berne, Switzerland, 107-155; 1972
NU1RIENTS; UPTAKE; DIFFUSION COEFFICIENT; SOJLS; TRANSPORT; POTASSIUM
677
677 Nutrient Uptake fro* Soil. Our Recant Studios Using isotopes Hyp, p.ft.; tini,w. Oxford; Oxford, Krtglml
Agrrchlaica (AftRCAX) «<«)• &7J-79; 1972
REVIEW; ROOTS; NUTRIENTS; ABSOBPTtCit; SOILS; UPTAKE; ISOTOPES
670 Dietary Factors that Aff«ct Rlolegicnl Availability of Trace Slonontft
O'Oell, 6. !..
Ann N. Acad Scl. 1«>9, 70-01; 1972 AVAILABILITY; ANIMALS; M I N S m S : V000; SOLUDILTTY; ABSORPTION; TRACE 3 t P » m s
6 7 9 Tho teaching of Nutriwnte Rati Uator froa Forest Troem A Frollainoty Study OMtaro, P J . Pert of Procettdinqm of the col>«i)t)lti* of tho International Potash laakltoto. Vol, Colloquium ou fotont fortiUsatlon. J79p. International potash institute: l)«en» Switzerland (122-110); 19*7 LEACHING; NUTRIENTS; SAIN; TftEtSi f O t m i
680 Sittpin syste*** fto4«t for DOT ©ot to tho lluaan ?oo4-chai» O'Neill, «. v.; IM>r*«» o. ».; Oak National Lab., Tonn. OFNt-lOP-71-9: Oak *ldg« tutlo»»l tab., T«r«tw; Contract «-?a0«*£»e-26t is m t , «o*fl»b#r MODEL; DDT; DOE; 80MASS; FOOD CttAUt; PCSTXCIOtS: F O V E M E M T
601 Th* Strategy of tcoayatoa &ov«lop»«nt
(Mt», E.P. Scloftee, 16a, 262-270 ECOSYSTEM DEVClOPftSPT: 53CCR5SION; W*T*}Jf£{ #D!1A*S
642 Energy Plow in Ecosyst«*a - A tti«torlc«t #e«l«Ht
Oduo, E.P.t lostltuto of Ecology *&d of tooioqy, University of Georgia, Ath«tftj», CA 3 0 6 0 1
A*. Zool., «:11-1«| \ H * fOOO CKAIN; TROPHIC LEVELS; COMPOTE* MOSEtS: SXRELATION; etttftCV fLOtt; ECOSYSTfftS; REVIEW
frill »}>*»*# of and Pcluaty Productivity l« Marino Benthic Al«|«e 04tj», «. p.; sachaann, fl.w.
Th« ®loto»;lc4l 9uU«ti» 117; 19*7
#FTfc*t: PfUftAHf P»00»CTIVIT*; J W T W C AUJAJS; LfCHT; T3WPRRATU88; SEA WATSff! TAIONC**: C«*r.TO«0»f»*JA USttft
f*p©ti8»nt«l Isolation of roo4 Ch*ln« l» 014-PU14 t«o»f*to» with tt»« of thQaphntm-il
0 « l # * » R . P . ; K w a n t l f f , R . J .
f»*trt c« v. sehuttx A.V. #U««ftt, t)c. , S » t J l e « c » l 0 9 » ( t o - 1 2 0 ) j m *
M o s w o m :tj; (ttsttUKtrotu m w r s t Foeo C»A?«ftj T»AC£8Si FIftU ©COSlStKWS
T A X O W I H M t S H M M C * *39AXtU.A»*5i ftttilM A C m C H U ; # * t f P m *
w * « $ s w i s « o f P I 3 2 ) P r i » » * y r ' t o 4 u e t l « l t y t n
0 4 n o . S . f . ; * « « * « % « * * U . 4 . J » i < W U S i n t e r « » * . ;
e p i c a l t » h e r » t o r y * # » t *
o p i * « j u i u t m r a o s o e n u t n t e r n s c # t s A * i « t *
PMCSfNOflOIS
t««A« dftl*. f«t«t, of ttftfift* Sclt»tve« Poi>Sil«*tlo«(jr* a I » • m - u i ; s a j K t e m b t f r
A^DAtlC KffitKtmi «m»0ltS»s
w i t h o f M f i M ) * ? * * « » «
i stitf* j U . t At#iu«fif< { t » A t U « t « o f i f c e U f t l w e e a l t f
o f P o r t A r * » * 4 * « t » « # t o f
TomJft»tJti»S!o of n*ri«« P o n f « t r * «
I hat. ttteia* scl.* eoUoraity of t«««o
A t t o i c t i t t e c o i m e i ( S { r o t t t s t * t e * u « t t * i f l w c Q o o r i m s i « m i m $ t f fA7JUJATiQi t : s * t r # m i * * < m % i * t n t * t S i R E S P I i t r t O H ; W M f A f C t i A Q U A T I C M O D S t tccstsr.itff
983
O W A b s o r b e d £ t a * O r g a n i c D a t r l t u s b y H M l a c C t d b s
OA(t», U.K.-, C.K.? «asot«e # C . F , ; ln«tit«»t» o f «»cln» 5c i#nc« , » » i » e r » i t y o f f t i « * i , cor*I f t
S e t w n c ® , t S f c , * 7 « - 5 7 7 t 1 9 6 9 , n » y
DDTi t w r n s ! A#*lf*t 8BHA*XO»; OtAHS* c « w » m t e » tt¥»*oc*«&«#!ij m t x c i o e r . ; m t x c x w e KKSIM£5i PE5TJCI6S TOSICms t s i m z K B r x s m i e s r m s x s r m e : » i © A s s f c * j n w t t * C R A S S ;
DOR; ABSORPTION
# « « b * t t i » a * o f flat* I T o * i « i U » »
: c o u p , t e s t l e e * . * * & » » » 5 t » t «
CU«. Tox ico l . imiAOJ * «lift # 1 5 1 - H * ; t w
8 « r » A « S s * e v i t » i t o x i c m : ftrc***is*si $ t t c » i « *
f O U O t i O f S . A i l l . f e r c o i J U i o f t
?*o* S e u t c « 8 . j ( J w Aiito % P 8 - J H
P . e . f t « 4 o t > e c « r s ? # * o c # * * l « i *
o m w r
o < f t « * t «> l ? M t » ( t n » r « « « ft. *«s*tt*tt#» sctatMUfie j«fer*s*Uf» t t f u v i r t J » J s f s p e * * . * « •
m » M > * w u m s s » t s * » s * t t m » f i M » r u t $ i o a *AST«»; f « A t * m
* m s * * n « t # * « * w « i e * T t « * s e & « a # f t » * ? » » : SftftMCt a!»U<M?*ft?#m; MHCtftTSPftt
*<9»m*$i »xnft«mia**Txc»: s-m C#t#IS?f¥l W m t * f S s M * m « e # i «AStS MSIVSAtl ft#tf#mt*t # * & * » M * < m n v M n s m t i e v t n s i © * * m ? * * m ? l S t l f f A C ! s # & s i « » r * a s w*\*m*i t u m i m t « u s t M w r n t i M i t * & i « * « t m « o # f « t i t t t t s t m u . « * t » t
A l l y * C e * f » I i » K i * f t f i m t r l a ? e * i « * i a »
seiwoc* t**»*i*****t t m « n M » - H » s m a
W t W ' S f T A S t T W M U W t t j S S J I 1 < : e s a m s s s
987 Apfl l e n t i o o of Xaotopft T«cUniiuo>j f o r 5tu>S l « s on tt«cb*si8*s of tand ContAMlntV.on and Vator P o l l u t l o a
oti«o«a» r«; Suzuki, R . ; SaikI* (f.
f a c t of Proc. Jap* Conf. e a d i o i s o t o p . Mo. 10 Aorl l 1972
r e c ! t » w » e s : t , * » o W A T B » { A C T Z V A T X O M A N A I T S X S ; R S C N 1 H E ; B T S P B O S I O R T T B O R O P I O W ; R T O H R A Y S ; ZitftHD «Aiet«AV5t TflACCtS; C E R Z O K C B S Z U R 137; C O « R R » » L L L A T I O « ; O I I K I C S N C H A T C H T V A B L O O T D E P O S I T S ; ^AOlOACTSVi VASTS DISPOSAL; KOTttmOrt 106; S£CX<ltliTS; S O I L S ; STROITTIO.T 90; C O « S ; P X S » { X O C X « « I l l s FLLLK; P T A P T S T R A M O H O C T X D B I I X C V A T X O F ) O P T A « : U S E T T E O C O » P O O » O S ; ( L 8 K C M ; » E « C O B T 2 0 3 ;
693 Tt»« f todt tc t iwi ty of Att«cb«4 Ai^ao i n Hivere
Okino, t . I l i sc* Rep. 8«3. Ins t* s a t . aosettcc. ( M y o t • <7« | , 72-79; 1970
H U M ) s i m s t ARTIPXCIAL s t n u n s - , rtttt 8A?e» lO»ASS; AQ9ATXC « C Q « t « T m ; matt m m t s n m
Hsc^wct^i tn Sot too S«4i«snfcs of
t*
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«fft»t u m i s i s s p x n m s : HT8*oee» stiLFxaet c o p f t s : £ i » t c j L E A D : o i e n x s t f i v ; s & c m x a ; MC««nS*ttX3»S
« » * « « • 5 « < l i » e f t t 3 * c h i * » j < f ftstj « f Throggfe 5Co lea 1 Proces se s
Q l m m m * S .
n t i f a a d < 9 r 9 # t t . t» P i s t i t a p * 1 1 9 $
S S S A H S ; M 9 t m P O t W t J C ? * : 8 g A * 1 f W S T A i S : s m u t S T e * c 8 * » 6 £
C » I 5 * i I s l a n d u a i v . ^ K i ^ s t a ^ *
£ i f t $ s t e a $ 2 1 1 1 7 2 / 0 ? ? r o } . f t l x C o a t c a c t t l I - ) « - J t - 0 0 0 1 - J 2 o O ;
i ti m p . : 1 9 7 ?
SJICOS«trA»s 8CPAJ SS8SICX6SS; «AtS8j PS3TXCI0SS; t ^ e t : 8 i Q » r m n w * T t < & « : i t t s & c t i c t o e s ;
OlglSHI^ SIB1«SMTS: fSSH; iRSXOtISS; cnt9ct*nsxrtM: c o w s i n a : e » 6 A » e c a u . « t x » E
983 987 838
6 9 7 Fate and Behavior of Five Chlorinated Hydrocarbon** in Three Natural waters Oloffs, P.C.; Albright, t.»l.; Szcto, S.Y.; Dep. Biol. Sci., sieon Fraser Univ., Burnaby, B.C. Can. J. Microbiol. (CJMIAfc), 18(9), 1393-1398; 1972 NATURAL WATERS; WATER; ORGAHCCIILOBINB; INSECTICIDES; AQUATIC ECOSYSTEMS; PESTICIDES; CHLORINATED BIPHENYLS
698 Translocation of organochlorine Pesticide leuidues froa soils Into carrots Qloff®, P.C.; Szeto, S.Y.; Webster* J.M.; Dep. Biol. Sci,, Sleor Feasor Univ., Eurnatoy, B.C. can. <I. Plant Sei. (CPLSAYJ SI (6), s«7~50; 1971
C R G A N 0 C H L 0 4 I N E PESTICIDES; OBGANCCHLORINE; I N S E C T I C I D E S ; CARROTS; S O T L S ; RESIDUES; TRANSLOCATION
6 9 9 ether Chemical* Pfvy files! a.-,-.A Bacteriological Studien: Phosphate Adsorption and isotopic Exchange its Lake Ql«en# S. Verb. Internat. Ver. Lianol., XIII, 915-922, Stattqaefc; 1958* February P H O S P H A T E ; A D S O R P T I O N ; I S O T O P I C E X C M A N C E ; L A K E WTJOS; S E D I M E N T S ; P H O S P H O R U S 3 2 ; F I X A T I O N ; E Q U I L I B R I U M ; T E M P E R A T U R E : O X I 0 A 7 I O N - R E D U C T I O N P O T E N T I A L S : C A L C I U M : X S O N ; C K E M * S O R P T I O N ; A B S O M I O H I S O T H E R M
7 0 0 Phosphate Equilibrium Between Reduced Sediments and water
01FL«N< S .
Verb. Internet. vereln* U m o L , IS, 333-341: 196»# fatotaary
E O M X B F T X Q N ; S E D I M E N T S ; P F T O S P H A T K S ; I K O O S T F T X A I , SEWAGE; INLAND HATERS; DOMESTIC SEWAGE; TRACERS: fRospfloaas 312: «mtoi.xsN; SEWAGE; WATER
T 0 1 E*perl»e«t«l Studies of Radiestrentitt* Accumulation by Freshwater Pish fr«« Food and H a t e r
O p h e i , X . L . i J a d d , J . t t .
P C O C . Int. Nadioeeol. concent. P S C C O S B . , 1 9 6 6 , Stockhole: 8 5 9 - 3 6 5 ; 1 9 6 ?
G O L D F I S H ; S T R O N T I U M 9 0 ; C A L C I U S ; S T R O N T I U M ; M A G N E S I U M ; M S B ; O I T T ; U P T A K F ; R E T E N T I O N ; I R E S K W A T E R
T A X O W O N T : O A R A S S I 9 5 A U R A T O S
interaction of Humic Acids with the Cations of Some Hetals Orlov, D.S.; Yeroshicheva, N.L.; Department of Soil Science, noscov State University Dokl. Soil science, 13, 1799-1806; First published in Vestnik Hoskovskogo Universiteta, 1, 98-106; 1967 HUHIC ACIDS; CATION; METALS; CONPLEX FORMATION; PUltfJC ACIDS; SOIL FORMATION; PLANT NUTRITION; SOILS; PLANTS; PH; ACCUHULATXON; POLARQGRAPHY; ALUMIHUM; IRON; ION EXCHANGE
703 Sediment Water Interactions Oschwald, W.R. J environ Qual 1 (4). 360-366; 1972 PIS»; FOOD CHAINS; TURBIDITY; EUTft dPIlICATION; SEGIRENTS; WATER
7 0 4
Processes Affecting Herbicide Action in Soil Osgetby, «S.M. Pestic. Sci., 4(2), 247-258; 1973 ROOTS; ABSORPTION; ADSORPTION; DECOMPOSITION; EVAPCRATION; LEACHING; MATHEMATICAL MODEL; SOILS; HERBICIBES
705 Isctcfa Studies en Nitrogen in Voreufc Soil. 1. Relative Losses of Nitrogen Through Leaching outing a Period of Forty Months overrein, L.N« «edd. Nor. Skogforsooksv. 29(5)* 261-28t; 1971 FORESTS; LCACHING; AMMONIUM COMPOUNDS; CHLORIDES* FERTILISERS; FOWESTS; NITROGEN; NITROGEN 15; PH; POTASSIUM NITRATES; SOILS; TINS DEPENOENCE; TRACERS; UREA
? 0 « Self or pollution patterns observed. Leaching of Calcium In F&test Soil Determined Ovuccein* L.8.; Noru. Inst. Focst ties.* As* Norway Amble IAMBOCI) 1 (4), 1«5-7; 1972 SOLPOS; AC10; CALCIUM; LEACHING; SOILS; PB(C1 PITATXON; FORESTS
7 0 7
Farther Development of Radioisotope Techniques foe Measuring Water Movement io large Trees Ovstcn, P.w.; Seith, «J>.L.; Halveraon* M.S. U.S. «o«. NOB. Develop Rep., T0(2«); 1970 WA1ER MOVEMENT; TREES; RADIOISOTOPES; TECHNIQUES; WATER; TRANSPORT
71 1013
708 Equilibrium Studies on Cation Exchange Capacity of Clays and th^ Negative suspension Effect
Papanicolaou, E. P.
I Pflanzenernaehr Bodenk 126 (1), 33-42; 1970
SODIUM; POTASSIUM; MAGNESIUM; CALCIUM; CESIUM; LANTHANUM; PH; SUPERSATURATION; NEGATIVE SUSPENSION; SUSPENSION EPPECT; CLAYS; CATION; EXCHANGE CAPACITY
709 A Note on « Three-Paraaeter Soil-Hater Diffusivity Punction-Application to the Horizontal Infiltration of Hater
Parlangt*, J.I.
Soil Sci. Att. Proc., 37, 318-319; 1973 SOU-HATER; DIPFHSIVITY; HATER; SCILS; RATER HOVEHENT
710 Theory of Mater Hoveaent in Soils Part 7: Multidimensional cavities under Pressure Parlange, J.Y.
Soil Sci., 113(6), 379-382; 1«72 HATER HOVENP.NT; PRESSURE; ABSORPTION; DIPPUSIVITY; HATHEHATICAL HETHOD; MODEL; SOILS
711 Theory of vater Hoveaent in Soils. Part a: 2 and 3 Dimensional Steady infili.tration Parlange, J.Y.
Soil Sci., 113(2), 96-101; 1972 HATER HOVBURNT; SOILS; INFILTRATION; GRAVITY; CAPILLA8ITV- CAVITY SIZE; SINGULAR PERTURBATION TECHNIQUE; MATHEMATICAL HETHOD; MODEL
712 Theory of vater Movement in soils Part 9: Unsteady Infiltration free Spherical Cavities Parlange, J.Y. Soil Sci., 113(3), 156-161; 1972
VATER MOVEMENT; SOILS; INFILTRATION; SPHERICAL CAVITieS; AWSORPTtOM; GRAVITY; MATHEMATICAL METHOD; MODEL
713 Theory of Hater Movement in Soils. Part 9: the Dynamics of capillary Rise Parlnngo, J.Y.; Aylot, o. Soil Sci., 110(2), 79-81; 1972
RATER MOVEMENT; SOILS; NUMERICAL SOLUTION; CAPILLARY ACTION; MATHEMATICAL METHOD; MODEL
714 Micro-Meteorological Measurement of Pesticide Vapor Flux froa Bare soil and Corn Under Field Conditions
Paraele, L.H.; Leaon, E.R.; Taylor, A.W.
Hater Air Soil Pollut. 1(4), 433-451; 1972 VAPOR FLUX; CORN; DIELDRIN; HEPTACHLOR; INSECTICIDES; SOILS; METEOROLOGY
715 Preliainary survey of Mercury and other Metals Contained in Aniaals froa the Fraser River Mudflats
Parsons, T.R.; Bavden, C.A.; Heath, V.A.; Inst, oceanogr., Univ. British Coloabia, Vancouver, B.C.
J. Fish. Res. Board Can., 30(7), 1014-16; 1973 ANIMALS; HEAVY HETALS; CRABS; MOLLUSCS; MERCURY; SILVER; CADMIUM; COPPER; RIVERS; AQUATIC ECOSYSTEHS
716 occurrence of seleniua 75 and Tin 113 in Oysters.
Patel, B.; Ganguly, A*
Health Phys., 24(5), 559-562; 1973, May COEALT 58; COBALT 60; CONTAMINATION; MOLLUSCS; OYSTERS; RADIOACTIVE HASTES; RADIOACTIVITY; RADIOECOLOGICAL CONCENTRATION; RADIONUCLIDE MIGRATION; SELENIUM 75; TARAPUR-1 REACTOR; TIN 113; RADIOECOLOGY
717 Metabolic Transformation of DDT, Dieldrln, Aldrin, and Endrln by Harine Microorganlsas Patil, K.C.; Hatsuaura, P.; Boush, G.M.
Environaental Science 6 Technology 6(7), 629-632; 1972, July
HETAEOLIC TRANSFORMATION; CHLORINATED HYDROCARBON PESTICIDES; MARINE; SEDIMENTS; SURFACE FILMS; ALGAE; MARINE PLANKTON; MICROORGANISMS; INSECTICIDES; DOT; CYCLODIENE INSECTICIDES
718 Kinetics and Mechanism of Plutonium Accumulation by Loach Hisgumas/fossilis Eggs Patie, S.A.; Pechku Renkov, V.L.; Shekhanova, t.A.
Radiofciologlya„ 11(5), 742-7a6; 1971
KXNE1ICS; PLUTONIUM; BIOACCUMULATION; LOACH; MEMBRANES; CARP; FISH; EGGS
TATONOMY: MISGURNUS FOSSILI5
983 72
719 Benthic stress Conauniti.es
Patrick, R.
American Scientist, 58, 546-549 BENTHOS; PRODUCTION; DENSITY; COMPETITION; NUTRIENTS; STREAM COMMUNITY
720 Photosynthesis and Uptake of Strontiu.a-85 in Freshwater Plankton
Patten, B.C.; Iwerson, R.L.
p. 96-97
RADIOBIOLOGY; PHOTOSYNTHESIS; UPTAKE; RADIOISOTOPES; PHYTOPLANKTON; MACROPHYTES; PHOSPHORUS 32; ZINC 65; STRONTIUM 89; MOLYBDENUM 99; CAESIUM 137; STRONTIUM 85; PRIMARY PRODUCTIVITY; MARINE ALGAE; ADSORPTION; EXCHANGE; STRONTIUM 90; PLANKTON; ALGAE
721 Systems Analysis of cesium 134 Kinetics in Terrestrial Microcosvs
Patten, B.C.; Witkamp, M.
Ecology, 48, 813-824; 1967
TERP.SSTRIAL MICROCOSMS; MICROCOSMS; CESIUM 134
722 A Water Quality Model for a Conjunctive Surface-Groundvatei: System: An overview
Perez, A.I.; Huber, W.C.; fteaney, J.P.; Pyatt, E.E.
water Resources Bulletin, American Water Resources Association, 8(5), p. 900-908; 1972, October
WATER: MODEL; CONJUNCTIVE SURFACE-GROUNDSATER SYSTEM; MATHEMATICAL MODEL; RAINFALL; RUNOFF; INFILTRATION; GROUNDWATER FLOW; HYDROLOGY; CONJUNCTIVE USE; SIMULATION; AGRICULTURE; SURFACE FLOW
723 Distribution o£ Cadmium, Cobalt, Ccpper, Iron, Manganese* Nickel* Lead and Zinc in Dissolved and Particulate solids froa 2 Streals in Tennessee
Perhac* R.M.
J. Hydrol. (AMST)* 15(3), 177-186; 1972
DISTRIBUTION; CADMIUM; COBALT; CCPPER; IRON; MANGANESE; NICKEL; LEAD; ZINC; PARTICULATE SOLIDS; STREAMS
987 The Use of Isotopes to Study Pesticide Translocation in Natural Envlronsents
Peterle, T.J.
Part cf Moore, N.W., (ed), Pesticides in the Environment and Their Effects on Wildlife, The Journal of Applied Ecology, Vol. 3,supplement; 1966, June
TRACERS; TRANSLOCATION; BIOACCUMULATION; PESTICIDES; RADIOASSAY; NEUTRON ACTIVATIOH ANALYSIS; AUTORADIOGRAPHY; ISOTOPE DILUTION; DDT CL-36; MALATHION S-35; ISOTOPES; RADIONUCLIDES
725 Retention of 44 to 88 Micron Simulated Fallout Particles by Grasses
Petecs, L.N.; Witherspoon, J.P.
Health Phys. 22(3), 261-6; 1972, March
BIOLOGICAL HALF-LIFE; CESIUM 134; DEPOSITION; FALLOUT; FOOD CHAINS; GRASSES; PARTICLE SIZE; QUARTZ: RADIATION DOSES; RADIOACTIVITY; RADICECOLOGICAL CONCENTRATION; RADIONUCLIDE MIGRATION; RETENTION; SIMULATORS; SOILS; TIME DEFENCENCE; WEATHER
726 Extensive Microbial Degradation of DDT In Vitro and DDT Metabolism by Natural Coaaunities
Pfaonder, F.K.; Alexander, N.
J. Agric. Food Chwm. 20(4), 842-846; 1972
SENAGE; FRESHWATER; MICROBIAL DEGRADATION; DDT; IN VITRO; METABOLISM; BACTERIA
TAXONOMY: HYDROGBNOHONAS-SP; ARTHROBACTER-SP
727 The Ecologic lapact of the interactions Among Microorganisms and Aquatic Contaminants in Lake Erie, Phase I and Phase II.; Completion Rept.
Pfister* R.M.; Dugan, P.R.; Frea* J.X.; Randies* C.I.; Ohio state Univ.* Columbus. Water Resoatces Center
Ohio State Univ.* Columbus. Water Resources Center; PB 207 758; Report No. W119* 373X; Contract DI-14-01-0001-1537* DI-14-31-0001 3114; Monitoring Agency Rept No. W72-06136* OWBR-B-O13-OHIO (4); Proj. OWRB-B-013-OHIO, OWBR-B-OI8-OHIO; 99p.; 1971, November
EUTROPH1CATION; LIMNOLOGY; PESTICI0ES; WATER POLLUTION; SUSPENDED SEDIMENTS; ADSORPTION; GAS CHROMATOGRAPHY; CENTRITSSATION; THIN LAYER CHROHATOGBAPHY; PRIMACY BIOLOGICAL PRODUCTIVITY; MICROORGANISMS; PHYTOPLANKTON; CLAY MINERALS; DIELD8JN; SNDRIR; DDT; PARTICLE SIZE; BACTBBIA; FR'CB WATER BIOLOGY; ECOLOGY; CHROMATOGRAPHY; WATER; ORGANOCHLORINB; INSECTICIDES
73 1013
7 2 8 G e n e r a l T h e o r e a o n S t e a d y I n f i l t r a t i o n f r o a S u r f a c e S o u r c e s v i t h A p p l i c a t i o n t o P o i n t a n d L i n e S o u r c e s
P h i l i p , J . R .
S o i l S c i . S o c . A a . P r o c . 3 5 ( 6 ) , £ 6 7 - 8 7 1 ; 1 9 7 1
S O I L H A T E R ; UNSATURATED P L O W ; I R R I G A T I O N ; D I F F U S I O N ; C O N V E C T I O N ; M A T H E M A T I C S ; S E D I M E N T A T I O N ; S O I L S ; P O I N T S O O R C E S ; T H E O R E M ; S U R F A C E S O U R C E S ; L I N E S O U R C E S
7 2 9 R e s e a r c h o n L e a c h i n g S a l i n e S o i l C o l u a n s . P a r t 4 . E f f e c t o f s o i l T e x t u r e o n D i s p l a c e o e n t o f s o l u b l e S a l t s
P i e n e a a n n , N . ; F e r r e i r o , E . A .
R e v I n v e s t A g r o p e c u S e r 3 C l i a a S u e l o 7 ( 3 ) , 1 6 5 - 1 7 5 ; 1 9 7 0
S O I L C O L U M N S ; S O I L S ; L E A C H I N G ; S A L I N E S O I L COLUMNS; S O I L T E X T U R E ; S O L U B L E S A L T S
7 3 0 E x c e s s B a s e a n d E x c e s s B a s e N i t r o g e n R a t i o o f V a r i o u s C r o p S p e c i e s a n d P a r t s o f P l a n t s
P i e r r e , W . H . ; B a n v a r t , W . L .
A g r o n . J . , 6 5 ( 1 ) , 9 1 - 9 6 ; 1 9 7 3
P L A N T S ; C E R E A L ; G R A S S E S ; L E G U M E S ; V E G E T A B L E S ; C R O P S ; C A T I O N ; A N I O N ; I O N S ; N I T R I F I C A T I O N ; D E N I T R I F I C A T I O N ; S O I L A C I D I T Y ; F E R T I L I Z E R S ; G R O V T H ; S P E C I E S D I F F E R E N C E S ; S O I L S
TAXONOMY: T R I T I C U N A E S T I V O N ; N I C C T I A N A T A B A C U H ; B R A S S I C A OLERACEA C A P I T A T A ; FAGOPYRUH ESCULENTUM
7 3 1 S t u d y o f S o i l A l g a e P a r t 7 A d s o r p t i o n o f H e r b i c i d e s i n S o i l a n d P r e d i c t i o n o f T h e i r R a t e o f A p p l i c a t i o n b y A l g a l M e t h o d s
P i l l a y A . R . ; T c h a n , Y . T .
P l a n t S o i l 3 6 ( 3 ) . 5 7 1 - 5 9 4 ; 1 9 7 2
U H E A T - M ; D I I J R O N ; NEBURON; MONUROH; A T R A T O N E ; A T R A Z I N E ; S I H A Z I N B ; ; T O X I C I T Y ; B I O L O G I C A L - C H E M I C A L NEED C O N T R O L ; H E R B I C I D E A P P L I C A T I O N ; S O I L S ; A L G A E ; A D S O R P T I O N
732 O e t e r n i n a t i o n o f A q u i f e r D i f f u s i v i t y f r o a A g u i f e r R e s p o n s e t o F l u c t u a t i o n s i n R i v e r s t a g e
P i n d e r , G . P . ; B r e d e h o e f t , J . D . ; C o o p e r , H . H . , J r . ; U . S . G e o l o g i c a l S u r v e y , W a s h i n g t o n , D . C . 2 0 2 4 2
H a t e r R e s o u r c e s R e s e a r c h , 5 ( 4 ) , e50-855; 1 9 6 9 , A u g u s t
D I F F U S I V I T Y ; A C O I P E R S ; S T A G E HYDRCGRAPH; R I V E R S ; M O D E L I N G ; P U M P I N G T E S T A H A L Y S I S
7 3 3 P e s t i c i d e - S e d i a e n t - W a t e r I n t e r a c t i o n s
P i o n k e , H . B . ; C h e s t e r s , G . ; S o i l W a t e r C o n s e r . R e s . D i v . , A g r i c . R e s . S e r v . , C h i c k a s h a , O k l a
J . E n v i r o n . Q u a l . ( J E V Q A A ) 2 ( 1 ) 2 5 - 4 5 ; 1 9 7 3
R E V I E W ; P E S T I C I D E S ; S E D I M E N T S ; WATER
7 3 4 L e a c h i n g o f S t r o n t i u a - 9 0 f r o a S o i l b y S u r f a c e W a t e r
P i s a r e v , V . ; I n s t , o f A p p l i e d G e o p h y s i c s , H o s c o
S o v . S o i l S c i . ( E n g l . T r a n s l . ) - 4 - D o . 2 , 1 9 3 - 2 0 1 ; 1 9 7 2
GROUND W A T E R ; . L E A C H I N G ; R A D I O N U C L I D E M I G R A T I O N ; S O I L S ; S T R O N T I U M 9 0 ; S O R F A C E W A T E R S ; RAINWATER
7 3 5 O s e o f F a l l o u t C e s i u a 1 3 7 a s a T r a c e r t o D e f i n e t h e R e c e n t D e l t a i c F a c i e s o f a R i v e r
P l a t o , P . ; G o l d a a n , G .
R a d i a t . D a t a R e p . , 1 3 , N o . 1 2 , 6 5 3 - 6 5 7 ; 1 9 7 2 , D e c e m b e r
C E S I U M 1 3 7 ; F A L L O O T ; L A K E S ; R I V E R S ; S E D I M E N T S ; T R A C E R T E C H N I Q U E S
7 3 6
M a n i p u l a t a b l e T e r r e s t r i a l E c o s y s t e a s
P i a t t , R . B . ; H c C o r a i c k , J . F .
E c o l o g y , 4 5 ( 3 ) p p . 6 4 9 - 6 5 0 ; 1 9 6 4 , S u a a e r
T E R R E S T R I A L E C O S Y S T E M S ; OUTCROP C O M M U N I T I E S
7 3 7 A d s o r p t i o n a n d C o n c e n t r a t i o n o f D i s s o l v e d C a r b o n - 1 4 DDT b y c o l o r i n g C o l l o i d s i n S u r f a c e W a t e r s
P o i r r a i e r , M . A . ; B o r d e l o n , B . R . ; L a s e t e r , J . L . ; D e p . E i o l . S c i . , L o u i s i a n a S t a t e O n i v . , R e v O r l e a n s , LA
E n v i r o n . S c i . T e c h n o l . ( E S T H A G ) , 6 ( 1 2 ) 1 0 3 3 - 5 ; 1 9 7 2
A D S O » E T I O N ; C O N C E N T R A T I O N ; S O R F A C E WATER; D D T ; C O L L C I D S ; O R G A N O C H L O R I N E ; WATER; I N S E C T I C I D E S
7 3 8 P e s t i c i d e s i n S o i l : S o i l P e r s i s t e n c e o f F u n g i c i d e s , E x p e r i a e n t a l D e s i g n , S a a p l i n g , C h e n i c a ? A n a l y s i s a n d S t a t i s t i c a l E v a l u a t i o n
P o l z i n , W . J . ; B r o u n , I . P . , J r . ; M a n t h e y , J . A . ; P r o b s t , G . w .
P e s t i c , M o n i t , J . , 4 ( 4 ) , 2 0 9 - 2 1 5 ; 1 9 7 1
P E S T I C I D E S ; P E R S I S T E N C E ; F U N G I C I D E S ; E X P E R I M E N T A L D E S I G N ; S A M P L I N G ; C H E M I C A L A N A L Y S I S ; S O I L S ; S T A T I S T I C S
393 7 I I
739 E x p e r i m e n t a l S t u d i e s o f t h e T u r n o v e r o f P h o s p h a t e i n M a r i n e E n v i r o n m e n t s
Poaeroy, L .
P a r t o f S c h u l t z , V- ( E d . ) / K l o a e n t , A . I f . ( E d . ) , R a d i o e c o l o g y , R e i n h o l d C o m p a n y , N Y , a n d A I B S , H a s h i n g t o n , DC ( p . 1 6 3 - 1 6 6 ) ; 1 9 6 3
T U R N O V E R ; P H O S P H A T E ; MARINE E C O S Y S T E H ; R A D I O B C O L O G Y ; A Q U A T I C E C O S Y S T E H S
7 4 0 N u t r i e n t F l u x i n E s t u a r i e s
P o m e r o y , L . ; S h e n t o n , L . R . ; J o n e s , R . D . H . ; R e i m o l d , R . J .
P a r t o f L i k e n s , G . E . ( E d . ) , N u t r i e n t s a n d E u t r o p h i c a t i o n : T h e L i m i t i n g - N u t r i e n t C o n t r o v e r s y , S y m p o s i u m S e r i e s , A n e r i c a n S o c i e t y o f L i m n o l o g y a n d o c e a n o g r a p h y , A l l e n P r e s s ( p . 2 7 4 - 2 9 2 ) ; 1 9 7 2
E S T U A R I E S ; N U T R I E N T S ; E U T R O P H I C A T I O N
7 4 1 T h e E x c h a n g e o f P h o s p h a t e B e t v e e n E s t u a r i n e R a t e r a n d S e d i m e n t s
P o m e r o y , L . ; S m i t h , E . E . ; G r a n t , C . M .
L i m n o l o g y a n d O c e a n o g r a p h y , 1 0 , 1 6 7 - 1 7 2 ; 1 9 6 5
EXCHANGE; P H O S P H A T E ; S E D I M E N T S ; HATER; E S T U A R I E S
7 4 2 : B i o l o g i c a l E f f e c t s o n S e d i m e n t - H a t e r N u t r i e n t I n t e r c h a n g e . . • <
Porcella, D.B.; Kumagai, J.S.;.Hiddiebrooks, E.J.
J o u r n a l o f S a n i t a r y E n g i n e e r i n g D i v i s i o n , A S C E , 9 6 , 9 1 1 - 9 2 6 ; 1 9 7 0
SEDIMENTS; NUTRIENTS; HATER; EXCHANGE
7 4 3 I m p o r t a n c e o f E l e c t r o l y t e i n t h e D e t e r m i n a t i o n o f M o l e c u l a r H e i g h t s b y ' S e p h a d e x * G e l F i l t r a t i o n w i t h S p e c i a l R e f e r e n c e t o H u m i c A c i d
P o s n e r , A . M .
N a t u r e , 1 9 8 , 1 1 6 1 - 1 1 6 3 ; 1 9 6 3
MOLECULAR H E I G H T S ; S E P H A D E X ; GEL F I L T R A T I O N ; H U H I C A C I D S
7 4 4 E x p e r i a e n t a l S t u d y o f t h e P h o s p h o r u s C y c l e i n F e r t i l i z e d s a l t W a t e r
P r a t t , D . H .
J o u r n a l o f H a r i n e L a b o r a t o r y , 9 ( 1 ) , 2 9 - 5 4 ; 1 9 5 0
P H O S P H O R U S ; S A L T W A T E R ; C Y C L I N G ; A S S I M I L A T I O N ; F E R T I L I Z A T I O N ; P H Y T O P L A N K T O N ; N I T R A T E ; P H O S P H A T E ; GROWTH; R E G E N E R A T I O N
399 N i t r a t e i n D e e p S o i l P r o f i l e s i n R e l a t i o n t o F e r t i l i z e r R a t e s a n d L e a c h i n g V o l u m e
P r a t t , P . F * ; J o n e s , W . W . ; H u n s a k e r , V . E .
J . E n v i r o n . Q u a l . 1 ( 1 ) , 9 7 - 1 0 2 ; 1 9 7 2
C I T H U S - D ; N I T R O G E N B A L A N C E ; WATER T R A N S I T T I M E ; F E R T I L I Z E R S ; L E A C H I N G ; N I T R A T E ; S O I L P R O F I L E S ; F E R T I L I Z E R R A T E S ; L E A C H I N G VOLUME
7 4 6 B r i t i s h I s l e s C o a s t a l W a t e r s . T h e C o n c e n t r a t i o n s o f S e l e c t e d H e a v y M e t a l s i n S e a W a t e r S u s p e n d e d M a t t e r a n d B i o l o g i c a l i n d i c a t o r s . A P i l o t S u r v e y
P r e s t o n , A . ; J e f f e r i e s , D . F . ; D u t t o n , J . w . R . ; H a r v e y , B . R . ; S t e e l e , A . K .
E n v i r o n . P o l l u t . , 3 ( 1 ) , 6 9 - 8 2 ; 1 9 7 2
S E A W E E D S ; ATOMIC A B S O R P T I O N S P E C T R O P H O T O M E T R Y ; CADMIUM; C O A S T A L W A T E R S ; HEAVY M E T A L S ; B I O I H O I C A T O R S
7 4 7 B e h a v i o r o f w a s t e R a d i o n u c l i d e s i n S o i l — P l a n t S y s t e a s
P r i c e , K .
B N S L - - 1 7 5 0 ( P t . 2 ) , p p 2 . 4 - 2 . 7 ; 1 9 7 3 , M a r c h
A C E T A T E ; A C T I N I D E C O M P L E X E S ; AMERICIUM C O M P O U N D S ; A M E R I C I U M 2 4 1 ; C I T R A T E S ; C U R I U M COMPOUNDS; C U R I U M 2 2 4 ; D I F F U S I O N ; G L Y C O L I C A C I D ; HAPO; NEPTUNIUM COMPOUNDS; N E P T U N I U M 2 3 7 ; N I T R A T E S ; O X A L A T E S ; P L A N T S ; PLUTONIUM COMPOUNDS; P L U T O N I U M 2 3 9 ; R A D I O A C T I V E WASTE D I S P O S A L ; R A D I O M E T R I C A N A L Y S I S ; R A D I O N U C L I D E K I N E T I C S ; R A D I O N U C L I D E M I G R A T I O N ; S A L T S ; S A M P L E P R E P A R A T I O N ; S O I L S ; T I S S U E S ; UPTAKE
7 4 8
T r a n s u r a n i c E l e m e n t s i n S o i l s , P l a n t s , a n d A n i a a l s
P r i c e , K .
J . E n v i r o n . Q u a l . , 2 ( 1 ) , 6 2 - 6 6 ; 1 9 7 3
E L E M E N T S ; P L A N T S ; A M E R I C I U M ; A N I M A L S ; C H E L A T E S ; C U R I U M ; N E P T U N I U M ; P L A N T S ; P L U T O N I U M ; R A D I G E C O L O G I C A L C O N C E N T R A T I O N ; R A D I O N U C L I D E M I G R A T I O N ; R E V I E W S ; S O I L S ; T E R R E S T R I A L E C O S Y S T E M S ; T I M E D E P E N D E N C E ; TRANSURANIUM E L E M E N T S ; UPTAKE
7 4 9 T r a c e M e t a l A c c u m u l a t i o n b y E s t u a r i n e M o l l u s k s
P r i n g l e , B . H . ; H i s s o n g , D . E . ; K a t z , E . L . ; M u l a v k a , S . T .
J . s a n i t a r y E n g i n e e r , A m r . S o c o f C i v i l B n g . , D i v . 9 4 S A 3 , 4 5 5 - 4 7 5 ; 1 9 6 8
A N I M A L S ; M O L L U S C S ; Z I R C ; L E A D ; N I C K E L ; C O B A L T ; I R O N ; MANGANESE; C O P P E R ; CADMIUM; C H R O M I U M ; S E L E C T I V I T Y ; U P T A K E ; T I S S U E S ; B I O A C C U M U L A T I O N ; E S T U A R I E S ; S I M U L A T I O N ; S E A WATER
75 1013
7 5 0 M i c r o b i a l D e g r a d a t i o n o f H y d r o c a r b o n s i n C o n t i n u o u s C u l t u r e
P r i t c h a r d , P . H . ; S t a r r , T . J . ; C h a i n g , J . ; K e p h a r t , P . P .
A b s t r . A n n u . M e e t A n . S o c . M i c r o b i o l . , 7 3 , 1 8 t t ; 1 9 7 3
DEGRADATION; HYDROCARBONS; CONTINDOOS CULTURE; MICROORGANISMS
7 5 1 E f f e c t o f H u m u s c o n t e n t a n d c o m p o s i t i o n o n S t r o n t i u m - 9 0 M o b i l i t y i n S o i l
P r o k h o r o v , V . ; F r i d , A .
S o v . S o i l S c i . ( E n g l . T r a n s l . ) - 4 - N o . 3 , 3 3 3 - 3 4 0 ; 1 9 7 2
D I F F U S I O N ; H U M I C A C I D S ; HUMUS; R A D I O N C O C L I D B M I G R A T I O N ; S O I L S ; S T R O N T I U M 9 0 ; T R A N S P O R T
7 5 2 U p t a k e o f M e t a l I o n s b y L i c h e n s . M o d i f i e d I o n - E r c h a n g e P r o c e s s
P u c k e t t , K . J . ; N e i b o e r , E . ; G o r z y n s k i , M . J . ; R i c h a r d s o n , D . H . ; D e p . B i o l . , L a u r e n t i a n U n i v . , S u d b u r y , o n t .
New P h y t o l . ( N E P H A V ) 7 2 ( 2 ) 3 2 9 - 4 2 ; 1 9 7 3
METAL I O N ; U P T A K E ; L I C H E N S ; EXCHANGE P R O C E S S ; I O N EXCHANGE
7 5 3
R a d i o n u c l i d e T r a n s p o r t i n a n A g u a t i c M o d e l S y s t e m
P u r u s h o t h a m a n , K .
P a r t o f H e m p h i l l , D e l b e r t D . ( E d . ) , T r a c e S u b s t a n c e s i n E n v i r o n m e n t a l H e a l t h . I V . C o l u m b i a , MO. - U n i v e r s i t y o f M i s s o u r i ( 1 7 4 - 1 8 5 ) ; 1 9 7 1
T R A N S P O R T ; A Q U A T I C E C O S Y S T E M S ; C E S I U M 1 3 7 ; C L A Y S ; C O N T A M I N A T I O N ; H O C K U P ; POWER R E A C T O R S ; R A D I O A C T I V E W A S T E S ; M I G R A T I O N ; R A D I O N U C L I D E S ; R I V E R S ; S T R O N T I U M 8 5 ; WASTE D I S P O S A L ; WATER; MODEL ECOSYSTEM
7 5 4 R e s e a r c h o n S o r p t i o n o f t h e R a d i o n u c l i d e s S t r o n t i u m - 8 5 , C e s i u m - 1 3 7 a n d I o d i n e - 1 3 1 b y U n c o n s o l i d a t e d S e d i m e n t s
P u s c h m a n n , H .
D e u t . G e v a s s e r k M i t t , 1 4 ( 3 ) , 6 3 - 7 2 ; 1 9 7 0
S O R P T I O N ; R A D I O N U C L I D E S ; S E D I M E N T S ; I O D I N E 1 3 1 ; S T R O N T I U M 8 5 ; C E S I U M 1 3 7
7 5 5 P l a n t O p t a k e o f S o i l a n d A t m o s p h e r i c L e a d i o S o u t h e r n C a l i f o r n i a
R a b i n o v i t z , H . ; I n s t . G e o p h y s . , U n i v . C a l i f o r n i a , L o s A n g e l e s , C a l i f .
C h e m c s p h e r e ( C H S H A F ) 1 ( 4 ) , 1 7 5 - 8 0 ; 1 9 7 2
O P T A K E ; L E A D ; A I R ; P L A N T S ; O A T S ; L E T T U C E ; S O I L S
7 5 6 U p t a k e a n d D i s t r i b u t i o n o f L e a d b y R a n g e P l a n t s i n a l e a d C o n t a m i n a t e d A r e a
R a i n s , D . W .
P l a n t P h y s i o l 4 7 ( S U P P L ) . 8 ; 1 9 7 1
C E L L U L O S E F R A C T I O N C O M P L E X I N G ; P L A N T S ; U P T A K E ; D I S T R I B U T I O N ; L E A D ; RANGE P L A N T S
7 5 7 S o i l S y s t e m s f o r M u n i c i p a l E f f l u e n t s . A W o r k s h o p a n d S e l e c t e d R e f e r e n c e s ; C l e a n W a t e r R e p t .
R a m s e y , R . H . ; W e t h e r i l l , C . R . ; D u f f e r , H . C . ; E a s t C e n t r a l S t a t e C o l l . , A d a , O k l a . S c h o o l o f E n v i r o n m e n t a l S c i e n c e
E a s t C e n t r a l S t a t e C o l l . , A d a , O k l a . S c h o o l o f E n v i r o n m e n t a l S c i e n c e ; PB 2 1 7 8 5 3 ; M o n i t o r i n g A g e n c y R e p t N o . E P A - 1 6 0 8 0 - G W F - 0 2 / 7 2 ; P r o j . E P A - 1 6 0 8 0 - G W F ; 6 0 p . ; 1 9 7 2 , F e b r u a r y
SEWAGE D I S P O S A L ; I R R I G A T I O N ; B I B L I O G R A P H I E S ; P E R C O L A T I O N ; L I Q U I D WASTE D I S P O S A L ; S E W A G E ; I R R I G A T I O N ; WASTE WATER R E U S E ; E P A L
7 5 8 S o i l O r g a n i c M a t t e r - M e t a l C o m p l e x e s : 5 . R e a c t i o n s o f z i n c w i t h M o d e l c o m p o u n d s a n d K u m i c A c i d
R a n d h a w a , N . S . ; B r o a d b e n t , F . E .
S o i l S c i e n c e , 9 9 , 2 9 5 - 3 0 0 ; 1 9 6 5
O R G A N I C M A T T E R ; C O M P L E X E S ; Z I N C ; H U M I C A C I D S
7 5 9 R o l e o f Q u i n o n e G r o u p s i n S o l u b i l i t y a n d C o m p l e x i n g o f M e t a l s i n S e d i m e n t s a n d S o i l s .
R a s h i d , M . A .
C h e m i c a l G e o l o g y , 9 , 2 4 1 - 2 4 8 ; 1 9 7 2
Q U I N O N E G R O U P S ; S O L U B I L I T Y ; C O M P L E X I N G ; M E T A L S ; S E D I M E N T S ; S O I L S • .
7 6 0 C o n t r i b u t i o n o f R u n i c S u b s t a n c e s t o t h e C a t i o n E x c h a n g e C a p a c i t y o f D i f f e r e n t M a r i n e S e d i m e n t s
R a s h i d , N . A .
M a r i t i m e S e d i m e n t s , 5 , 4 4 - 5 0 ; 1 9 6 9
HUMIC S U B S T A N C E S ; C A T I O N ; EXCHANGE C A P A C I T Y ; MARINE E C O S Y S T E M S ; S E D I M E N T S
987 76
7 6 1 P r o d u c t i o n o f N a r i n e Z o o p l a n k t o n w i t h F e r t i l i z a t i o n i n a n E n c l o s e d B o d y o f S e a H a t e r
R a y a o n t , J . R . 6 . ; M i l l e r , R . S .
I n t . R e v n e g e s . H y d r o b i o l . , 4 7 ( 2 ) , 1 6 9 - 2 0 9 ; 1 9 6 2
P R O D U C T I O N ; MARINE Z O O P L A N K T O N ; F E R T I L I Z A T I O N ; SEA H A T E R ; T E M P E R A T U R E ; S A L I N I T Y ; L I G H T ; P H ; P H O S P H A T E ; P H Y T O P L A N K T O N ; ZOOPLANKTON S U C C E S S I O N
TAXONOMY: C E N T B O P A Y E S HAMATUS; TEMORA L O N G I C O R N I S ; OITHONA S I V I L I S ; 0 I T H 0 N A B R E V I C O R N I S ; PARACALANUS C R A S S I R O S T R I S ; EURYTEWORA H E R D M A N I ; EURYTEHORA H I R O N D O I D E S ; AVARTIA LONSA
7 6 2 B i o a c t i v i t y a n d P e r s i s t e n c e o f S c a e New I n s e c t i c i d e s i n a M i n e r a l S o i l
R e a d , D . C . ; R e s . S t r . . , C a n a d a A g r i c . , C h a r l o t t e t o w n , P r i n c e E d w a r d I s l a n d
J . E c o n . E n t o a o l . ( J E E N A I ) 6 4 ( 4 ) , 8 0 0 - 4 ; 1 9 7 1
N ( 0 0 6 ) P R O P O X O R ; N ( 0 1 2 ) Z I N O P H O S ( I ) ; N ( 0 0 6 ) B A Y 3 7 2 8 9 ; K ( 0 1 2 ) C H L O R F E N V I N P H O S ; N (018)DYFONATE(II) ; N(012)DASANIT; N ( 0 0 6 ) C A R B O F U R A N ; T O X I C I T Y ; R E S I D U E S ; I N S E C T I C I D E S ; B I O A C T I V I T Y ; P E R S I S T E N C E ; S O I L S ; P H O S P H O N O T H I O A T E ; P H O S P H O R O T H I O A T E ; S E A S O N A L V A R I A T I O N S
7 6 3 B i o a s s a y s o n t h e A c t i v a t i o n a n d D e a c t i v a t i o n o f S o a e N e w I n s e c t i c i d e s i n a n i n e r a l S o i l a n d A b s o r p t i o n o f T o x i c c o a p o n e n t s b y R u t a b a g a s
R e a d , D . C . ; R e s . S t n . , C a n a d a A g r i c . , C h a r l o t t e t o w n , P r i n c e E d w a r d I s l a n d
J . E c o n . E n t o a o l . ( J E E N A I ) , 6 4 ( 4 ) , 7 9 6 - 8 0 0 ; 1 9 7 1
I N S E C T I C I D E S ; C A B B A G E S ; MAGGOT; R U T A B A G A S ; P H O S P H O R O T H I A T E ; P H O S P H O N O T H I O N A T E ; C A R B O F O R A N ; MINERAL S O I L ; S O I L S ; B I O A S S A Y ; I N S E C T I C I D E A C T I V A T I O N
7 6 4 R a d i o s t r o n t i u a U p t a k e i n B l o o d a n d F l e s h i n B l u e g i l l s
R e e d , J . R . ; N e l s o n , D . J . ; R a d i a t i o n E c o l o g y S e c t i o n , H e a l t h P h y s i c s D i v i s i o n , O a k R i d g e N a t i o n a l L a b o r a t o r y , O a k R i d g e , T e n n .
P a r t o f N e l s o n , D . J . a n d E v a n s , F . C . ( e d ) , S y a p o s i u a o n R a d i o e c o l o g y ; C O N F . 6 7 0 5 9 3 ; 1 9 6 9
B A D I O E C O L O G Y ; B I O L O G I C A L H A L F - L I F E ; R A D I O S T R O N T I U M ; U P T A K E ; B L O O D ; F L E S H ; B L U E G I L L S ; F I S H ; S T R O N T I U M
TAXONOMY: LEPOHIS HACROCHIRUS
T h e M o v e m e n t a n d I m p a c t o f P e s t i c i d e s U s e d f o r V e c t o r C o n t r o l o n t h e A g u a t i c E n v i r o n m e n t i n t h e N o r t h e a s t e r n U n i t e d S t a t e s ; P e s t i c i d e S t u d y S e r i e s 9
R e e s e , C . D . ; B e c k e r , D . L . ; A r t h u r D . L i t t l e , I n c . , C a m b r i d g e , M a s s 2 0 8 8 5 0
A r t h u r D . L i t t l e , I n c . , C a m b r i d g e , M a s s ; P B 2 1 7 8 4 3 / 2 ; c o n t r a c t D I - 6 8 - 0 1 - 0 1 2 9 ; M o n i t o r i n g A g e n c y R e p t N o . E P A - O N P - T S - 0 0 - 7 2 - 0 9 9 ; 2 3 4 p . ; 1 9 7 2 , J u l y
S A L T M A R S H E S ; P E R S I S T E N C E ; PATH OF P O L L U T A N T S ; METHOXYCHLOR; A N I H A L S ; P E S T I C I D E R E S I D U E S ; I N S E C T I C I D E S ; P E S T I C I D E S ; I N S E C T C O N T B O L ; LAN J U R I S P R U D E N C E ; S R A M P S ; D D T ; C I E L D R I N ; H A L A T H I O N ; PYBETHRUM; B I O C I D E S ; L A R V A E ; MINERAL O I L S ; A Q U A T I C B I O L O G Y ; I M P A C T ; E S T U A R I E S ; T O X I C I T Y ; B I C D E T E R I O R A T I O N ; M E T A B O L I S M ; P O B L I C H E A L T H ; D I S E A S E V E C T O R S ; P E R S I S T E N C E ; N A T E R ; ABATEMENT
TAXOHOMY: C U L I C I D A E
7 6 6 E f f e c t s o f B e t a - G a m m a R a d i a t i o n o f E a r t h w o r m s u n d e r S i m u l a t e d F a l l o u t C o n d i t i o n s
R e i c h l e , D . E . ; W i t h e r s p o o n , J . P . ; M i t c h e l l , M . J . ; S t y r c n , C . E . ; O a k R i d g e N a t i o n a l L a b . , T e n n .
P a r t o f USAEC s y m p . s e r i e s S u r v i v a l o f F o o d c r o p s a n d L i v e s t o c k i n t h e E v e n t o f N u c l e a r H a t ; C O N F - 7 0 0 9 0 9 ( 5 2 7 - 3 4 ) . ; 1 9 7 1 , D e c e m b e r
BETA P A R T I C L E S ; B I O L O G I C A L E F P E C T S ; R A D I A T I O N ; D O S I M E T R Y ; F A L L O U T ; GAMHA R A D I A T I O N ; MOCKUP; S T R O N T I U M 9 0 ; S U R V I V A L T I M E ; YTTRIUM 9 0 ; S U R V I V A L
TAXONOMY: A N N E L I D A
7 6 7 C o a p a r a t i v e U p t a k e a n d B i o d e g r a d a b i l i t y o f DDT a n d M e t h o x y c h l o r b y A g u a t i c O r g a n i s m s
B e i n b o l d , K . ; K a p o o r , I . P . ; C h i l d e r s , H . F . ; B r u c e , W . H . ; M e t c a l f , R . L .
I l l N a t H i s t S u r v B u l l 3 0 ( 6 ) 4 0 5 - 4 1 5 ; 1 9 7 1
B I O D E G R A D A B I L I T Y ; D D T ; METHOXYCHLOR; A Q U A T I C O R G A N I S M S ; S N A I L S ; F I S H ; S U N F I S H ; G U P P I E S ; U P T A K E
TAXONOMY: D A P H N I A ; T I L A P I A
7 6 8 A c c u a u l a t i o n o f D i e l d r i n i n a n A l g a ( S c e n e d e s m u s o b l i g u u s ) , D a p h n i a m a g n a , a n d t h e G u p p y ( P o e c i l i a r e t i c u l a t a )
R e i n e r t , R . E . ; T h e U n i v e r s i t y o f M i c h i g a n , A n n A r b o r , MI 4 8 1 0 4 , USA
J . F i s h . R e s . B o a r d C a n a d a 2 9 ( 1 0 ) 1 4 1 3 - 1 4 1 8 ; 1 9 7 2
A L G A E ; I N S E C T I C I D E S ; ACCUMULATION; D I E L D R I N ; G U E P I B S ; F I S H
TAXONOMY: S C E N B D E S H 0 S O B L I Q U U S ; D O P H N I A MAGNA; P O I C I L I A R E T I C U L A T A
77 769;
7 6 9 A H i e r a r c h y o f M o d e l s f o r t h e B e h a v i o r o f M e r c u r y i n t h e S c o s y s t e n
R e i n i g e r , P . ; F r i s s e l , M . ; P o e l s t r a , P . ; B e e k , H .
P a r t o f W e l s h , C . N . ( E d . ) , I n t e r n a t i o n a l A t o a i c E n e r g y A g e n c y P r o c e e d i n g s S e r i e s . N u c l e a r T e c h n i q u e s i n E n v i r o n n e n t a l P o l l u t i o n . S y m p o s i u m . 8 1 0 p . U n i p u b , I n c . : New Y o r k , N . Y . , U . S . A . ( 4 0 7 - 4 1 4 ) . ; 1 9 7 1
CHROMATOGRAPHY; T R A N S P O R T ; P R O C E S S ; S O I L S ; R A D I O A C T I V I T Y ; MERCURY; MODEL
7 7 0 M i g r a t i o n o f S u b s t a n c e s i n B r o v n F o r e s t S o i l s
R e i n t a m , L . ; R o o n a , I . ; A r v i s t o , E .
S b o r n i k N a u c h n y k h T r u d o v E s t o n s k o i S e l ' S k o k h o z y a i s t v e n n o i A k a d e m i i , 6 5 , 1 6 3 - 1 8 7 ; 1 9 7 0
S O I L S ; C A T I O N ; EXCHANGE R E S I N ; M I C B O L Y S I M E T E R ; SEASONAL V A R I A T I O N S ; HUMUS F O R M A T I O N ; T R A N S P O R T ; F O R E S T S ; S O I L S
7 7 1 M e t h o d o f S t u d y i n g t h e B i o l o g i c a l C y c l e o f E l e m e n t s i n F o r e s t s
R e m e z o v , N . P . ; F a c u l t y o f S o i l S c i e n c e , M o s c o w U n i v e r s i t y
S o v i e t S o i l S c i . , p . 5 9 - 6 7 ; 1 9 5 9
TRACE E L E M E N T S ; R E V I E W ; C Y C L E ; F O R E S T S
7 7 2 W a t e r M o v e m e n t i n a n U n s a t u r a t e d S a n i t a r y L a n d f i l l
F e m s o n , I . ; F u n g a r o l i , A . A . ; L a w r e n c e , A . W . ;
P r o c e e d i n g s o f t h e A m e r i c a n S o c i e t y o f c i v i l E n g i n e e r s , J o u r n a l o f t h e S a n i t a r y E n g i n e e r i n g D i v i s i o n , 9 4 ( S A 4 ) , 3 0 7 - 3 1 7 ; 1 9 6 8 , A p r i l
WATER MOVEMENT; SANITARY L A N D F I L L ; NUMERICAL S O L U T I O N S ; M O D E L I N G ; T R A N S P O R T ; L A N D F I L L ; GROUNDWATER; CONTAMINATION
7 7 3 S e l e c t i v e D i s s o l u t i o n E f f e c t s o n C a t i o n E x c h a n g e C a p a c i t y a n d S p e c i f i c S u r f a c e o f S o m e T r o p i c a l S o i l C l a y s
R e n e a u , R . B . ; F i s k e l l , J . G . A .
S o i l S c i S o c A m e r P r o c 3 4 ( 5 ) , 8 0 9 - 8 1 2 ; 1 9 7 0
S E L E C T I V E D I S S O L U T I O N ; C A T I O N ; EXCHANGE C A P A C I T Y ; S P E C I F I C S U R F A C E ; S O I L S ; T R O P I C S
7 7 4 S t a n d a r d I s o t o p e V e r s u s N i t r o g e n B a l a n c e c r i t e r i a ' : f o r A s s e s s i n g t b e E f f i c i e n c y o f N i t r o g e n S o u r c e s : - ' f o r B a r l e y
R e n n i e , R . J . ; R e n n i e , D . A . -
C a n . J . S o i l S c i . , 5 3 ( 1 ) , 7 3 - 7 7 ; 1 9 7 3
C R I T E R I A ; N I T R O G E N ; B A R L E Y ; H I T R A T E S ; AMMONIUM; U R E A ; H Y D R O L Y S I S ; P L A N T S ; UPTAKE; N U T R I E N T S ; A V A I L A B I L I T Y ; I S O T O P E S
7 7 5 v; -C h e m i c a l C h a r a c t e r i z a t i o n o f D i s s o l v e d O r g a n i c . * R a t t e r a n d i t s I n f l u e n c e o n t h e c h e m i s t r y o f R i v e r H a t e r
R e u t e r , J . H . ; P e r d u e , E . M . ; E n v i o r n a e n t a l R e s o u r c e s C e n t e r , G e o r g i a I n s t . o £ T e c h . , A t l a n t a , GA "'•'<
n R e p o r t No. E R C - 0 3 7 2 ; M o n i t o r i n g A g e n c y R e p t N o . W 7 2 - 1 0 7 0 7 , OWRR-A - 0 2 6 - G A ( 1 ) ; P r o j . O N R R - A - 0 2 6 - G A , 4 1 p . ; 1 9 7 2 , May
HUMIC A C I D S ; CHROMATOGRAPHY A N A L Y S I S ; MOLECULAR W E I G H T ; CARBOXYLIC A C I D S ; P H E N O L S ; P H ; I N F R A R E D S P E C T R A ; AMINO A C I D S ; NUCLEAR MAGNETIC R E S O N A N C E ; F U L V I C A C I D S ; GEL PERMEATION CHROHATOGRAPHY; R I V E R S ; ORGANIC COMPOUNDS; WATER
7 7 6 R e d i s t r i b u t i o n o f F e r t i l i z e r S a l t s i n S o i l C o l u m n s A f t e r L e a c h i n g v i t h W a t e r
R h o a d s , F . N .
S o i l C r o p S c i S o c F l a P r o c 3 0 , 2 9 8 - 3 0 4 ( R e e d 1 9 7 2 ) ; 1 9 7 1
P O T A S S I U M ; I O N MOVEMENT; F E R T I L I Z E R S ; S O I L COLUMNS; L E A C H I N G ; F E R T I L I Z E R S A L T S ; S O I L S
7 7 7 F a t e o f C a r b o n - 1 4 - L a b e l e d C h l o r o n e b i n P l a n t s a n d S o i l s
R h o d e s , R . C . ; P e a s e , H . L . ; B r a n t l e y , R . K . ; I n d . B i o c h e m . D e p . , E . I . Du P o n t De N e m o u r s a n d C o . , I n c . , W i l m i n g t o n , D e l .
J . A g r . F o o d C h e m . ( J A F C A U ) , 1 9 ( 4 ) , 7 4 5 - 9 ; 1 9 7 1
CHT.ORONEB; F U N G I C I D E S ; P L A N T S ; S O I L S ; METABOLISM; C A E B C S 1 4 ; TRACERS
7 7 8 A p p l i c a t i o n o f T h e r m a l A t o m i z a t i o n t o t h e D e t e r m i n a t i o n o f a V a r i e t y o f T r a c e E l e m e n t s i n s o i l s a n d R o c k s
R i a n d e y , C . ; P i n t a , M . ; L a b . S p e c t r o g r . , O r s t o m , B e n d y , F r .
A n a l u s i s , 2 ( 3 ) , 1 7 9 - 1 8 5 ; 1 9 7 3
S O I L S ; A N A L Y S I S ; TRACE E L E M E N T S ; R O C K S ; CHROMIUM; S I L V E R ; C O P P E R ; L E A D ; Z I N C ; ATOMIC A B S O R P T I O N ; A T C M I Z A T I O N ; GEOLOGY; THERMAL A T O M I Z A T I O N ; D E T E R M I N A T I O N
i
983 78
7 7 9 U p t a k e a n d M e t a b o l i s m o f DDT b y S i x S p e c i e s o f M a r i n e A l g a e . .
R i c e , C . P . ; S i k k a , B . C . ; L i f e . S c i . D i v . , S y r a c u s e U n i v . R e s . C o r p . , S y r a c u s e , NY
J . A g r . P o o d C h e m . ( J A G C A U ) , 2 1 ( 2 ) , 1 4 8 - 5 2 ; 1 9 7 3
D D T ; M E T A B O L I S M ; M A R I N E ; A L G A E ; I N S E C T I C I D E S ; UPTAKE .
7 8 0 F a t e o f D i e l d r i n i n s e l e c t e d S p e c i e s o f M a r i n e A l g a e
R i c e , C . P . ; s i k k a , B . C . ; L i f e S c i , D i v . , S y r a c u s e U n i v . R e s . C o r p . , S y r a c u s e , NY
B u l l . E n v i r o n . C o n t a m . T o x i c o l . ( B E C T A 6 ) , 9 ( 2 ) , 1 1 6 - 1 2 3 ; 1 9 7 3
D I E L D R I N ; A L G A E ; M E T A B O L I S M ; MARINE ALGAE; B I O A C C U M U L A T I O N ; PHYTOPLANKTON
TAXONOMY: SKELETONEMA C O S T A T U B ; T E T R A S E L M I S C H U I I ; C Y C L O T E L L A NANA; I S O C H R Y S I S G A L B A N A ; O L I S T H O D I S C U S L U T E U S
7 8 1 U p t a k e , A c c u m u l a t i o n a n d L o s s o f R a d i o a c t i v e C e r i u m - 1 4 4 b y M a r i n e P l a n k t o n i c A l g a e
R i c e , T . R . ; W i l l i s , V . M .
L i m n o l . O c e a n o g r . 4 , 2 7 7 - 2 9 0 ; 1 9 5 9
L O S S ; U P T A K E ; C E R I U M 1 4 0 ; A L G A E ; SEA WATER; B I O A C C U M U L A T I O N ; S A L T W A T E R ; PLANKTON
TAXONOMY: N I T Z S C H I A C L O S T E R I U M
7 8 2 R e t e n t i o n o f 3 I n s e c t i c i d e s o n D i f f e r e n t s i z e S o i l P a r t i c l e s S u s p e n d e d i n W a t e r
R i c h a r d s o n , E . M . ; E p s t e i n , E .
S o i l S c i S o c Am P r o c 3 5 ( 6 ) , 8 8 4 - 6 8 7 ; 1 9 7 1
D D T ; HETHOXYCHLOB; E N D O S U L F A N ; P E S T I C I D E S ; R E S I D U E S ; O R G A N I C M A T T E R ; P A R T I C L E S I Z E ; R E T E N T I O N : I N S E C T I C I D E S ; S O I L P A R T I C L E S
7 8 3 N o t e s o n t h e S i m u l a t i o n o f N a t u r a l A g u a t i c C o n d i t i o n s i n F r e s h - W a t e r b y t h e U s e o f S m a l l N o n - C i r c u l a t i n g B a l a n c e d A g u a r i a
R i c h a r d s o n , R . E .
E c o l o g y 1 1 ( 1 ) , 1 0 2 - 1 0 9 ; 1 9 3 0 , J a n u a r y
S I M U L A T I O N ; F R E S H W A T E R ; BALANCED A Q U A R I A ; H A T C H I N G ; R E A R I N G ; F I S H E S ; A Q U A T I C A N I h & L S ; AQUATIC E C O S Y S T E M S ; MODEL E C O S Y S T E M
987 T h e M o v e m e n t o f DDT i n F o r e s t S o i l s o l u t i o n s
Riekerk, H.; Gessel, s.p.
S o i l S c i S o c A m e r 3 2 , 5 9 5 - 5 9 6 ; 1 9 6 8
T R A N S P O R T ; F O R E S T S ; S O I L S ; L E A C H A T E S ; L Y S I M E T E R S ; G A S CHROMATOGRAPHY; D D I ; T E R R E S T R I A L E C O S Y S T E M S
7 8 5 E f f e c t s o f D i v e r s e E x p e r i m e n t a l C o n d i t i o n s o n E S R S p e c t r a o f H u m i c S u b s t a n c e s
R i f f a l d i , R . ; S c h n i t z e r , M . ; S o i l R e s . I n s t . , C a n a d a O e p . A g r i c . , O t t a w a , O n t .
G e o d e r m a , 8 ( 1 ) , 1 - 1 0 ; 1 9 7 2
E S R ; HUMIC S U B S T A N C E S ; H Y D R O L Y S I S ; E X P E R I M E N T A L C O N D I T I O N S
7 8 6 T h e C o n t r i b u t i o n o f Z o o p l a n k t o n t o t h e T u r n o v e r o f P h o s p h o r u s i n t h e E p i l i m n i o n o f L a k e s
R i g l e r , F . H . ; D e p a r t m e n t o f Z o o l o g y , U n i v e r s i t y o f T o r o n t o
C a n a d i a n F i s h C u l t u r i s t , 3 2 , 3 - 9 ; 1 9 6 4 , H a y
Z O C P L A N K T O N ; P H O S P H O R U S ; E P I L I M N I O N ; S E S T O H ; P R E D A T I O N ; T R Y P T O N ; C Y C L I N G ; L A K E S ; HYPOLUMNION
TAXONCMY: t A P H N I A MAGNA; ANABAENA
7 8 7 A T r a c e r S t u d y o f t h e p h o s p h o r u s C y c l e i n L a k e W a t e r
R i g l e r , F . H .
E c o l o g y , 3 7 , 5 5 0 - 5 6 2 ; 1 9 5 6
T R A C E R S ; P H O S P H O R U S ; C Y C L E ; LAKES
7 8 8 D e s i g n a n d C a l i b a r a t i o n o f a D e e p O c e a n N u c l e a r P r o b e f o r S e d i m e n t H a t e r C o n t e n t . F i n a l R e p o r t , N o v e a f c e r 1 , 1 9 6 8 - M a y 1 0 , 1 9 7 0
R i n g l e , J . C . ; B e l l , J . R . ; H u r l e y , J . L . ; O r e g o n S t a t e U n i v . , C o r v a l l i s , R a d i a t i o n C e n t e r
O r e g o n S t a t e U n i v . , C o r v a l l i s . R a d i a t i o n C e n t e r C o n t r a c t N 6 2 3 9 9 - 6 9 - C - 0 0 0 9 ; A D — 7 2 1 0 9 5 ; N C E L - C R — 7 0 . 0 1 6 ; 1 9 7 1
CADMIUM; D E S I G N ; E P I T H E R H A L N 2 U T R 0 H S ; GROUND W A T E R ; NEUTRON D E T E C T I O N ; P O R O S I T Y ; S E A ; S O I L S ; THERMAL N E U T R O N S ; H A T E R ; L I T H I U M I O D I D E S ; C A L I E R A T I O N ; MEASURING METHODS; M O I S T U R E G A G E S ; O C E A N O G R A P H Y ; R A D I O M E T R I C G A G E S ; S E D I M E N T S ; S I L T ; THERMAL P R O P E R T I E S ; NUCLEAR P R O B E ; S E D I M E N T HATEB C O N T E N T
79 1013
789 Dating Recent Reservoir Sediments
Ritchie, J.; HcHenry, J.; Gill, A.
Limnol. Oceanogr., 18(2), 25U-263; 1973, March AGE ESTIMATION; CESIUM 137; FALLOUT DEPOSITS; LAKES; SEDIMENTS; DATING; RESERVOIRS
790 Influence of the Physico-chemical Foras of Radionuclides and Stable Trace Elements in seawater in Relation to Uptake by The Marine Biosphere.
Robertson, D.E.; Battelle Pacific Northwest Labs., Richland, Nash.
Battelle Pacific Northwest Labs., Richland, Bash; BNHL-SA-1048; Contract AT(«5-1)-1830, 60 p.; 1971, September
SEA HATER; RADIOACTIVE ISOTOPES; CESIUM ISOTOPES; COBALT ISOTOPES; POOD CHAINS; IRON ISOTOPES; MANGANESE ISOTOPES; ORGANISMS; PLUTONIUM ISOTOPES; UPTAKE; CESIUM 137; COBALT 60; IRON 55; MANGANESE 5U
791 Principles of the Theory of Soil Moisture Methods of Studies of the Hater Regime of soils
Rode, A.A.
Books, 2, 287; 1969
THEORY; SOIL MOISTURE; METHODS; HATER; CLAY; SILT; DISPERSION RATIO
792 Movement of Cesiua 137 by Runoff, Erosion and Infiltration on the Alluvial Captina silt Loan
Roqovskl, A.S.; Taaura, T.; Health Physics Division, oak Ridqe National Laboratory, Oak Ridge, TN 37830
Health Physics, 11, 1333-1300; 1965
SOILS; PLANTS; TRANSPORT; MOBILITY; MEADOW; LEACHING; FALLOUT CONTAMINATION; CESIUM 137; RUNOFF; EROSION; INFILTRATION; AILUVIAL CAPTINA SILT LOAM
793 Erosional Behavior of Cesiue-137
Rogowski, A.S.; Taeura, T.; Health Physics Division, Oak Nidge National Lahcratory, Oak Ridge, TN 37830
Health Physics, 18, B67-U77; 1970
79ft Environmental nobility of Cesium 137
Rogovakl, A.S.; Tanuca* T.; Health Physics Division, Oak Ridge National Laboratory* Oak Ridge , TN 37830
Radiation Botany, 10, 35-«5; 1970
MOBILITY; CES.TUM 937; TRANSPORT; SOILS; PLANTS; MEADOW PLOTS; *UNOFP; EROSION; SAMPLING TECHNIQUES; ANALYSIS TECHNIQUES
795 Model Experiments en the Downward Migration of Artificial Radioactive Materials in Soils /
Rohledor, K.; staatliehea cheaischeit Untersuchungsjiat, Braunachwoig
Kerntechnik 15. Jahrgang Nr. 7, 301; 1973
MIGRATION: in SOILS; RADIOACTIVITY; PERCOLATION; FALLCOT; WATER; PLANTS; HUMANS; FISSION PR0P0CTSJ RADIONUCLIDES
796 Lead Uptake by Selected Tree Seedlings
Rolfe, G.L.; Dep. Forest., Univ. Illinois* tfrtana, 111.
J. Environ. Quail., 2(1), 153-157; 1973
TREES; LEAD; ABSORPTION; SOILS; PHOSPHORUS; UPTAKE
797 Persistence of Plutonium in Soil* Plants and Seal! Mammals Romncy* E.N.{ Nork, H.M.; Larson* E.W.
U.S. Gov. Res. Develop Rep. 70(7)* 163 UC1A-12-75W; 1970
RADIOLOGICAL CONTAMINATION; SOILS; PERSISTENCE; PLUTCNIUM; PLANTS; MA5JMAL5
798 The Toxicity of Endrln-Rvsistant MosqultoClsh to Eleven Species of Vertebrates
Rosato, p.; Ferguson, C.E. BicScience, 18(8), 78.1-780; 1968
TOXICITY: KOSQOITOFISH; ENDRIN RESISTANCE; RE9PIN PICKEREL; LARGEMOUTI! 0ASS; BLUEGILLS: BULLFROGS; REE-EARED TURTLES; YELLOW-BELLIED WATER SNAKES; DIAHCND-DACKED WATER SNAKES; COTTOHMOUTHS; PURPLE CRACKLES; STARLINGS: COTURNIX ^UAIL; SNAKES; FISH; 6"*t»S; TURTLES
RUNOFF: INFILTRATION; SILT LOAM; E30SI0N; CESIUM 137; TRANSPORT; SOILS; RADIONUCLIDES; EROSION INDEX
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£ C f « « t * o f C * e i » » » « t « X n a e o t i c i d B S • o A * * « y « ) U t ( * « H a d e l e c o < i y « t i i » » c « » p a t i « o n « i * * t m .
ft.tt.: ttftiv, I l l i n o i s , 8 r b * o * # i l l
m a i m * i s i P P * $ w n
t t o e e t t c o s m t « t o o T t c * m f t i , t e $ ; x t t s ^ t x c x s e s
ttoiftt«c« d o « « » « » t O n d « r tatiUUy S i u n t t d
S f t < » * « $ » * .
4 * S c i . * « » . ( J S t S H t y , l f « t 1 u s a « - s « > 9 t 1 9 7 2
R U T T : POITOTTT n « o i o « T T M I S R A I I R T « O X S T O » E
S 1 7 S t f w e f t o f P h o s p t i A t o « « s * t w r a t i a f s o l a t i o a s in c*Hon e x c b s n ^ o C * p « e i t y O s t o r a i n a e i o i a s
S c h a t s « h « * P r a t t * p . p . ; U s j o , T . ; t u r , A . 4 . ; f « c * < j t t i » . r a t a . * t J n l * . C h l l o , S a n t i a g o , c b i U
s o i l S c i . s o c . A » o r . t P c o c . ( S S A A 8 | , 3 f t ( 6 ) , 9 1 5 - 1 » | 1 9 7 2
S O U S ; C A T I O N ; E X C H A N G E C A P A C I T Y ; P H O S P H A T E S
S I C
« R t a l - o r q a n l c n a t t e r I n t e r a c t i o n s i n S o i l s a n d
S c h n t t t a c .
P « t t o f f a a s l , S . J . ( E d . ) , H u n t o e , J . v . ( E d . ) , O r g a n i c C o a p o a n d s i s A q u a t i c E n * i t o n » e n t o , n a c c e l o c k l m t , N e w y o r k , 6 3 8 p . ; 1 9 7 1
Q K G A W X C C 0 1 P O O » 0 5 ; S O I I S ; « A T E N S ; A Q U A T I C E C C S f S T S N S
C o s t c i t m t I o n o f o r g a n i c n a t t e r t o t b « C a t i o n t « « H • ! * « } « C a p a c i t y o f S o i l s
K e h n l t ^ r ,
R « t u r e , 2 0 7 , 6 6 7 - 6 6 3 ; 1 9 6 5
O m d K C ; C A T I O N ; S X C N A N C C C A P A C I T Y ; S O U S
983 850
820 Organo-Mctalitc Interactions* tt.
Schni titer. «.; Skinner, s.l.M.
Soil Science, 99, 278-2*4; 1965
CftGANO-HBTALLICS; EXCHANGE
821 Organo-Motallie interactions: J.
Schnitzer, «.; Skinner, s.x.H.
Soil Seionce, 98, 197-203? 19&a
©RSAftO-flETALLICS; EXCttANGS
822 A Polarographlc Method Cor the Determination of Cacboayl Croups in Soil Hueic Coafcunda
Sshnitzer, H.j Skinner, S.I.M.; Canada Department of Agricaltuce
Soil Science, 101(2), 120-124; 1966
CARSONYL GROUPS; HUIUC COMPOUNDS; FOLAROGRAPIIY; SOILS
823 Organo-Metallic Interactions: 1.
Schnitzer, M.; Skinner, S.X.it.
soil Science, 96, 86-93; 1963
CRGANO-RETALLXCS; EXCHANGE
820 Treatability of Leachate ftoa sanitary Landfills
Schoenberger, R.4.; Fungaroli, A.A.; Steiner, B.L.; Zison, S»; Oraxel Univ., Philadelphia, PA
Proceedings "th Mid-Atlantic Industrial Haste Conference, Dept. Divil Engineering, Unive».i,ity of Delaware, pp. 411-422; 1971
LBACHATE; SANITARY LANDFILLS; AEROBIC TREATMENT
825 Field Studies on the Persistence and Movement of Difonate in soil
Sehulz, K.R.; Lichtenstein, E.P.
J. Econ Entoaol 64(1), 283-286; 1971
CARROT-D; POTATO-0; PESXDUBS; TRANSPORT; INSECTICIDES; RESIDUES; PIEL0 STUDIES; PERSISTENCE; MOVEMENT
TAXONOMY: DROSOPHXLA HELANOGASTER
987 The Investigation of the Geographical and Vertical Distribution of Several Trace elements in Saawater Using Neutron Activation Analysis
Schutt, D.P.; Turekian, K.N.
Geechiaica et Cosaochialca Acta, 29r 259-113; 1965
TBACt ELEMENTS; SEA MATER; NEUTRON ACTIVATION ANALYSIS; VERTICAL DISfRISUTION
827 CMaical and Sedlaent Movement froa Agricultural Land into Lake Erie: Project Coaptation Ropt. 1 Jul fS-30 4un 72
Schvflfc, G.c.; Mclean, f.O.; Ohio State Univ.f tolusfeun. Vater Resources Center.
Ohio state Univ., Columbus. Hater Resources Center, PB 213 192/8; Report Ho. 390X; Contract DI-la-OI-OOD1-3535; Monitoring Agency Rept No. H73-CI957, OttRR-A-OIS-OHIO (1); Pro1. OH SB-A-018-OHIO »lp.• 1972, September
MOVBRINT; DICAM8A; PARAQUAT; HSR3XCIDES; SURFACE WATER; RUNOFF; FERTILIZERS; PESTICIDES; LANE ERIE; SURFACE DRAINAGE; NUTRIENTS; ELECTRICAL RESISTIVITY; PH; BIOCHEMICAL OXYGEN DEMAND; PHOSPHORUS; NITROGEN; SEDIMENTS; LEACHING; SOIL CHCMISTRY; ALDRIN; DT8LDRIN; HEPTACHLOR; WATER
8 2 8 Release of Herbicides froa clay Minerals as a Function of Hater content Part 1: Ka--Ut»lte
Scott, H.D.; Lutz, J.F.
Soil Sci Soc Aa Proc 35(3), 374-379; 1971
HERBICIDES; KAOLIHITE; SIMAZINE; DIURON; CHLORPROPIIAM; FLUOMETUPOH 2, 4,-0; ATRAZINE; MOVEMENT; RELEASE
829 Diffusion of Selected Herbicides in Soil
Scott, H.D.; Phillips, R.E.; Kentucky Agric. Exp. stn., Lexington, KY
Soil Sci. Soc. Aaer., Proc. (SSSAA8) , 36 (5), 714-19; 1972
HERBICIDES; SOILS; DIFFUSXON; ADSORPTION; MOISTURE
830 Absorption of Herbicides by Soybean Seed
Scott, H.D.; Phillips, R.E.; Dep. Agroti., Univ. Arkaasas, Fayetteville, Arfc.
Need Sci. (NEESA6), 21 (1), 71-6; 1973
HERBICIDES; ABSORPTION; SEEDS; CHLOROPROPHAH; ATRAZINE; SOYBEANS
03 831
831 novoftant o2 Herbicides through sell to soybean Hoots
Scott, H.D.; Phillips* R.E,
Agron, 4.* 65(3), 386-390? 1973
HERBICIDES; SOYBEAN; ROOTS; CHLORPROPHAH; AT8AZINB; ABSORPTION; HA"S PLOW: PERMEABILITY; TRANSPORT; SOILS
TAXONOMY; GLYCINE HA*
832 Bioaccuaulatlon of Radioisotopes ty Microorganisms in the Sea
Seki* H*
Nippon Kaiyo Gakkalshl- 26- No. 6, 367-72; Dec. 1970
BACTERIA; MICROORGANISMS; RADIOISOTOPES; SEA; TPITTON; CARBON 14; PHOSPIIOROS 32; PLANKTON; BIOACCUH0LATION
833 Seepage Through Soil Bedding or a Hillside Due to a Steady Rainfall: I. Soil Surface of Constant Slope
Sell*, M.S.; Kickhaa, 0. Soil Sci. Soc. Amnr. Proc., 36, 402-407; 1972
SEEPAGE; SOIL BEDDING; RAINFALL; THEORETICAL SOLUTION; INFILTRATION; DRAINAGE; SLOPING LAND; POTENTIAL FLON; ORTHOGONAL EXPANSIONS
834 Toxicity and Hoveaent of Heavy Metals In Serpentinic Soils, Northeastern Portugal
Sequelra, R.K.D.
Agron Lusitana 30 (2). 115-154; 1968
NICKEL; ACCUMULATOR; WEATHERING; EROSION; TOXICITY; MOVEMENT; SOILS
TAXONOMY: ALTSSOM-SERPYLIFOLIUN-SSP-LUSITANICUH-D
835 Transport of Lead in the Environaent
Seruent, J . ; Lab. Phys. Aerossole Exchanges Ataos., Univ. Paul Safcatier, Toulous, Fr.
part of Proceedings of International Syaposiua, Environmental Health Aspects of Lead, Aasterdaa (Netherlands), Oct 2-6, 1972 (155-165); 1972
LEAD; TRANSPORT; AIR; RAIN; SURFACE HATER; TREES; PLANTS; RIVERS; CONCENTRATION; HATER
836 Hydraulic Properties of Distecbad and Undisturbed soils
S h a y k c u l c h , C . F .
Can. J. Soil Sci., 50(3), 431-437; 1970 HYDRAULIC PROPERTIES; SOILS? WATEK; CONDUCTIVITY; RETENTION; AVAILABILITY
837 Lindane Diffusion in Soil
Sbeacer, B.C.; Letey, J.J.; Parser* H.J.; Klate*
Soil sci soc Aa Proe 37(2)* 189-193; 1973
LINDANE; DIFFUSION; INSECTICIDES; HATER; AIR; SOLID INTERPHASES; TRANSFER PATHWAYS; SOILS; TRANSPORT
838 uptake and Distribution of slmazine by oat and Cotton Seedlings
Sheets, T.J.
Heeds 9(1), 1-13; 1961, January
TEMPERATURE; RELATIVE HUMIDITY; TRANSPIRATION; TRANSPORT; OATS; CORN; THERMOLABILITY; TRANSICCATXON; SIMAZINE METABOLISM; UPTAKE; SIHAZINE; DISTRIBUTION
839 Contamination of Surface and Gottnd Hater with Pesticides Applied to Cotton
Sheets* T.J.? Bradley* J.R., Jr.; Jackson* H.D.; North Carolina Nater Resources Research lest.* Raleigh
North Carolina water Resources Research last.* Raleigh; PB 210 148; Report No. UNC-NRBI-72-60* 60; Contract DI-14-31-0001-3233; Monitoring Agency Rept No. W72-09657* OHRR-A-040-NC(2); Prcj. OWRR-A-040-NC; 68 p.; 1972* April
COTTON; PLANTS; INSECT CONTROL; CHLORINE ALIPHATIC COMPOUNDS; FL0URINE ALIPHATIC COMPOUNDS; DDT; GROUND WATER; ORGANOPHOSPHOROS; ACID ESTERS; RAINFALL; BIODETERXORATION; TOXAEHESE; TRXFLURALIH; PARATHION; SURFACE HATER; INSECTICIDES; WATER; RUNOFF
840 Effects of Flooding and Drainage and Their Alternation on the Growth and Uptake of Nutrients by Rice Oryza-Sativa-Indica Cultivar IR-8
Sheikh, K.H.
J. Exp. Bot., 24(78), 64-75; 1973
FLOODING; DRAINAGE; GROHTH; UPTAKE; NUTRIENTS; RICE; PHOSPHORUS; MANGANESE; IRON; CHLOROSIS
TAXONCMY: ORYZA SATIVA INCICA
983 84
8 4 1 Uptake of Mercury by Chloralla and its Effect on Potasnium Regulation Shieh* 1.0.; Barbae* J. Planta (BERLJ 109 (1) 49-60; 1973
MEMBRANE P E R M E A B I L I T Y ; P O T A S S t U M : MERCURY; U P T A K E ; R E G U L A T I O N
TAXONOMY; CllLOB ELLA-PYRE/I01 DOS A
842 Interaction Between Irrigation and Plant Nutrition
Shiashi, 0. part of Arnon, I. (Chairman)* Proceedings of the 7th Colloquium of the International Potash Institute* Transition froa Extensive to Intensive Agriculture with Fertilizers* 282 p. International potash institute; serne* Switzerland (111-120); 1969
B?APOTRANSPIRATION; IRRIGATION; NUTRITION; FERTILIZATION; NITROGEN; UPTAKE; SOIL MOISTURE; STRESS; SOILS; PLANTS
TAXONOMY: 7.EA-HAYS-M
843 Root Cation Exchange Capacity and the Uptake of Nutrients by the Plant Shuji, H.; Fac. Agric.* Kyo»o Prefect. Univ.* Kyoto* Japan
Kyoto Furitsu Daigaku Gakujutsu Hokoku* Nogaku (KFGNAC), (24) 142-58; 1972
ROOTS; CATION EXCHANGE; CAPACITY; NUTRIENTS; UPTAKE; PLANTS; MONOCOTYLEDON; DICOTYLEDON; PLANTS
844 Sorption of Inorganic Phosphate by Lake Sediaents
Shukla* S.S.; syers* J.K.; Lillians, J.D.H.; Armstrong* D.E.; Harris* R.F.
Soil science Society of America* Proceedings* 35* 244-24 9; 1971
SORPTION; LARES; PHOSPHATE; SEDIMENTS
845 Insecticide Effects on Early Succession in an Old FiuXd Scoaystea
Shure* P. J.; Department of Zoology, Rutgers Ordversity* New Brunswick, New Jersey
Ecology 52(2), 271-279; 1971 TROPHIC RELATIONSHIPS; DIAZINON; INSECTICIDES; TERRESTRIAL ECOSYSTEMS; HERB-STRATUM ARTHROPODS; ORGANOPHOSPHATE INSECTICIDE; PHYTOTOXICITY; SOIL CONTAMINATION; SOILS; BIOMASS; RAIN; INSECTICIDE EFFECTS; SUCCESSION; OLD FIELD ECOSYSTEM;
TAXONOMY: CONVOLVULUS SPEIUM; AMBROSIA ARTEHISIIFOLIA
987 Salt Toxicity Limit and Effective Depth of Soil Dnnallnlzation by Fundamental Leaching
sld* Ko, A.A.
Soy Soli Scl (Transl, pochvoved) 4, 508; 1970
SALTS; TOXICITY LIMIT; EFFECTIVE DEPTH; DESAIINIZATION; LEACHING; COTTON; IRRIGATION; FIELD MOISTURE CAPACITY; SOILS
8«7 Binding and Precipitation of Trace Elements by Humic Substances in Natural Haters; Final Technical Rept. 1 Jul 69-30 Jun 72
Sieburth, J.M.; Rhode Island Univ., Kingston. Natragansett Marine Lab.
Rhode Island Univ.* Kingston. Narragansett Marine Leb.; PB-214 481/4; Proj OHRR-A-034-RI; Contract Dl-14-31-0001-3240; Monitoring Agency Rept No. H73-04562* OHRR-A-034RI(2); F; 27 p.; 1972
VISIBLE SPECTRA; HATER; SEA HATER; FRESHWATER; IRON; LEAD; SOURCES; CHELATION; SALINITY; OCEANOGRAPHY; TRACE ELEMENTS; HUNIC SUBSTANCES; CHEMICAL BINDING
848 Metal-Organic Interactions in the Marine Environment Siegel, A.
Part of Faust, S.J.; Hunter, J.V. (Ed.), Organic Compounds in Aquatic Environments, Marcel Dekker, New Ycrk, 638 p.; 1971
ORGANIC COMPOUNDS; AQUATIC ECOSYSTEMS; MARINE ECOSYSTEMS
849 Uptake and Metabolism of DDT and Dieldrin by Marine Algae; Annual Rept No. 1, 1 Jun 71-30 May 72
Sikka, H.C.; Rice, C.P.; Syracuse University Research Corp NY Life Sciences Div
Syracuse Univ. Research Corp, NY, Life Sciences Div.,; AD-744 034; Contract N00014-72-C-0010; 1; Proj. NR-306-050; 36 p.; 1972, June
DIELDRIN; DIHETHANONAPHTHALENES; PHYTOPLANKTON; PESTICIDES; ALGAE; MARINE BIOLOGY; DDT; INSECTICIDBS; METABOLISM; ABSORPTION; PLANKTON; UPTAKE
850 Cation Exchange Capacity of Soils
Siakins, C.A.; Grava, J.; Overdahl, C.J.; Fenster, W.E.
Univ. Minn Agric Ext Serv Spec Rep 24. 93-96; 1973
ORGANIC MATTER; CLAYS; FERTILITY; CATION; EXCHANGE CAPACITY; SOILS
85 1013
851 Applications of Anion Exchange paper in Soil phophorus Studies
Sinclair, A.G.
Soil Sci., 112(3), 167-172; 1971
ANION EXCHANGE PAPER; PHOSPHORDS; PHOSPHATE DISTRIBUTION; AOTOCHROHATOGRAPHY; FERTILIZERS; SOILS; RXTRACTIOH
852 Hodel for Continuous Culture which Considers the Viability concept
Sinclair, C.G.; Toplwala, H.H.
fiiotechnol. Bioeng., 12(6), 1069-1079; 1970
MODEL; CONTINUOUS CULTURE; VIABILITY CONCEPT; BACTERIA
TAXONOMY; AEROBACTER AEROGENES
853 Interaction of carbon Dioxide Tension and Salt Concentration on Mineral Nitrogen Release in an Allophanic Soil
Singh, B.R.; Ranehiro, Y.
Soil Sci., 114(5), 401-403; 1972
CARBON DIOXIDE TENSION; SALT CONCENTRATION; NITROGEN RELEASE; ALLOPHANIC SOIL; CHEHOAUTOTROPHIC NITRIPIERS; MINERALIZATION; METABOLISM; MINERALS; NITROGEN; SOILS
854 Factors Influencing Absorption and Translocation of Pronetryne
Singh, J.N.; Basler, E.; Santelnann, P.H.; Oklahoma Agric. Exp. Stn., Oklahcan State Univ., Stillwater, Okla
Pestic. Biochem. Physiol. (PCBPBS) 2(2) 143-52; 1972 PROMETRYNE; HERBICIDES; ABSORPTION; TRANSLOCATION; TEMPERATURE
85"? Salt pickup fron Agricultural Lands in the Grand Valley of Colorado S k o g e r b o e , G.V.; Walker, w.R.
J. Environ. Quality 2(3), 377-382; 1973
SEEPAGE; PERCOLATION; AQUIFERS; AGRICULTURAL RETURN FLOWS; CONVEYANCE SEEPAGE; IRRIGATION; SALINITY; BUDGETS; WATER
856 A Test of The Uniqueness of the Soil Moisture Characteristic During Transient Honhysteretic Flow of Hater in a Rigid soil
sailes, D.B.; Vachaud, G.; vauclin, H.
Soil Sci. Soc. An. Proc., 35(4), 534-539; 1971
SORPTION; DIFFUSION THEORY; DIFFUSION; PLOW; SOILS; MOISTURE
857 Persistence of Trifluralin in Snail Field Plots as Analyzed by a Rapid Gas Chromatographic Hethod
Snith, A.E. (
J.Agric.Food Chen.,20(4),829-831; 1972
TRIFLURALIN; FIELD PLOTS; HERBICIDE RESIDUES; DETECTIOH; HERBICIDES; GAS CHROMATOGRAPHY
858 Relative Rate of Chloride Hoveaent in Leaching of Surface Soils
Snith, S.J.; Soils Lab., Agric. Res. Serv., Beltsville, HD
Soil Sci. (SOSCAK) , 114 (4), 259-63; 1972
SOILS; LEACHING; CHLORIDES; MOVEMENT
859 Evaluation of a Cheaical Index o£ Soil Nitrogen Availability
Snith, S.J.; Stanford, G.
Soil Sci., 111(4), 228-232; 1971
CHEMICAL INDEX; NITROGEN; AVAILABILITY; ANAEROBIC MINERALIZATION; AEROBIC MINERALIZATION; SOILS
860 Air Pollution-Effects on the Quality and Resilience of the Forest Ecosystems
Snith, W.H.; Yale University
Presented at 139th AAAS Meeting, Washington, DC, Dec. 26-31, 20p.; 1972
AIR; FOREST ECOSYSTEMS; FORESTS; TERRESTRIAL ECOSYSTEMS
861 Effects of Surface Area Exchange Capacity and . Organic Matter Content On Miscible Displacement of Atrazine in Soils
Snelling,K.W.; Hobbs, J.A,; Powers, H.L.
Argon J 61 (6). 875-878; 1969
HERBICIDES; MOVEMENT; CAPACITY; ORGANIC; ATRAZINE; SOILS
983 86
862 U p t a k e a n d A c c u m u l a t i o n o f c ( 1 1 ) — D D T b y c h l o r e l l a s p . ( C h l o r o p h y c e a e )
Sodergren, A.
O i k o s 1 9 / 1 2 6 - 1 3 8 . C o p e n h a g e n ; 1 9 6 8
ACCUMULATION; U P T A K E ; C ( 1 « ) - D D T ; T R A C E R S ; LABORATORY C U L T U R E S ; BATCH C U L T U R E S ; C O N T I N U O U S - F L O W C U L T U R E S ; L I Q U I D S C I N T I L L A T I O N ; A B S O R P T I O N ; D I F F U S I O N ; CARBON 1 U ; AGGLOMERATION; DDT
TAXONOMY: CHLORELLA S P . ; CHLOROPHYCEAE
8 6 3 C h e m i c a l C o m p o s i t i o n o f R a i n f a l l P a s s e d T h r o u g h B i r c h a n d S p r u c e C a n o p i e s
S o k o l o v , A . A .
L e s o v e d e n i e ( L E S O A B ) ( 3 ) 1 0 3 - 6 ; 1 9 7 2
F O R E S T S ; R A I N ; I O N S ; L E A C H I N G ; B I R C H ; S P R U C E ; T R E E S
86a I n f l u e n c e o f S o i l p H o n S u r f a c e C h a r g e a n d H a t e r T r a n s m i s s i o n
S o m m e r f e l d t , T . G . ; V a n S c h a i k , J . C .
C a n . J . S o i l S c i . , 5 1 ( 2 ) , 2 7 7 - 2 8 2 ; 1 9 7 1
P H ; C H A R G E ; WATER T R A N S M I S S I O N ; E E N T O N I T E ; LOAM; E X C H A N G E A B I L I T Y ; S O D I U M ; E L E C T R O P H O R E T I C M O B I L I T Y ; A L K A L I N E ; S O D I C R E C L A M A T I O N : S O I L S
8 6 5 M e t h y l m e r c u r y : B a c t e r i a l D e g r a d a t i o n i n L a k e S e d i m e n t s
s p a n g l e r , W . J . ; S p i g a r e l l i , J . L . ; R o s e , J . M . ; M i l l e r , H . M .
S c i e n c e , V o l . 1 8 0 , 1 9 2 - 1 9 3 ; 1 9 7 3 , A p r i l
METHYLMERCURY; B A C T E R I A L D E G R A D A T I O N ; S E D I M E N T S ; I N O R G A N I C MERCURY; GAS CHROMATOGRAPHY; MASS S P E C T R O M E T R Y ; L A K E S ; B A C T E R I A
866 v o l a t i l i t y o f DDT a n d R e l a t e d C o m p o u n d s
S p e n c e r , W . F . ; C l i a t h , M . M . ; A g r i c u l t u r a l R e s e a r c h S e r v i c e , S o i l a n d W a t e r C o n s e r v a t i o n R e s e a r c h D i v i s i o n , U n i v e r s i t y o f C a l i f o r n i a , R i v e r s i d e , CA 9 2 5 0 2
J . A g r . F o o d C h e n . , 2 0 ( 3 ) , 6 4 5 - 6 4 9 ; 1 9 7 2
D D T ; V O L A T I L I T Y ; D E G R A D A T I O N ; D D E ; VAPOR P R E S S U R E ; S O I L S
987 D e s o c p t i o n o f L i n d a n e f r o m S o i l a s R e l a t e d t o V a p o c D e n s i t y
S p e n c e r , W . F . ; C l i a t h , M . M .
S o i l S c i S o c A m e r P r o c 3 4 ( 4 ) , 5 7 4 - 5 7 8 ; 1 9 7 0
D E S O H E T I O N ; L I N D A N E ; VAPOR D E N S I T Y ; S O I L S ; I N S E C T I C I D E S ; A D S O R P T I O N ; V O L A T I L I Z A T I O N ; I S C T H E R M S
868 R e v i e w P a p e r : M e a s u r e m e n t o f P o l l u t a n t T o x i c i t y t o F i s h . I I : U t i l i z i n g a n d A p p l y i n g B i o a s s a y R e s u l t s
S p r a g u e , J . B . ; F i s h e r i e s R e s e a r c h B o a r d o f C a n a d a , B i o l o g i c a l s t a t i o n , S t . A n d r e w s , N e w B r u n s u i c k , C a n a d a
W a t e r R e s e a r c h , 4 , 3 - 3 2 ; 1 9 7 0
R E V I E W ; T O X I C I T Y ; F I S H ; B I O A S S A Y ; I N C I P I E N T L C ( 5 C ) ; C H E M I C A L A U T O P S Y ; L C 5 0
8 6 9 R e v i e w P a p e r : M e a s u r e m e n t o f P o l l u t a n t T o x i c i t y t o F i s h - I I I : S u b l e t h a l E f f e c t s a n d " S a f e " C o n c e n t r a t i o n s
S p r a g u e , J . B . ; D e p a r t m e n t o f Z o o l o g y , U n i v e r s i t y o f G u e l p h , G u e l p h , O n t a r i o , C a n a d a
W a t e r R e s e a r c h 5 , 2 4 5 - 2 6 6 ; 1 9 7 1
R E V I E W ; T O X I C I T Y ; F I S H ; S U B L E T H A L E F F E C T S ; H I S T O P A T H O L O G Y ; B I O C H E M I S T R Y ; B E H A V I O R ; R E P R O D U C T I O N ; R E S P I R A T I O N ; LABORATORY; B I O A S S A Y
8 7 0 R e v i e w P a p e r : M e a s u r e m e n t o f P o l l u t a n t T o x i c i t y t o F i s h I : B i o a s s a y M e t h o d s f o r A c u t e T o x i c i t y
S p r a g u e , J . B . ; F i s h e r i e s R e s e a r c h B o a r d o f C a n a d a , B i o l o g i c a l S t a t i o n , S t . A n d r e w s , N e w B r u n s w i c k , C a n a d a
W a t e r R e s e a r c h , 3 , 7 9 3 - 8 2 1 ; 1 9 6 9
R E V I E W ; T O X I C I T Y ; F I S H ; B I O A S S A Y ; ACUTE T O X I C I T Y L C 5 0 '
8 7 1 C o p p e r i n L y m n a e a s t a g n a l i s . I I I . u p t a k e f r o n F r e s h W a t e r a n d t h e R o l e o f t h e S h e l l
S p r o n k , N . ; T i l d e r s , F . ; V a n H o e k , R . J . ; D e p . B i o l . , F r e e U n i v . , A m s t e r d a m , N e t h .
C e m p . B i o c h e m . P h y s i o l . A ( C B P A B 5 ) 1 9 7 3 , 4 5 ( 2 ) 2 5 7 - 2 7 2
C O E P E R ; S H E L L ; U P T A K E ; D I S T R I B U T I O N ; S N A I L S ; A N I M A L S
TAX011CBY: LYHNAEA S T A G N A L I S
87 1013
8 7 2 H y g i e n i c C r i t e r i a f o r A s s e s s i n g t h e E x t e n t o f S o i l C o n t a m i n a t i o n w i t h P e s t i c i d e s
S p y n u , E . I . ; H o l o z h a n o v a , L . G ; S t e f a n s k f i , K . S .
G i g . S a n i t . , 3 5 ( 1 1 ) , 7 9 - 8 2 ; 1 9 7 0
P E S T I C I D E S ; B E E T - D ; P O T A T O - D ; C A R R O T - D ; TOMATO; C A U L I F L O W E R : C U C U M B E R ; D D T ; S E V I N ; W H E A T - M ; G R A S S ; A P P L E - D ; S O I L W A T E R ; A I R ; U P T A K E ; S O I L S
8 7 3
M y c o r r h x z a e a n d N u t r i e n t C y c l i n g i n t h e T r o p i c s
S t a r k , N . M .
M y c o r r h i z a e . S y m p o s i u m . 2 2 5 p . U . S . G o v e r n m e n t P r i n t i n g O f f i c e ; W a s h i n g t o n , D C , USA 2 2 8 - 2 2 9 ; 1 9 7 1
C Y C L I N G ; T R O P I C S ; P O R E S T S ; L I T T E R ; T R E E S ; N U T R I E N T S
TAXONOMY: MYCORRHIZAE
8 7 U N u t r i e n t C y c l i n g P a c t I : N u t r i e n t D i s t r i b u t i o n i n s o m e A m a z o n i a n S o i l s
S t a r k , N . M .
T r o p . E c o l . , 1 2 ( 1 ) , 2 4 - 5 0 ; 1 9 7 1
N U T R I E N T C Y C L I N G ; S O I L S ; L E A C H I N G ; M I N E R A L S ; C A T I O N ; EXCHANGE C A P A C I T Y ; N U T R I E N T S
8 7 5
p a r a m e t e r E s t i m a t i o n f o r A g u i f e r E v a l u a t i o n
S t e r n b e r g , Y . M .
W a t e r R e s o u r c e s B u l l e t i n , 7 ( 3 ) , 4 4 7 - 4 5 6 ; 1 9 7 1 , J u n e
LABORATORY E X P E R I M E N T S ; G E O L O G I C A I B A P S ; WELL L O G S ; F I E L D S T U D I E S ; ANALOG MODELS; A Q U I F E R E V A L U A T I O N ; GROUNDWATER
8 7 fc R o l e a n d F u n c t i o n o f H u m u s i n S o i l v i t h E m p h a s i s on A d s o r p t i o n o f H e r b i c i d e s a n d C h e l a t i o n o f M i c r o n u t r i e n t s
S t e v e n s o n , F . J . ; D e p . A g r o n . , U n i v . I l l i n o i s , U r b a n a , 1 1 1 .
B i o s c i e n c e ( B I S N A S ) , 2 2 ( 1 1 ) , 6 4 3 - 5 0 ; 1 9 7 2
R E V I E W ; HUMUS; H E R B I C I D E S ; M I C R O N U T R I E N T S ; C H E L A T I O N ; S O R P T I O N ; S O I L S
8 7 7 L o n g - t e r m P e r s i s t e n c e o f B H C , D D T , a n d C h l o r d a n e i n a S a n d y L o a m S o i l
S t e w a r t , D . K . ; C h i s h o l m , D . ; R e s . S t n . , C a n a d a D e p . A g r i c . , K e n t v i l l e , N o v a S c o t i a
C a n . J . S o i l S c i . ( C J S S A R ) 5 1 ( 3 ) , 3 7 9 - 8 3 ; 1 9 7 1
LOAM; R E S I D U E S ; I N S E C T I C I D E S ; P E R S I S T E N C E ; S O I L S ; BHC; D D T ; CHLORDANE T R A N S P O R T
8 7 8 T r i t i u m - D i s c r i m i n a t i o n a n d C o n c e n t r a t i o n i n F r e s h W a t e r M i c r o c o s m s
S t e w a r t , M . L . ; R o s e n t h a l , G . N . ; K l i n e , J . R . ; A r g o n n e N a t i o n a l L a b . , 1 1 1 .
P a i t o f P r o c . T h i r d N a t i o n a l s y m p . R a d i o e c o i o g y , M a y 1 0 - 1 2 , 1 9 7 1 , O a k R i d g e , T e n n e s s e e ; C O N F 7 1 0 5 0 1 ( 4 5 2 - 4 5 9 ) ; 1 9 7 1
T R I T I U M ; M I C R O C O S M S ; B I O C O N C E N T R A T I O N ; D I S C R I M I N A T I O N ; F R E S H W A T E R ; MICROCOSMS
8 7 9 B o d y C o n d i t i o n a n d R e s p o n s e t o P e s t i c i d e s i n W o c d c c c k s
S t i c k e l , W . H . ; D o d g e , W . E . ; S h e l d o n , W . G . ; D e w i t t , J . B . ; S t i c k e l , L . F .
J . W i l d l . M g m t . 2 9 ( 1 ) , 1 4 7 - 1 5 5 ; 1 9 6 5
R E S P C N S E ; P E S T I C I D E S ; WOODCOCKS; H E P T A C H L O R ; D I E L D R I N ; B I R D S ; D D T ; E F F E C T S ; T O X I C I T Y
TAXONOMY: P H I L O H E L A MINOR
880 . W a t e r M o v e m e n t i n a P s e u d o g l e y S o i l o n s l o p e U n d e r G r a s s l a n d a n d U n d e r W o o d l a n d
S t r e b e l , o . s
Z 5 f l a n z e n e r n a e h r B o d e n k . , 1 2 7 ( 1 ) , 3 1 - 4 0 ; 1 9 7 0
W A T E R ; P S E U D O G L E Y S O I L S ; G R A S S L A N D S ; WOODLANDS; T E N S I C N E T E R S ; D E S O R P T I O N C U R V E ; S O I L S ; M O B I L I T Y ; T E R R E S T R I A L E C O S Y S T E M S
881 T h e U s e o f a D e e p T a n k i n P l a n K t o n E c o l o g y . I . S t u d i e s o f t h e G r o w t h a n d C o n u u a i t i o n o f P h y t o p l a n k t o n C r o p s a t L o v N u t r i e n t L e v e l s
S t r i c k l a n d , J . D . H . ; H o l m - H a n s e n , O . ; E p p l e y , R . W . ; L i n n , - R . J . ; I n s t i t u e o f M a r i n e R e s o u r c e s , U n i v e r s i t y o f C a l i f o r n i a , S a r i D i e g o , L a J o l l a 9 2 0 3 7
L i m n o l . O c e a n o g r . , 1 4 , 2 3 - 2 H ; 1 9 6 9
N U T R I E N T C O N C E N T R A T I O N ; C E L L D E N S I T Y ; GROWTH; M I C R O C O S M S ; A Q U A T I C E C O S Y S T E M S ; PLANKTON E C O L O G Y ; V E R T I C A L M I G R A T I O N
TAXONCMY: DITYLUM B R I G H T W E L L I ; CACHNONIA N I E I ; GONYAULAX P O L Y E D R A ; P H A E O C Y S T I S s p .
B8 2 ' I n v e s t i g a t i o n o f M e r c u r y P o l l u t a n t i n t e r a c t i o n W i t h H u r a i c A c i d s b y M e a n s o f R a d i o T r a c e r s -
S t r o h a l , P . ; H u l j e v , D .
P a r t c f W e l s h , C . N . ( E d i t e d b y ) I n t e r n a t i o n a l A t o m i c E n e r g y A g e n c y P r o c e e d i n g s S e r i e s . N u c l e a r T e c h n i q u e s i n E n v i r o n m e n t a l P o l l u t i o n . S y m p o s i u m . 8 1 0 p . I l l u s . M a p s . U n i p u b , I n c . : N e w Y o r k , N . Y . , U . S . A . 4 3 9 - 4 1 6 ; 1 9 7 1
C O A S T A L W A T E R S ; SEA WATER; S E D I M E N T S ; H E R C U R Y ; T R A C E R S ; HUMIC A C I D S
983 88
8 8 3 Q u a n t i t a t i v e M o d e l o f t h e M o v e m e n t o f W a t e r i n t h e P l a n t S o i l A t m o s p h e r e S y s t e m
S u d u i t s y r . , 1 . 1 .
S o v . * o i l S c i . . . , 2 ( 6 ) , 7 2 1 - 7 2 8 ; 1 9 7 0
MODEL; MOVEMBKTf; tfATER; foTlfOSPHERE; THJJRMO.OYVAH5CS; CONDUCTXVtt f l f C O E F F I C I E N T ; P L A N T S ; S O I L S
987 C o n t z i b u t i o n o f O r g a n i c C a r b o n a n d C l a y t o C a t i o n E x c h a n g e C a p a c i t y i n a C h r o n o S e g u e n c e o f S a n d y S o i l s
S y e r s , J . K . ; C a m p b e l l , A . S . ; W a l k e r , T . W .
P l a n t S o i l 3 3 ( 1 ) . 1 0 4 - 1 1 2 ; 1 9 7 0
S O I L S ; O R G A N I C CARBON; C L A Y S ; C A T I O N EXCHANGE C A P A C I T Y ; SANDY S O I L S
B 8 U
T r a c e E l ^ . ' M i n t s i a P l a n t s - u p t a k e a n d T r a n s l o c a t i o n
S u t . c l < * ' , T » „ ; S c h . S c i . , U n i v . S u s s e x , S u s s e i c , d f t t ^ i l .
G t . B r i t . , K i n . A g r . , P i s h . P o o d , , T e c h . B u l l . , ( 2 1 ) , 3 5 - 4 0 ; 1 9 7 1
O P T A K E ; T R A N S L O C A T I O N ; R E V I E W ; T R A C E E L E M E N T S ; P L A N T S ; T R A N S P O R T
8 8 5
U p t a k e of C o p p e r b y P a r r o t f e a t h e r - D
S u t t o n , , P . L . ; B l a c k b u r n , R . D .
W e e d S c i . 1 9 ( 3 ) , 2 8 2 - 2 8 5 ; 1 9 7 1
B O O T S ; C O P P E R ; S U L F A T E S ; P E N T A H V D R A T E ; H E R B I C I D E S ; ' P H O S P H O R U S ; GROWTH; O P T A K E ; P A R R Q T F E A T H E R - D
TAXONOMY: H Y R I O P H Y L L U H - B R A S S L I E N S E - D
886 E f f e c t o f C o p p e r o n U p t a k e o f D i q u a t - m c b y H y d r i l l a
S u t t o n , D . L . ; H a l l e r , W . T . ; S t e w a r d , K . K . ; B l a c k b u r n , R . D . ; A g r i c . R e s . C e n t . , U n i v . F l o r i d a , G a i n e s v i l l e , ? l a .
W e e d S c i . ( W E E S A 6 ) , 2 0 ( 6 ) , 5 8 1 - 3 ; 1 9 7 2
D I Q U A T ; O P T A K E ; HYDRIE.LA; C O P P E R ; H E R B I C I D E S ; A Q U A T I C P L A N T S ; P L A N T S ; CARBON 1 4
8 8 7 D i s t r i b u t i o n o f DDT a n d T o x a p h e n e i n H o u s t o n B l a c k c l a y o n T h r e e W a t e r s h e d s
S w o b o d a , A . R . ; T h o w a s , G . W . ; C a d y , F . B . ; B a i r d , R . W . ; K n i s e l , W . G . ; S o i l a n d C r o p S c i e n c e D e p a r t m e n t , T e x a s A S M U n i v e r s i t y , C o l l e g e S t a t i o n , T e x a s 7 7 6 4 3 ; D e p a r t m e n t o f A g r o n o a y ; U n i v e r s i t y o f K e n t u c k y , L e x i n g t o n , KY 4 0 5 0 6 ; USDA B l a c k l a n d s E x p e r i m e n t a l W a t e r s h e d , R i e s e l , TX 7 6 6 8 2
E n v . S c i . 5 T e c h n o l . 5 ( 2 ) , 1 4 1 - 1 4 6 ; 1 9 7 1 , F e b r u a r y
8 8 9 D i s t r i b u t i o n a n d B a c k g r o u n d L e v e l s o f M e r c u r y i n S e d i m e n t C o r e s f r o m S e l e c t e d W i s c o n s i n L a k e s
S y e r s , J . K . ; I s k a n d a t , I . K . ; K e e n e y , D . R . ; D e p . S o i l S c i . , U n i v . W i s c o n s i n , M a d i s o n , W i s .
W a t e r , A i r , S o i l P o l l u t . , 2 ( 1 ) , 1 0 5 - 1 1 8 ; 1 9 7 3
MERCURY; L A K E S ; S E D I M E N T S
8 9 0 C a t i o n E x c h a n g e P r o p e r t i e s o f H u m i c A c i d s a n d T h e i c I m p o r t a n c e i n t h e G e o c h e m i c a l E n r i c h m e n t o f U 0 2 ( 2 p l u s ) a n d o t h e r C a t i o n s
S z a l a y , A .
G e o c h i m i c a e t C o s m o c h i m i c a A c t a , 2 8 , 1 6 0 5 - 1 6 1 4 ; 1 9 5 4
C A T I O N ; E X C H A N G E ; HUMIC A C I D S ; G E O C H E M I S T R Y ; URANIUM D I O X I D E
8 9 1
T h e A s s o c i a t i o n o f V a n a d i u m w i t h H u m i c A c i d s
S z a l a y , A . ; S z i l a g y i , H .
G e o c h i m i c a e t C o s m o c h i m i c a A c t a , 3 1 , 1 - 6 ; 1 9 6 7
VANACIUM; HUMIC A C I D S
8 9 2 E x c h a n g e o f P o t a s s i u m i n S o i l s i n R e l a t i o n t o O t h e r C a t i o n s
T a l i b u d e e n , 0 .
P a r t o f I n t . P o t a s h I n s t . P o t a s s i u m i n S o i l . P r o c e e d i n g s o f t h e 9 t h C o l l o q u i u m . L a n d s h u t , W e s t G e r m a n y . 2 2 0 p . I n t e r n a t i o n a l P o t a s h I n s t i t u t e : B e r n e , S w i t z e r l a n d ( 9 7 - 1 1 2 ) ; 1 9 7 2
EXCHANGE; P O T A S S I U M ; S O I L S ; C R O P ; N U T R I E N T S ; A V A I L A B I L I T Y ; I O N EXCHANGE
D I S T R I B U T I O N ; D D T ; T O X A P H E N E ; MOVEMENT; C L A Y S ; T R A N S P O R T
89 1013
8 9 3 O p t i n u n N u t r i t i o n o f T r e e s i n F i e l d E x p e r i m e n t s a L o n g T e r a A p p r o a c h i n F o r e s t N u t r i t i o n R e s e a r c h
T a m e , C . o .
P r o c e e d i n g s o f t h e 6 t h I n t e r n a t i o n a l C o l l o g u i u a o n P l a u t A n a l y s i s a n d F e r t i l i z e r P r o b l e m s , V o l s . 1 & 2 , R e c e n t A d v a n c e s i n P l a n t N u t r i t i o n , T e l A v i v , I s r a e l ; 1 9 7 0 , M a r c h
F E R T I L I Z A T I O N ; N U T R I E N T S ; U P T A K E ; F O L I A R A N A L Y S I S ; F O R E S T S ; N I T R O G E N ; GRONTH
TAXONOMY: P I C E A A B I E S
8 9 4 C o a d s o r p t i o n o f N i t r i c O x i d e , N i t r o g e n , a n d O x y g e n O n R h e n i u m
T a m u r a , T .
B u l l . C h e a . S o c . J a p . - 4 4 - N o . 8 , 2 1 1 6 - 1 9 ; A u g 1 9 7 1
A D S O R P T I O N ; MASS S P E C T R O M E T R Y ; N I T R O G E N ; OXYGEN; R H E N I U M ; NITGOGEN O X I D E S
8 9 5 T h e E f f e c t o f S e v a g e S l u d g e o n I o n A c t i v i t y i n S o i l s
T a n , K . H . ; K i n i , L . D . ; H o r r i s , H . D .
C o u m u n S o i l s c i P l a n t A n a l 3 ( 1 ) , 1 1 - 2 2 ; 1 9 7 2
C O A S T S ; G R A S S - H ; C A L C I U M ; M A G N E S I U M ; P O T A S S I U M ; M O B I L I Z A T I O N ; L E A C H I N G ; C H E L A T I O N ; R A T I O ; LAW; M I C R O B I O L O G Y ; G R A S S E S ; D E C O M P O S I T I O N
8 9 6 A B i o l o g i c a l M o d e l o f a F r e s h v a t e r C o m m u n i t y : A G n o t o b i o t i c E c o s y s t e m
T a u b , F . B .
L i m n o l o g y a n d O c e a n o g r a p h y , 1 4 ( 1 ) , 1 3 6 - 1 4 2 ; 1 9 6 9 , J a n u a r y
G N O T O B I O T I C E C O S Y S T E M S ; P O L Y X E N I C E C O S Y S T E M S ; A X E N I C ALGAL E C O S Y S T E M S ; ALGAL D E N S I T Y ; A L G A E ; MODEL E C O S Y S T E M ; A Q U A T I C E C O S Y S T E M S ; FRESHWATER COMMUNITY
TAXONOMY: CHLAHYDOMONAS R E I N H A R D T I I ; TETRAHYMENA V O R A X ; AEROBACTER A E R O G E N E S ; PSEUDOMONAS F L U O R E S C E N S ; C Y T O P H A G I A H U T C H I N S O N I I
8 9 7 A C h l o r e l l a - D a p h n i a F o o d - C h a i n S t u d y : T h e D e s i g n o f a C o m p a t i b l e c h e m i c a l l y D e f i n e d c u l t u r e M e d i u m
T a u b , F . B . ; D o l l a r , A . M . ; C o l l e g e o f F i s h e r i e s , U n i v e r s i t y o f W a s h i n g t o n , S e a t t l e
L i m n o l o g y a n d O c e a n o g r a p h y , 9 , 6 1 - 7 4 ; 1 9 6 4
FOOD C H A I N ; I O N BALANCE; T O X I C I T Y ; P O T A S S I U M ; N I T R A T E ; S O D I U M ; C H L O R I D E ; C U L T U R E ; CULTURE MEDIUM; PLANKTON
8 9 8 p h o s p h a t e E g u i l i b r i a o n S t r e a a S e d i a e n t a n d S o i l i n a W a t e r s h e d D r a i n i n g a n A g r i c u l t u r a l R e g i o n
T a y l o r , A . W . ; K u n i s h i , H . H .
J . A g r i c . F o o d C h e a . , 1 9 ( 5 ) , 8 2 7 - 8 3 1 ; 1 9 7 1
N U T R I E N T S ; A V A I L A B I L I T Y ; M O B I L I T Y ; S E D I M E N T S ; S O I L S ; P H O S P R A T B S ; W A T E R S H E D S
8 9 9 R e t e n t i o n o f S i a u l a t e d F a l l o u t P a r t i c l e s b y L i c h e n s a n d M o s s e s
T a y l o r , F . G . ; W i t h e r s p o o n , J . P .
H e a l t h P h y s i c s , 2 3 , 8 6 7 - 8 6 9 ; 1 9 7 2
F I S S I C H P R O D U C T S ; FOOD C H A I N S ; I N T E R C E P T I O N ; R E T E N T I O N ; W E A T H E R I N G ; F A L L O U T ; M E T E O R O L O G I C A L E V E N T S ; MORPHOLOGY; A G R I C U L T U R A L C R O P S ; A R C T I C ; A L P I N E P L A N T S ; C R Y P T O G R A M S ; L I C H E N S ; H O S S E S ; C E S I U M 1 3 4 ; C O N I F E R S ; G R A S S E S ; D E C I D U O U S T R E E S ; T E R R E S T R I A L E C O S Y S T E M S
TAXONOMY: CLADONZA S U B T E N U I S ; DICRANUM S C O P A B I O M
9 0 0 I n t e r a c t i o n o f N i t r i l o t r i a c e t i c A c i d v i t h S u s p e n d e d a n d B o t t o m M a t e r i a l s
T a y l o r , J . K . ; A l v a r e z , R . ; P a u l s o n , R . ; R a i n s , T . C . ; R o o k , H . L . ; N a t i o n a l B u r e a u o f S t a n d a r d s , W a s h i n g t o n , D . C . 2 4 0 8 0 0
N a t i o n a l B u r e a u o f S t a n d a r d s , W a s h i n g t o n , D . C . 2 4 0 8 0 0 , 3 1 p W a t e r P o l l u t i o n c o n t r o l R e s e a r c h S e r i e s 1 6 0 2 0 G F B 0 7 - 7 1 E n v i r o n m e n t a l P r o t e c t i o n A g e n c y ( P r o g r e s s R e p o r t ) ; 1 9 7 1
N T A ; S U S P E N D E D M A T E R I A L ; BOTTOM M A T E R I A L ; D E T E R G E N T S ; N I T R I L O T R I A C E T I C A C I D ; WATER ; S O L U B I L I T Y ; M E T A L S ; C H E L A T I O N ; T R A C E E L E M E N T S ; S E D I M E N T S
9 0 1 T r a n s p o r t a n d D i s t r i b u t i o n o f R a d i o a c t i v e E f f l u e n t s i n C o a s t a l a n d E s t u a r i n e W a t e r s o f t h e U n i t e d K i n g d o m
T e m p l e t o n , W . L . ; P r e s t o n , A .
P a r t o f D i s p o s a l o f R a d i o a c t i v e W a s t e s i n t o S e a s , O c e a n s a n d S u r f a c e W a t e r s , I A E A , p . 2 6 7 - 2 7 8 ; 1 9 6 6
T R A N S P O R T ; D I S T R I B U T I O N ; R A D I O A C T I V E E F F L U E N T S ; E S T U A R I E S
9 0 2 A S i m p l e M e t h o d f o r P r e d i c t i n g s a l t M o v e m e n t T h r o u g h S o i l
T e r k e l t o u b , R . W . ; B a b c o c k , K . L .
S o i l S c i . , 1 1 ( 3 ) , 1 8 2 - 1 8 7 ; 1 9 7 1
MOVEMENT; S A L I N I T Y ; M O I S T U R E C O N T E N T ; I R R I G A T I O N ; S A L T S ; S O I L S
TAXONOMY: D A P H N I A P U L E X ; C H L O R E L L A P Y R E N O I D O S A
983 90
9 0 3 S i g n i f i c a n c e o f D e s e r t S a n d P l a n t s i n t h e C y c l e o f T r a c e E l e n e n t s
T e s h a b a e v , S . ; R i s h , M . A .
T r . S a m a r k a n d . G o s . U n i v . (TSUNA Y) N o . 1 9 3 , ( ) 3 6 - a 3
D E S E R T ; S A N D ; P L A N T S ; M I C R O N U T R I E N T S ; TRACE E L E N E N T S ; PSAMMOPHYTE; S O L O N C H A K ; S O I L S ; HALOPHYTE
9 0 4 E f f e c t o f C h l o r i n a t e d I n s e c t i c i d e s o n t h e U p t a k e o f C a l c i u m a n d I r o n b y W h e a t ( T r i t i c u m V u l g a r e ) a n d M a i z e ( Z e a N a y s )
T h a k r e , S . K . ; S a x e n a , 5 . N . ; D e p . A g r i c . C h e n . S o i l S c i . , C o l l . A g r i c . , P a r b h a n i , I n d i a
A n d h r a A g r . J . , 1 7 ( 6 ) , 1 9 0 - 1 9 2 ; 1 9 7 2
D D T ; WHEAT; C A L C I U N ; I R O N ; A L D R I N ; M A I Z E ; I N S E C T I C I D E S ; E N D R I N ; L I N D A N E ; C H L O R I N A T E D I N S E C T I C I D E S ; U P T A K E
TAXONOMY: Z E A - H A Y S ; T R I T I C U H VULGARE
9 0 5 M o d e l s f o r t h e T r a n s p o r t o f D D T : V e r i f i c a t i o n A n a l y s i s
T h o n a n n , R . V . ; D e p t . o f C i v i l E n g i n e e r i n g , M a n h a t t a n C o l l e g e ; B r o n x , NY 1 0 4 7 1
S c i e n c e 1 7 2 , p . 8 4 ; 1 9 7 1 , A p r i l
MODEL; T R A N S P O R T ; D D T ; V E R I F I C A T I O N A N A L Y S I S
9 0 6 T h e R e l a t i o n B e t w e e n S o i l C h a r a c t e r i s t i c s , V a t e r M o v e m e n t a n d N i t r a t e C o n t a m i n a t i o n o f G r o u n d W a t e r . ; R e s e a r c h R e p t .
T h o m a s , G . W . ; K e n t u c k y W a t e r R e s o u r c e s I n s t . , L e x i n g t o n
K e n t u c k y W a t e r R e s o u r c e s I n s t . , L e x i n g t o n , P B 2 2 0 0 1 5 / 2 ; R e p o r t N o . R R - 5 2 ; C o n t r a c t D I - 1 4 - 3 1 - 0 0 0 1 - 3 2 1 7 ; M o n i t o r i n g A g e n c y R e p t . N o . W 7 3 - 0 8 4 6 5 , O W R R - A - 0 2 4 - K Y ( 1 ) ; P r o j . O W R R - A - 0 2 4 - K Y ; <4Op. ; 1 9 7 2 , S e p t e m b e r
RETURN FLOW; D E N I T R I F I C A T I O N ; WATER; I N O R G A N I C N I T R A T E S ; S O I L H A T E R ; GROUND W A T E R ; I R O N O X I D E S ; E E R C O L A T I O N ; S O I L C H E M I S T R Y ; L E A C H I N G ; F E R T I L I Z E R S ; T I L E D R A I N S ; A D S O R P T I O N ; S O I L A G G R E G A T E S ; I O N EXCHANGE; S O I L S
9 0 7 A n i o n E x c l u s i o n E f f e c t s o n C h l o r i d e M o v e m e n t i n S o i l s
T h o m a s , G . W . ; S w o b o d a , A . R .
S o i l S c i 1 1 0 ( 3 ) , 1 6 3 - 1 6 6 ; 1 9 7 0
A N I O N S ; E X C L U S I O N E F F E C T S ; C H L O R I D E S ; MOVEMENT; S O I L S ; C A T I O N S ; EXCHANGE C A P A C I T Y
987 T h e D i s t r i b u t i o n o f M e r c u r y i n t h e S u r f i c i a l S e d i a e n t s o f L a k e H u r o n
T h c m a s , R . L .
C a n . J . E a r t h S c i . , 1 0 ( 2 ) , 1 9 4 - 2 0 4 ; 1 9 7 3
D I S T R I B U T I O N ; MERCURY; S E D I M E N T S ; W E A T H E R I N G ; I N D U S T R Y ; C Y C L I N G
9 0 9
C u r i u a B e h a v i o r i n P l a n t s a n d S o i l
T h c a a s , W . A . ; J a c o b s , D . G .
S o i l S c i e n c e 1 0 8 ( 4 ) , 3 C 5 - 3 0 7 ; 1 9 6 9
C U R I U M ; P L A N T S ; S O I L S ; F U L L E R T O N LOAM S O I L ; L I Q U I D S C I N T I L L A T I O N ; U P T A K E ; R A D I O T O X I C I T Y ; T R A C E R S ; R A D I O N U C L I D E S ; A B S O R P T I O N ; A D S O R P T I O N ; BEAN P L A N T S
TAXONOMY: P H A S E O L U S V U L G A R I S
9 1 0 T h e B e l a o f F r e s h w a t e r P l a n t s i n A c c u m u l a t i o n o f S t r o n t i u m - 9 0 a n d I t s D i s t r i b u t i o n o v e r t h e C o m p o n e n t s o f R e s e r v o i r
T i n i o f e e v a , N . A . ; K u l i k o v , N . V .
P r o c . I n t . S y m p . R a d i o e c o l . C o n c e n t . P r o c e s s , S t C C k h o l m , 8 3 5 - 8 4 1 ; 1 9 6 7
A C C U M U L A T I O N ; FRESHWATER P L A N T S ; LABORATORY A Q U A R I A ; D E T R I T U S ; MODEL E C O S Y S T E M ; A Q U A T I C E C O S Y S T E M S ; S T R O N T I U M 9 0 ; P L A N T S
TAXONOMY: CLADOPHORA F R A C T A ; POTAMOGETON C O H P R E S S U S
9 1 1 S o i l a n d P l a n t T e s t s f o r t h e E v a l u a t i o n o f t h e S u l f u r s t a t u s o f S o i l s
T i s d a l e , S . L .
P a r t o f K a n w a r , J . S . ( E d . ) , I n t e r n a t i o n a l S y m p o s i u m o n S o i l F e r t i l i t y E v a l u a t i o n , V o l . 1 , I n d i a n S o c i e t y o f S o i l S c i e n c e , I n d i a n A g r i c u l t u r a l R e s e a r c h I n s t i t u t e ; N e w D e l h i , I n d i a ( 1 1 9 - 1 3 . 1 ) ; 1 9 7 1
N U T R I E N T S ; A V A I L A B I L I T Y ; P L A N T S ; T E S T S ; S U L F U H ; S O I L S
9 1 2 D e g r a d a t i o n S t u d i e s o f S o d i u m N i t r i l o t r i a c e t a t e b y M i x e d P o p u l a t i o n s o f A q u a t i c M i c r o o r g a n i s m s
T o d d , R . L . ; H o l m , H . W .
B a c t e r i d . P r o c . , 7 1 , 1 7 ; 1 9 7 1
D E G R A D A T I O N ; SODIUM N I T R I L O T R I A C E T A T E ; A Q U A T I C M I C R O O R G A N I S M S ; B A C T E R I A ; NTA
91 1013
913 Salt Dispersion Coefficients Near an Evaporating Surface
Todd, R.H.; Keaper, W.D.
Soil Sci SOC ka Proc 36 (4), 539-543: 1972
SALTS; SOIL SOLOTION MOVEMENT; DISPERSION COEFFICIENTS; SOILS
914 Losses of (65) Zn to inorganic Surfaces In a Marine Algal Nutrient Mediua
Tomlinson, R.D.; Renfro, w.c.; Dept. of oceanography, Oregon State University, Corvallls, Ore. 97331
Env. Sci. r. Technol. 6(1'), 1001-1005; 1972, November
MARINE; ADSORPTION; SURFACES; UPTAKE; INORGANIC SURFACES; MARINE PHTTOPLANKTCN; ZINC 65
919 Effect of Fortiliters on the Content of Mobile Trace Blements in Soil Turbas, B.; Kalmet, R.; fills* V.
BESTI Pollaaajiindttse Akad. Tead. Toode Kogumik (EPSNA8) NO. 73, 0 82-91
SOILS; LIMING; MICRONOTRIENTSj MOBILITY; MANURES; TRACE ELEMENTS; LINE; FERTILISERS
920 Distribution of Zirconiua, Tltaniua, Nlckal, Cobalt, Lead, Copper, and Other Elements in the Surface Layer of Recent Deposits is Lake Balkbash
Turovekll, O.S.; Lubchenko, I.Y.; Cherkasova, E.V.; Geol. Inst., Moscow, USSR
Litol. Pole*. Is (top. (LPIDAQ), (1), 47-55; 1973
ZIRCONIUM; TKANIUM; NICKEL; COBALT; LEftfl; COPPER; SURFACE LATER; SEDIMENTS; LAKES
9 1 5
Microbial Uptake of Lead
Tornabene, T . G . ; Edwards, H . N ,
S c i e n c e ( W a s h i n g t o n ) 1 7 6 ( 4 0 4 1 ) . 1 3 3 4 - 1 3 3 5 ; 1 9 7 2
MICROORGANISMS; UPTAKE; LEAD
TAXONOMY: HICRGCOCCUS-LUTEUS; AZCTOBACTER-SP
9 1 6 C h a r a c t e r i z a t i o n o f B o t t o m s e d i m e n t s C a t i o n E x c h a n g e C a p a c i t y a n d E x h a n g e a b l e C a t i o n S t a t u s
T o t h , S . J . ; O t t , A . M .
E n v i r o n S c i . T e c h n o l 4 ( 1 1 ) , 9 3 5 - 9 3 9 ; 1 9 7 0
BOTTOM S E D I M E N T S ; C A T I O N ; EXCHANGE C A P A C I T Y ; R I V E R S ; B A Y S ; F R E S H W A T E R ; I M P O U N D M E N T S ; E X C H A N G E A B I L I T Y ; S E D I M E N T S
9 1 7 A c t i v i t y C o e f f i c i e n t s o f A r o m a t i c S o l u t e s i n D i l u t e A g u e o u s S o l u t i o n s
T s o n o p o u l o s , C . ; P r a u s n i t z , J . H . ; D e p a r t m e n t o f C h e m i c a l E n g i n e e r i n g , U n i v e r s i t y o f C a l i f o r n i a , B e r k e l e y , CA 9 4 7 2 0
I n d . E n g . C h e m . F u n d o m , 1 0 ( 4 ) , 5 9 3 - 6 0 0 ; 1 9 7 1
A C T I V I T Y C O E F F I C I E N T S ; AROMATIC S O L U I E S ; AQUEOUS S O L U T I O N S ; E Q U I L I B R I U M D A T A ; D I S S O C I A T I O N ; HYDRATE F O R M A T I O N ; H A T E R ; ABATEMENT
9 1 8
L e a c h i n g o f S u b s t a n c e s f r o a P l a n t s
T u k e y , H . B .
P a r t o f B i o c h e a . I n t e r a c t i o n s P l a n t s , P r o c . C o n f . ( 2 6 H M A 9 ) , 2 5 - 3 2 , 1 9 6 8 , N a t . A c a d . S c i . , W a s h i n g t o n , D C ; 1 9 7 1
921 Possibilities of Binding Herbicides of Triazine Derivates by Humic A c i d s
Turski, R.; Steinbirich, A . ; ; Inst. Soil. Sci. Agric. Chee., Coll. Agric., Lublin, Pol.
Pol. 3. Soil Sci. (PJSOBN) 4 (2) 119-24; 1972
HERBICIDES; SORPTION; HUMIC ACIDS; CARBOXIL GRCUF; HUHATES; TRIAZINE ACIDS; HYDROXTL; BINDING
922 Primarproduktion und Abbau in Hikrookysystemen nit Unterschiedlichem Verhaltnis von Trophogener und Trophyltischer Schicht (Primary Production and Cecoaposition in Micro-Ecosysteos with Different Proportions of Illuminated and of Dark Layers)
Uhlmann, Von D.
Archiv f. Hydrobiologie, Bd. 66(2), 113-138; 1969, Sept.
S I M U L A T I O N ; M I C R O E C O S Y S T E M S ; SEHAGE O X I D A T I O N P O N D S ; B O D ; HEAT D I S S I P A T I O N ; R E S P I R A T I O N ; P R I M A R Y P R O D U C T I O N ; D E C O M P O S I T I O N
9 2 3 D e t e r m i n a t i o n o f t h e H y d r a u l i c C o n d u c t i v i t y o f U n s a t u r a t e d S o i l s f r o m a n A n a l y s i s o f T r a n s i e n t F l e w E a t a
V a c h a u d , G . ; A t t a c h e d e R e c h e r c h e s C . N . R . S . , L a k o r a t o i r e s d e M e c a n i g u e d e s F l u i d e s , U n i v e r s i t e d e G r e n o b l e , F r a n c e
H a t e r R e s o u r c e s R e s e a r c h , 3 ( 3 ) , 6 9 7 - 7 0 5 ; 1 9 6 7
C O N D U C T I V I T Y ; S O I L S ; T R A N S I E N T FLOH DATA; HATER P R O F I L E S ; H A T E R ; GAMMA RAY A B S O R P T I O N ; I N F I L T R A T I O N ; P E R M E A B I L I T Y ; S O I L M O I S T U R E ; POROUS MECIUMS
R E V I E H ; P L A N T S ; L E A C H I N G
9 2 t i fa
92« Thoraodynaaica of Cation Exchange In Soils
Wan Bladel, R.; Tnwt. Set. Terra, Univ. Louvain, ttovorloa, ftelg.; Int. potash lnat«, earn, S w i t z e r l a n d
Pact oZ Potassium Soil, Pres. CoIlog. Int. Potash Ifict., 9th «*VfA0) <89-9*1; 1972
THERMODYNAMICS; CliflOl F.XCfiANGE; SOILS; BP.VIEW
9 2 5 Experimental Study of tho Biological Availability of a Heavy Ratal, Ruthoniuo, in Laboratory Conditions
van Dec eorght, 0.
J. Bolge Radiol.. 55 (2), 203-252; 1972
COHTAHIHATION; PISH; FRESHWATER; RUTHBRXUM; NITROSYLS; SEAWATER; SNAILS; UPTAKE; AVAILABILITY
9 2 « Continuous Culture of Thiorhodaceae: Sulfide and Sulfur Halted Growth of chroaatiua-Vlnosua
Van Geaerdea, 8 . ; Jannacch, R.w.
Arch. Sikrobiol.; 79(0), 345-353; 1971
COM7XROOUS CULTURE; SULFIDE; SULFUR; SATURATION CORSTART; SULFIDE TOLERANCE; INHIBITION CONSTANT
TAXONOMY: THIORHODACEAB; CHROMATIOM VINOSOM
927 Assiailation and Biological Turnover of Cesiua-134, Iodine-131, and Chroaiua-51 in Brovn crickets, Acheta doaesticus (L.)
Van Hook, P.X., Jr.; Crossley, D.A., Jr.; Radiation Ecology Section, Health Physcis Division; oak Ridge National Labcratory; Oak Ridge, Tenn. 37830
Health Physics, Vol. 16, 463-467; 1969
ASSIMILATION; BIOLOGICAL TURNOVER; CESIUM 134; IODINE 131; CHROMIUM 51; BROWN CBICKBTS; TRACERS; RETENTION; INSECTS; RADIONUCLIDES; CRICKETS
TAXONOMY: ACHETA DOMESTICOS
928 Effect of Several Herbicides on Bacterial Populations and Activity and the Persistence of These Herbicides in Soil
Vaa Schreven, D.A.; Lindenbergh, D.J.; Koridon, A.; Biol. Lab., Ijsselaeerpolders Dev. Auth., Kaapen, Netherlands
Plant Soil (PLS0A2) 33(3), 513-532; 1970
PERSISTENCE; IOXTHIL; DALAPON; MECOPROP; DICHLORPROP; MCPA; DICHLOROPROP; PICLORAM; AHITROLE; HERBICIDES; SOILS; BACTERIA; AZOTOBACTER; NITRIFICATION; MICROORGANISHS
929 ttatoc Ch«»lstry of Tox*ph«n«—ftol«? of Lake
tfoitfc, G.O.; Loo, fif.r.: Wator Chaalstey Lmtotatocy, t*%ivnc»lty of Wisconsin, Madison, win.
Env. Scl. 6 Technol. 230-234; 1971, Match
WATER CHEMIST**; TOXAFttKRE; SEDIMENTS; LAMES; 0ETQXI?ICATXON; ELECTRON CAPTORS GAS CHROMATOGRAPHIC ANALYSIS
930 Crit Iquo of Reaoarch Methods Involving Plastic Bogs in Aguatic Environments
Vordi#£ J.; Botany Oepartaent, Southern Illinois University, Carbondalo, 111.
Transactions of tho Aaocican Fisheries society 98(2), J35-336; 1969, April
FERTILIZATION; PLASTIC DAGS; AQUATIC ECOSYSTEMS; CRITX'iOE
9 3 1 A Confarativo Study of Analogue and Digital Simulation of Xon Uptake by Plants
Verdonk, P.; Sinnaeve, J.; Frissel, M.; Laudelout, H.
J tip BOt 22 (73) 852-862; 1971
RICE-M; PHOSPHATE; COMPUTER SIMULATION; MODEL; ION UPTAKE; PLANTS
932 Teaperature-Salinity Stress and Mercury Uptake in the Fiddler Crab
Vecnberg, W.B.; Q*Hara, J.; Bella W. Barucb Coastal Res. Inst., Univ. South Carolina, Coluabia, s.c.
J. Fish. Res. Board Can. (JFRBAK) 29 (10) 1491-4; 1972
MERCORY; UPTAKE; CRABS; STRESS; TEMPERATURE STRESS; SALINITY STRESS
TAXONOMY: OCA P0BILAT0R
933 Investigations on the Nitrogen Flov in a Model Ecosystea
Visser, S.A. Ann. Zool. Ecol. Ania., 4 (Special Nuaber), 119-129; 1971
NITROGEN; HODEL ECOSYSTEM; PLANTS; AZOTOBACTER; MICROBIAL ACTIVITY; FIXATION; SOILS; MODEL; MICBGCHGAHISMS
93 93«
93a flow of Kiccobtally Fixed Nitrogen in a Model Ecosysteo
Visiter* 5.A.; Kitkaap, «.; Dahlaan, B.C.; Ecological sciences Division, oak nidge national Laboratory; Oak Ridge Tennessee Plant and Soil 38, 1-8$ 1973
MODEL ECOSYSTEM; NITROGEN FLOH; TRACERS; ItXCftOOflGANXSftS
TAXOMONY: AZOTOBACTBR
9 3 5 A Continuous Culture of Desulfovibrio on a Rediua containing Mercury anc copper ions
V os-Jan, 4.H.; Van Der Hoek, c.<J.
Neth. J. Sea Res., 5(0), 4U0-OUU; 1972
CONTINUOUS CULTURE; HERCORY; COPPEB
TAXONOMY: DES0LF0VIBRIO
936 Predicting the Phosalone Residue Dynaaics in Hater Reservoirs
vrochinskiy, K.K.; All-Union Sci. Res. Inst. Hyg. Toxicol., USSR Ryb. Khoz., 48(2), 15-17; 1972
DYNAMICS; PKOSALONE; CONCENTRATION REDUCTION; RESIDUES; PLANTS; MICROORGANISMS; PONDS
937 Dependence of the Lead Content of Plants on the Lead Concentration in the Soil. Mitscherlich Experiaents with Barley
Wagner, K.H.; siddigi, I.; Inst. Ernaehrungswiss. II, Univ. Giessen, Giessen, Germany
Naturwissenschaften (NATWAY) 60(A) , 200; 1973
LEAD; MITSCHERLICH EXPERIMENTS; PLANTS; SOILS; EARLEY; CONTAMINATION
938 Effects of Pollutants on Marine Organisms; Improving Methodology of Evaluation— A Review of the Literature
Waldichuk, M.
Journal Water Pollution Control 11(9), 1586-1601; 1969, September
MARINE ORGANISMS; EVALUATION METHODS; POLLUTION EFFECTS
939 Availability of Atrazioe to Plants in Different Soils Ralker, A.; Natl. Veg. Ues. Stn., Velleabourne/Uarwick, England
Pestic. Sci. (PSSCBG) 3(2), 139-148; 1972
ADSORPTION; TRANSPIRATION; TOXICITY; ATRAZINB; PLANTS; UPTAKE; SOILS; HERBICIDES; NUTRIENTS
910 The Effects of Horticultural Practices on Ban and His Rnvironoent
Walker, K.C.
Hortscience S<4), 239-242; 1970
PESTICIDES; PLANTS; HUTRITION; SALINITY; HATER; SMOKE; SOZLS; EROSION; HORTICULTURE; HUMANS
941 proapt Transfers of Cesiua-137 to the Soils of a Tagged Liriodendron Forest
Waller, H.D.; Olson, J.S.; Radiation Ecology Section, Health Physics Division, Oak Ridge National Laboratory, oak Ridge, Tennessee
Ecology 48(1), 15-25; 1967
TULIE POPLAR; CESIUM 137; TRANSPORT; TRANSFERRAL; TRACERS; RADIOACTIVE LABELING; SOILS; FORESTS; RADIONUCLIDES; CONTACT EXCHANGE; EXUDATION; LEACHING
TAXONOMY; LIRIODENDRON T0LIPIFERA
942 Simultaneous Solute and Water Transfer for an Unsaturated Soil
warick, A.w.; Biggar, J.H.; Nielsen, D.R.
water Resour. Res., 7(5), 1216-1225; 1971
INFILTRATION; DIFFUSION COEFFICIENT; IRRIGATION; MOISTURE CONTENT; SOILS
943 Diffusion of Zinc in Soil. Part 2: The Influence of Soil Bulk Density and Its Interaction with Soil Moisture
Warncke, D.D.; Barber, S.A.
Soil Sci. Soc. Aa. Proc., 36(1), 42-46; 1972
DIFFUSION; ZINC; BULK DENSITY; MOISTURE; CHLORIDE; TORTUOSITY; SOILS; CHLORINE 36; DIFFUSION COEFFICIENTS
983 94
9 4 0 D i f f u s i o n o f Z i n c i n S o i l P a r t 1 t h e I n f l u e n c e o f S o i l M o i s t u r e
tfarncke, D . n . ; B a r b e r , S . A .
S o i l S c i . S o c . A n . P r o c . , 3 6 ( 1 ) , 3 9 - 4 2 ; 1 9 7 2
D I F F U S I O N ; Z I N C ; M O I S T U R E ; T O R T U O S I T Y ; S O U S ; D I F P U S I O N C O E F F I C I E N T S ; C A T I O N EXCHANGE
9 t t 5 L a b o r a t o r y S t r e a n R e s e a r c h : O b j e c t i v e s , P o s s i b i l i t i e s , a n d C o n s t r a i n t s
W a r r e n , C . E . ; D a v i s , G . E .
A n n . R e v . E c o l . s y s t . , 2 , 1 1 1 - 1 4 4 ; 1 9 7 1
A Q U A T I C E C O S Y S T E H S ; MODEL E C O S Y S T E H ; R A T E R ; S T R R A H S
9 4 6 L a b o r a t o r y s t r e a n R e s e a r c h O b j e c t i v e s , P o s s i b i l i t i e s , a n d C o n s t r a i n t s
W a r r e n , C . E . ; D a v i s , G . E .
J o h n s t o n , R i c h a r d F . ( R d ) . A n n u a l R e v i e w o f E c o l o g y a n d S y s t e n a t i c s , V o l . 2 . 5 1 0 P . A n n u a l R e v i e w s I n c . : P a l o A l t o , C a l i f . , U . S . A . , 1 1 1 - 1 4 4 ; 1 9 7 1
LABORATORY S T U D I E S ; STREAM E C O L O G Y ; MODEL E C O S Y S T E M ; A Q U A T I C E C O S Y S T E M S
9 4 7
B i o g e o c h e n i s t r y i n C a n a d a
W a r r e n , H . v .
E n d e a v o u r ( E N G L ED) 3 1 ( 1 1 2 ) , 4 6 - 4 9 ; 1 9 7 2
R E V I E W ; P L A N T S ; M I N E R A L S ; L E A D ; D E T E C T I O N ; S O I L S ; MINERAL I N D I C A T O R S ; B I O G E O C H E H I S T R Y
9 4 8 A b s o r p t i o n o f A r s e n i c a n d L e a d b y E g g p l a n t f r o a S o i l a n d T h e i r T r a n s l o c a t i o n
w a t a n a b e , T . ; F u j i n o t o , Y . ; N a k a a u r a , H . ; A g r i c . C h e n . I n s t . S t n . , M i n i s t . A g r i c . F o r . , K o d a i r a , J a p a n
R o y a k u K e n s a s h o H o k o k u , 1 1 , 1 0 1 - 1 0 5 ; 1 9 7 1
A R S E N A T E ; L E A D ; A N A L Y S I S ; E G G P L A N T ; S O I L S ; P L A N T S ; T R A N S P O R T ; A B S O R P T I O N ; T R A N S L O C A T I O N
987 C y c l i n g o f R a d i o n u c l i d e s i n C o l u a b l a R i v e r B i o t a .
W a t s o n , D . G . ; C u s h i n g , C . E . ; C o u t a n t , C . C . ; T e s p l e t o n , H . L .
P a r t o f H e a p h i l l , D e l b e r t D . ( E d . ) , T r a c e s u b s t a n c e s i n E n v i r o n a e n t a l H e a l t h . I V c o l u a b i a , MO. - U n i v e r s i t y o f M i s s o u r i ( 1 4 4 - 1 5 7 ) ; 1 9 7 1
C Y C L I N G ; R A D I O N U C L I D E S ; CHROMIUM 5 1 ; C O N T A M I N A T I O N ; F I S H ; PLOW R A T E ; I S O T O P E R A T I O ; MEDIUM T E M P E R A T U R E ; P H O S P H O R U S 3 2 ; P L A N K T O N ; R E A C T C B S ; C O O L I N G S Y S T E M S ; WATER; Z I N C 6 5 ; S E A S O N A L V A R I A T I O N S
9 5 0 A n i n s t a n t a n e o u s P r o f i l e M e t h o d f o r D e t e r m i n i n g t h e H y d r a u l i c C o n d u c t i v i t y o f U n s a t u r a t e d P o r o u s M a t e r i a l s
W a t s o n , K . K . ; s c h o o l o f C i v i l E n g i n e e r i n g , T h e U n i v e r s i t y o f New S o u t h W a l e s , K e n s i n g t o n , N . s . H . , A u s t r a l i a
W a t e r R e s o u r c e s R e s e a r c h , 2 ( 4 ) , 7 0 9 - 7 1 5 ; 1 9 6 6
P R O F I L E METHOD; HYDRAULIC C O N D U C T I V I T Y ; FLOW V E L O C I T Y ; P O T E N T I A L G R A D I E N T ; D A R C Y ' S LAW; P E R M E A B I L I T Y ; POROUS M E D I U M S ; S O I L M O I S T U R E ; C O N D U C T I V I T Y ; S O I L S
9 5 1 A U n i t i n g F l u x C o n d i t i o n i n I n f i l t r a t i o n i n t o H e t e r o g e n e o u s P o r o u s M e d i a
W a t s o n , K . K . ; P e r r e n s , S . J . ; W h i s l e r , F . D .
S o i l S c i . S o c . A n . P r o c . , 3 7 ( 1 ) , 6 - 1 0 ; 1 9 7 3
F L U X ; I N F I L T R A T I O N ; POROUS M E D I A ; S O I L W A T E R ; E Q U A T I O N S
9 5 2
T r a c e r S t u d y o f t h e P h o s p h o r u s C y c l e i n S e a w a t e r
w a t t , K . E . F . ; H a y e s , F . R .
L i n n o l o g y a n d O c e a n o g r a p h y , 8 , 2 7 6 - 2 8 5 ; 1 9 6 3
T R A C E R S ; P H O S P H O R U S ; C Y C L E ; SEA WATER
9 5 3 I n t e r a c t i o n c f O r g a n i c P e s t i c i d e s w i t h P a r t i c u l a t e M a t t e r i n A q u a t i c a n d S o i l S y s t e a s
W e b e r , J . B . ; C r o p S c i . D e p . , N o r t h C a r o l i n a S t a t e U n i v e . , R a l e i g h , NC
P a r t o f P a u s t , S . D . ( C h a i r m a n ) F a t e o f O r g a n i c P e s t i c i d e s i n t h e A q u a t i c E n v i r o n n e n t , S y n p . D i v . o f P e s t i c i d e C h e n i s t r y , 1 6 1 s t M e e t i n g , A m e r i c a n C h e n i c a l S o c i e t y , L o s A n g e l e s , C a l i f o r n i a , M a r c h 2 9 - 3 1 , 1 9 7 1 , A d v a n c e s i n C h e n i s t r y S e r i e s I I I . A m e r i c a n C h e m i c a l S o c i e t y , W a s h i n g t o n , D . C . ( 5 5 - 1 2 0 ) ; 1 9 7 2
M I N E R A L S ; O R G A N I C M A T T E R ; CHARCOAL; I O N I Z A B I L I T Y ; MOLECULAR S I Z E ; F U N C T I O N A L G R O U P S ; S O L U B I L I T Y ; VAEOE P R E S S U R E ; I O N E X C H A N G E ; D I P H O L E I N T E R A C T I O N S ; R E V I E W ; P E S T I C I D E S ; A D S O R P T I O N ; S O I L S ; A B S O R P T I O N ; C L A Y S
95 1013
9 5 4 D e t e r m i n i n g t h e R a t i o o f H o r i z o n t a l t o V e r t i c a l P e r m e a b i l i t y b y A q u i f e r - T e s t A n a l y s i s
w e e k s , B . P . ; U . S . G e o l o g i c a l s u r v e y , n a d i s o n , W i s c o n s i n 5 3 7 0 6
W a t e r R e s o u r c e s R e s e a r c h , 5 ( 1 ) , 1 9 6 - 2 1 4 ; 1 9 6 9 , F e b r u a r y
A Q U I F E R - T E S T A N A L Y S T S ; H O R I Z O N T A L - V E R T I C A L R A T I O ; P E R H E A B I L I T Y ; P I E Z O M E T E R S
9 5 5 L o s s e s o f N i t r o g e n , P o t a s s i u m , C a l c i u m , a n d M a g n e s i u m f r o m L e a c h i n g o f D i f f e r e n t R i n d s o f A r a b l e s o i l
W e i s e , K .
A r c h A c k e r - P f l a n z e n b a u B o d e n k d , 1 6 ( 4 - 5 ) , 3 1 9 - 3 2 8 ; 1 9 7 2
N I T R O G E N ; P O T A S S I U M ; C A L C I U M ; M A G N E S I U M ; L E A C H I N G ; LOAM; L O E S S ; C L A Y ; S A N D ; S O I L S
9 5 6 U s e o f M o d i f i e d D i u r n a l c u r v e s f o r t h e M e a s u r e m e n t o f M e t a b o l i s m i n S t a n d i n g H a t e r
W e l c h , H . E . ; D e p a r t m e n t o f Z o o l o g y , U n i v e r s i t y o f T o r o n t o , T o r o n t o 5 , O n t a r i o
L i m n o l . O c e a n . 1 3 , 6 7 9 - 6 8 7 ; 1 9 6 8
S T A N D I N G H A T E R ; L A K E S ; OXYGEN C U R V E S ; COMMUNITY M E T A B O L I S M ; S U C C E S S I O N ; P H O T O S Y N T H E S I S
9 5 7 V a n a d i u m U p t a k e b y P l a n t s . A d s o r p t i o n K i n e t i c s a n d t h e E f f e c t s o f p H , M e t a b o l i c I n h i b i t o r s , a n d O t h e r A n i o n s a n d C a t i o n s
W e l c h , R . M . ; S o i l N u t r . L a b . , A g r i c . R e s . s e r v . , I t h a c a , NY
P l a n t P h y s i o l . ( P L P H A Y ) , 5 1 ( 5 ) , £ 2 8 - 8 3 2 ; 1 9 7 3
U P T A K E ; A D S O R P T I O N ; I N H I B I T O R S ; C A T I O N ; V A N A D I U M ; R O O T S ; A B S O R P T I O N ; K I N E T I C S ; P H ; A N I O N S ; C A L C I U M ; METABOLISM
9 5 8 I n t e r a c t i o n o f P e s t i c i d e s v i t h N a t u r a l O r g a n i c M a t e r i a l
H e r s h a w , R . L . ; B u r c a r , P . J . ; G o l d b e r g , M . C . ; US G e o l o g i c a l S u r v e y , D e n v e r , C o l c r a d c
E n v i r o n . S c i . T e c h n o l . 3 ( 3 ) , 2 7 1 - 2 7 3 ; 1 9 6 9 , H a t c h
I N T E R A C T I O N ; P E S T I C I D E S ; O R G A N I C M A T T E R ; SODIUM HUMATE; HUMIC A C I D S
9 5 9 I n t e r a c t i o n o f O r g a n i c P e s t i c i d e s w i t h N a t u r a l O r g a n i c p o l y e l e c t r o l y t e s
w e r s h a v , H . L . ; G o l d b e r g , H . C . ; U . S . G e o l o g i c a l S u r v e y , D e n v e r F e d e r a l C e n t e r , D e n v e r , C O 8 0 2 2 5
A d v a n c e s i n C h e m i s t r y S e r i e s , N u m b e r I I I , " F a t e o f O r g a n i c P e s t i c i d e s i n t h e A q u a t i c E n v i r o n m e n t , 1 4 9 - 1 5 8 ; 1 9 7 2
I N T E R A C T I O N ; O R G A N I C S ; P E S T I C I D E S ; P O I Y E L E C T R O L Y T E S ; C H E M I C A L R E A C T I O N S ; P E S T I C I D E S ; H U H I C S A L T S ; P H Y S I C A L R E A C T I O N S
9 6 0 H e a t E f f e c t s o n N u t r i e n t R e l e a s e f r o m S o i l s u n d e r P o n d e r o s a P i n e
W h i t e , B . M . ; T h o m p s o n , W . H . ; G a r t n e r , F . R . ; P l a n t S c i . D e p . , S o u t h D a k o t a S t a t e U n i v . , B r o o k i n g s , S . D a k .
J . R a n g e M a n a g e . ( J R M G A Q ) , 2 6 ( 1 ) , 2 2 - 2 4 ; 1 9 7 3
POHDEROSA P I N E ; C O M B U S T I O N ; N U T R I E N T R E L E A S E ; S O I L S ; P I N E ; L I T T E R ; H E A T ; P H O S P H O R U S ; P O T A S S I U M ; N I T R C G E N ; N U T R I E N T S
9 6 1
B o u n d P h o s p h o r u s a n d G r o w t h o f P h y t o p l a n k t o n
H h i t f o r d , L . A .
S c i e n c e , 1 2 9 , 9 6 1 - 9 6 2 ; 1 9 5 9 , A p r .
P H O S P H O R U S ; P H Y T O P L A N K T O N ; P O N D S ; S E A S O N A L V A R I A T I O N S ; BLOOMS
9 6 2 An A r t i f i c i a l s t r e a m A p p a r a t u s f o r t h e S t u d y o f L o t i c O r g a n i s m s
W h i t f o r d , L . A . ; D i l l a r d , G . E . ; S c h u m a c h e r , G . J .
L i m n o l . O c e a n o g r . , 9 , 5 9 8 - 5 9 9 ; 1 9 6 4
L O T I C O R G A N I S M S ; MODEL S T R E A M S ; A R T I F I C I A L S T R E A M S ; T E M P E R A T U R E
9 6 3 E x p e r i m e n t s v i t h R a d i o p h o s p h o r u s T r a c e r i n A q u a r i u m M i c r o c o s m s
W h i t t a k e r , R . H .
E c c l o g i c a l M o n o g r a p h s , 3 1 , 1 5 7 - 1 8 8 ; 1 9 6 1
P H O S P H O R U S ; T R A C E R S ; A Q U A R I U M ; M I C R O C O S M S ; R A D I O P H O S P H O R U S • • =
983 96
9 6 U E f f e c t o f G l y c o l l a t e o n P h o s p h a t e U p t a k e i n c h l o r e l l a P y r e n o i d o s a
W h i t t o n , B . A . ; D e p t . o f B o t a n y , U n i v e r s i t y o f D u r h a m
P l a n t s , 7 4 , 1 1 9 - 1 2 2 ; 1 9 6 7
G L X C O L L A T E ; P H O S P H A T E ; U P T A K E
TAXONOMY: C H L O R E L L A P Y R E N O I D O S A ; A N K I S T R O D E S M U S
9 6 5 E f f e c t s o f T o x i c a n t s o n C o m m u n i t y M e t a b o l i s m i n P o o l s
W h i t w o r t h , W . R . ; L a n e , T . H . ; B u r e a u o f S p o r t F i s h e r i e s a n d W i l d l i f e , Warm s p r i n g s , GA
L i m n o l . o c e a n o g r . , I t t , 5 3 - 5 8 ; 1 9 6 9
C O P P E R S U L F A T E S ; P O T A S S I U M MANGANATES; S I M U L A T E D E N V I R O N M E N T S ; COMMUNITY M E T A B O L I S M ; D I E L OXYGEN T E C H N I Q U E S ; D D T ; A N T I M Y C I N A ; P H O T O S Y N T H E S I S ; R E S P I R A T I O N ; F O R M A L I N ; N I G R O S I N E B L A C K ; M A L A C H I T E G R E E N ; D I Q U A T
9 6 6 F o r b - A r t h r o p o d F o o d C h a i n s i n a O n e - Y e a r E x p e r i a e n t a l F i e l d
H i e g e r t , R . G . ; O d u m , E . P . ; S c h n e l l , J . H . ; I n s t i t u t e o f R a d i a t i o n E c o l o g y , U n i v e r s i t y o f G e o r g i a
E c o l o g y 4 8 ( 1 ) , 7 5 - 8 3 ; 1 9 6 7
PHOSPHORUS 3 2 ; T R A C E R S ; P L A N T S ; I N S E C T S ; F A U N A ; I S O T O P E S ; A P H I D S ; C R I C K E T S ; D E T R I T U S ; G R A Z I N G P R E S S U R E ; FOOD C H A I N S ; E X P E R I M E N T A L F I E L D ; F O R B - A R T H R O P O D S
TAXONOMY: HETEROTHECA S U B A X I L L A R I S ; E R I G E R O N C A N A D E N S I S ; DOBYMYRHEX; O E C A N T H U S
987 S e a s o n a l C h a n g e s i n P a r t i c l e S i z e D i s t r i b u t i o n , C o n p o s i t i o n , a n d S t r o n t i u m E x c h a n g e c a p a c i t y o f P a r t i c u l a t e M a t t e r S u s p e n d e d i n t h e C o l u n b i a R i v e r .
W i l d u n g , R . E . ; R o u t s o n , R . C . ; S c h m i d t , R . L . ; B a t t e l l e P a c i f i c N o r t h w e s t L a b s . , R i c h l a n d , HA
B a t t e l l e P a c i f i c N o r t h w e s t L a b s . , R i c h l a n d , WA; B N W L - 1 6 3 8 ; C o n t r a c t a t 9 ( 4 5 - 1 ) - 1 8 3 0 , 3 2 p . ; 1 9 7 2 , J a n u a r y
R I V E R S ; S I L T S ; S T R O N T I U M ; SEASONAL V A R I A T I O N S ; P A R T I C U L A T E S ; P A R T I C L E S I Z E ; EXCHANGE C A P A C I T Y
9 7 0
T r a n s p o r t o f M e t a b o l i t e s i n M i c r o o r g a n i s m s
W i l e y , W. R . ; S c h n e i d e r , R . P .
A n e r Z o o l . 1 0 ( 3 ) , 4 0 5 - 4 1 2 ; 1 9 7 0
T R A N S P O R T ; M E T A B O L I T E S ; M I C R O O R G A N I S M S ; O R G A N I C ; N U T R I E N T S
9 7 1 T r a n s f e r o f R a d i o i s o t o p e s B e t w e e n D e t r i t u s a n d B e n t h i c M a c r o i n v e r t e b r a t e s i n L a b o r a t o r y M i c r c e c o s y s t e m s
W i l h m , J . L . ; R a d i a t i o n E c o l o g y S e c t i o n , H e l a t h P h y s i c s D i v i s i o n , O a k R i d g e N a t i o n a l L a b o r a t o r y , O a k R i d g e , T e n n e s s e e 3 7 8 3 0
H e a l t h P h y s i c s 1 8 , 2 7 7 - 2 8 4 ; 1 9 7 0
T R A N S F E R ; R A D I O I S O T O P E S ; D E T R I T U S ; B E N T H I C N A C R O I N V E R T E B R A T E S ; LABORATORY M I C R O E C O S Y S T E M S ; C E S I U M 1 3 7 ; RUTHENIUM 1 0 6 ; COBALT 6 0 ; S P R I N G S ; B E N T H O S ; A Q U A T I C E C O S Y S T E M S
TAXONOMY: S P I R O G Y R A ; L I M N O D R I L U S H O F F M E I S T E R I ; S T I C T O C H I R O N O M U S A N N U L U R U S ; PHYSA H E T E R O S T R O P H A ; P R C C L A D I U S S P .
9 6 7 L e a c h i n g o f P l a n t N u t r i e n t s . I I I . A t R o b a c k s d a l e n , M a r s t a , G a m m a l s t r o p , H e a g a r d , a n d H o b y
W i k l a n d e r , L . ; H a l l g r e n , G . ; I n s t . M a r k v e t e n s k . , L a n t b r u k s h o g s k . , U p p s a l a , S w e d .
G r u n d f o e r b a t t r i n g ( G R F B A B 0 2 4 ( 3 - 4 ) 9 5 - 1 1 1 ; 1 9 7 1
N U T R I E N T S ; L E A C H I N G ; S O I L S ; P L A N T S
9 6 8 O c c u r r e n c e a n d T r a n s p o r t o f A r s e n i c i n t h e U p p e r S u g a r C r e e k W a t e r s h e d , C h a r l o t t e , N o r t h C a r o l i n a
W i l d e r , H . B . ; U . S . G e o l . S u r v . , R a l e i g h , N . C .
U . S . , G e o l . S u r v . , P r o f . P a p . ( X I P P A N ) ( N o . 8 0 0 - D . ) 2 0 5 - 1 0 ; 1 9 7 2
A R S E N I C ; T R A N S P O R T ; STREAM F L O H ; W A T E R S H E D S ; SEWAGE T R E A T R E N T
9 7 2 S p e c i e s D i v e r s i t y o f B e n t h i c M a c r o i n v e r t e b r a t e s i n a S t r e a m R e c e i v i n g D o m e s t i c a n d O i l R e f i n e r y E f f l u e n t s
W i l h m , J . L . ; D o r r i s , T . C . ; o a k R i d g e N a t i o n a l L a b o r a t o r y , O a k R i d g e TN 3 7 8 3 1 ; A g u a t i c B i o l o g y L a b o r a t o r y , O k l a h o m a S t a t e U n i v e r s i t y , S t i l l w a t e r , OK 7 4 0 7 4
A m . M i d i . N a t . , 7 6 , 4 2 7 - 4 4 9 ; 1 9 6 6
S P E C I E S D I V E R S I T Y ; M A C R O I N V E R T E B R A T E S ; O I L R E F I N E R Y E F F L U E N T S ; B E N T H O S ; I N F O R M A T I O N T H E O R Y ; D I V E R S I T Y ; REDUNDANCY
97 1013
9 7 3 S u c c e s s i o n i n A l g a l H a t C o a n u n i t i e s a t T h r e e D i f f e r e n t N u t r i e n t l e v e l s
H i l h n , J . L . ; L o n g , J . ; D e p a r t m e n t c f Z o o l o g y , O k l a h o m a S t a t e U n i v e r s i t y , S t i l l w a t e r
E c o l o g y 5 0 ( a ) , , 6 4 5 - 6 5 2 ; 1 9 6 9
S U C C E S S I O N ; P H O S P H A T E S ; N I T R A T B S ; M I C R O C O S M S ; N U T R I E N T S ; B I O H A S S ; P R O D U C T I O N ; R E S P I R A T I O N ; P R O D U C T I O N / B I O H A S S R A T I O S ; P R O D U C T I O N / C H L O R O P H Y L L R A T I O S ; ALGAE
9 7 U U s e o f R a d i o n u c l i d e s t o E v a l u a t e t h e T r a n s p o r t o f P o l l u t a n t s P r o m t h e H y d r o s p h e r e I n t o t h e A t m o s p h e r e
M i l k n i s s , P . E . ; B r e s s a n , D . J .
P a r t o f w e l s h , C . N . ( E d . ) , I n t e r n a t i o n a l A t o n i c E n e r g y A g e n c y P r o c e e d i n g s S e r i e s . N u c l e a r T e c h n i q u e s i n E n v i r o n m e n t a l P o l l u t i o n . S y a p o s i u a . 8 1 0 p . U n i p u b , I n c . : N e w Y o r k , N . Y . , U . S . A . ( 2 9 7 - 3 0 7 ) . ; 1 9 7 1
A T M O S P H E R E ; B U B B L E S ; P A R T I C L E S ; S U R F A C E S ; T R A C E R S ; T R A N S P O R T ; WATER; C H L O R I N E 3 8 ; I R O N I S O T O P E S ; P O T A S S I U M 0 2 ; S O D I U H 2 4 ; A I R ; R A D I O N U C L I D E S
9 7 5 U n d e r c u t t i n g a n d R o o t W r e n c h i n g a s a M e a n s o f P r o d u c i n g G o o d P i n u s r a d i a t a - G P l a n t i n g S t o c k i n B i o c i d e T r e a t e d a n d H i g h F e r t i l i t y s o i l s
W i l l , G . M . ; V a n D o r s s e r , J . C . ; R o o k , D . A .
A d v . F r o n t i e r s P l a n t S c i . , 2 8 , 3 4 1 - 3 4 8 ; 1 9 7 1
P L A N T S ; U N D E R C U T T I N G ; ROOT W R E N C H I N G ; S O I L S ; S E E D L I N G S ; S U R V I V A L ; W E E D S ; FUNGAL P A T H O G E N ; N U T R I E N T S ; A V A I L A B I L I T Y ; S T E R I L I Z A N T S ; GROWTH R A T E ; P I N E F O R E S T S
TAXONOMY: P I N U S R A D I A T A
9 7 6 F r a c t i o n a t i o n o f I n o r g a n i c P h o s p h a t e i n C a l c a r e o u s L a k e s e d i m e n t s
W i l l i a m s , J . D . H . ; S y e r s , J . K . ; H a r r i s , R . F . ; A r m s t r o n g , D . E .
S o i l S c i e n c e S o c i e t y o f A m e r i c a , P r o c e e d i n g s , 3 5 , 2 5 0 - 2 5 5 ; 1 9 7 1
F R A C T I O N A T I O N ; P H O S P H A T E ; S E D I M E N T S ; L A K E S ; C A L C A R E O U S S E D I M E N T S
9 7 7 A d s o r p t i o n a n d D e s o r p t i o n o f I n o r g a n i c P h o s p h o r u s b y L a k e S e d i m e n t s i n a 0 . 1 M N a C l S y s t e m
W i l l i a m s , J . D . H . ; S y e r s , J . K . ; H a r r i s , R . F . ; A r m s t r o n g , D . E .
E n v i r o n m e n t a l S c i e n c e a n d T e c h n o l o g y , 4 , 5 1 7 - 5 1 9 ; 1 9 7 0 .
A D S O R P T I O N ; D E S O R P T I O N ; P H O S P H O R U S ; S E D I M E N T S ; LAKES
9 7 8 L e v e l s o f I n o r g a n i c a n d T o t a l P h o s p h o r u s i n L a k e S e d i a e n t s a s R e l a t e d t o O t h e r S e d i a e n t P a r a a e t e r s
W i l l i a m s , J . D . H . ; S y e r s , J . K . ; S h u k l a , S . S . ; H a r r i s , R . P . ; A r n s t r o n g , D . E .
E n v i r o n a e n t a l S c i e n c e a n d T e c h n o l o g y , 5 , 1 1 1 3 - 1 1 2 0 ; 1 9 7 1
P H O S P H O R U S ; S E D I M E N T S ; L A K E S
9 7 9 U p t a k e o f C e s i u a ( 1 3 7 ) b y C e l l s a n d D e t r i t u s o f E u g l e n a a n d C h l o r e l l a
H i l l i a a s , L . G . ; R . A . T a f t S a n i t a r y E n g i n e e r i n g c e n t e r , C i n c i n n a t i 2 6 , o b i o
L i m n o l o g y a n d O c e a n o g r a p h y 5 ( 3 ) , 3 0 1 - 3 1 1 ; 1 9 6 0 ^ J u l y
D E T R I T U S ; A L G A E ; U P T A K E ; C E S I U M 1 3 7 ; A L K A L I I O N S ; P O T A S S I U M ; A N T I B I O T I C S
TAXONOMY: E U G L E N A ; C H L O R E L L A
9 8 0
C o n c e n t r a t i o n o f C e s i u a - 1 3 7 b y A l g a e
W i l l i a m s , L . G . ; S w a n s o n , H . D .
S c i e n c e 1 2 7 ( 3 2 9 1 ) , 1 8 7 - 1 8 8 ; 1 9 5 8 , J a n u a r y
C E S I U M 1 3 7 ; U P T A K E ; ALGAE
TAXONCMY: R H I Z O C L O N I U M H I E R O G L Y R H I C U M ; OEDOGONIUM V U L G A R E ; S P I R O G Y R A E L L I P S O S P O R A ; S P I H O G Y R A C O M M U N I S ; GONIUM P E C T O R A L S ; O O C Y S T I S E L L I P T I C A ; C H I A EYDONONAS S P . ; EUGLENA I N T E R M E D I A ; C H L O H E L L A P Y B E N C I D O S A
9 8 1 M e r c u r y i n t h e M a r i n e E n v i r o n a e n t : C o n c e n t r a t i o n i n S e a W a t e r a n d i n a P e l a g i c F o o d C h a i n
W i l l i a m s , P . M . ; W e i s s , H . V .
J . C a n . F i s h . R e s . B o a r d , 3 0 ( 2 ) , 2 9 3 - 2 9 5 ; 1 9 7 3
MERCURY; MARINE E C O S Y S T E M S ; FOOD C H A I N ; Z O C P t A N K T O N ; BOTTOM S E D I M E N T S ; S E D I M E N T S
9 8 2 - • E f f e c t s o f C o n t i n u o u s Low L e v e l G a m m a R a d i a t i o n o n E s t u a r i n e M i c r o c o s n s
W i l l i a m s , R . ; M u r d o c h , M . ; N a t i o n a l M a r i n e F i s h e r i e s s e r v i c e , B e a u f o r t , N . c .
P a r t o f V o l u a e 2 , P r o c e e d i n g s o f t h e T h i r d N a t i o n a l S y m p o s i u m o n R a d i o e c o l o g y , H a y 1 0 - 1 2 , 1 9 7 1 , o a k R i d g e , T N , C O N F - 7 0 1 5 0 1 - P 2 , ( 1 2 1 3 - 1 2 2 1 )
A L G A E J B I O L O G I C A L R A D I A T I O N E F F E C T S ; C H R O N I C I R R A I D A T I O N ; DOSE R A T E S ; E S T U A R E I S ; GAMMA R A D I A T I O N ; I N V E R T E B R A T E S ; PHOTON B E A H S ; S E A W A T E R ; S E D I M E N T S ; C O M M U N I T I E S ; MICROCOSMS
983 98
9 8 3 F i e l d S t u d i e s o f F a l l o u t R e t e n t i o n b y P l a n t s
W i t h e r s p o o n , J . P . ; O a k R i d g e N a t i o n a l l a b . , T e n n .
P a r t o f U s A F C S y r a p . S e r i e s S u r v i v a l o f F o o d c r o p s a n d L i v e s t o c k i n t h e E v e n t o f N u c l e a r H a t ; C O N P - 7 0 0 9 0 9 ( 3 9 6 - 4 0 4 ) . ; 1 9 7 1 , D e c e m b e r
C R O P S ; F A L L O U T ; P A R T I C L E S I Z E ; P A R T I C L E S ; R E T E N T I O N ; T I M E D E P E N D E N C E ; T R E E S ; P L A N T S
9 8 4 I n t e r c e p t i o n a n d R e t e n t i o n o f a S i m u l a t e d F a l l o u t b y A g r i c u l t u r a l P l a n t s
W i t h e r s p o o n , J . P . ; T a y l o r , F . G . ; R a d i a t i o n E c o l o g y S e c t i o n , H e a l t h P h y s i c s D i v i s i o n O a k R i d g e N a t i o n a l L a b o r a t o r y ; O a k R i d g e , T e n n e s s e e 3 7 8 3 0
H e a l t h P h y s i c s P e r g a m o n P r e s s . V o l . 1 9 ( O c t . ) , 4 9 3 - 4 9 9 ; 1 9 7 0
I N T E R C E P T I O N ; R E T E N T I O N ; P L A N T S ; S I M U L A T E D F A L L O U T P A R T I C L E S ; R U B I D I U M 8 6
TAXONOMY: C U B U R B I T A MOSCHATA; G L Y C I N E MAX; SORGHUM V O L G A R E ; A R A C H I S HYPOGAEA; L E S P E D E Z A S T I P U L A C E A
987 T r a n s f e r o f C e s i u r o - 1 3 7 f r o m D e t r i t u s t o P r i m a r y P r o d u c e r
H i t k a m p , n . ; E c o l . S c i . D i v . , O a k R i d g e N a t l . L a t . , o a k R i d g e , T e n n .
P a r t o f I s o t o p . R a d i a t . S o i l - P l a n t R e l a t . I n c l . F o r e s t . , P r o c . S y m p . ( 3 4 1 - 8 ) ; 1 9 7 2
P L A N T S ; C E S I U M ; N U T R I T I O N ; M I C R O C O S M S ; D I X I E E S N U S ; L I T T E R ; C E S I U M 1 3 7 ; P R O D U C T I O N ; R A D I O N U C L I D E S ; M I L L I P E D E S ; S N A I L S ; T E R R E S T R I A L E C O S Y S T E M S
TAXONOMY: P A R A V I T R E A s p . ; L I R I O D E N D R O N T U L I E I F E R A ; AMORPHA 2 R U C T I C 0 S A ; D I X I D E S M U S E R A S U S
9 8 8
C e s i u m 1 3 7 K i n e t i c s i n T e r r e s t r i a l M i c r o c o s m s
N i t k a u p , M . ; F r a n k , M . L .
P a r t o f N e l s o n , D . J . ( E d . ) , E v a n s , F . c . ( E d . ) , S y m p o s i u m o n R a d i o e c o i o g y , P r o c e e d i n g s o f s e c o n d N a t i o n a l S y m p o s i u m , H e l £ a t A n n A r b o r , M l , M a y 1 5 - 1 7 , 1 9 6 7 ( p . 6 3 5 - 6 4 3 ) ; 1 9 6 8
C E S I U M 1 3 7 ; K I N E T I C S ; T E R R E S T R I A L M I C R O C O S M S ; MICROCOSMS
9 6 5 R e t e n t i o n o f 1 t o 4 4 M i c r o n S i m u l a t e d F a l l o u t P a r t i c l e s b y S o y b e a n a n d S o r g h u m P l a n t s
H i t h e r s p o o n , J . P . ; T a y l o r , F . G .
H e a l t h P h y s . - 2 1 - N o . 5 , 6 7 3 - 7 ; 1 9 7 1 , N o v e m b e r
C O N T A M I N A T I O N ; F A L L O U T ; G R A I N S I Z E ; MOCKUP; P A R T I C L E S ; S U R F A C E S ; Z O N E S ; C E S I U M 1 3 4 ; R E T E N T I O N ; S O Y B E A N S ; T I M E D E P E N D E H C E
9 8 6 R e t e n t i o n o l : a F a l l o u t s i m u l a n t C o n t a i n i n g ( 1 3 4 ) C s b y P i n e a n d O a k T r e e s
H i t h e r s p o o n , J . p . ; T a y l o r , F . G . ; R a d i a t i o n E c o l o g y S e c t i o n , H e a l t h P h y s i c s D i v i s i o n , O a k
r: R i d g e N a t i o n a l L a b o r a t o r y , O a k R i d g e , T e n n e s s e e 3 7 8 3 0
H e a l t h P h y s i c s 1 7 , 8 2 5 - 8 2 9 ; 1 9 6 9
C E S I U M 1 3 4 ; E F F E C T I V E H A L F - L I F E ; W E A T H E R I N G ; R E T E N T I O N ; P I N E T R E E S ; F A L L O U T S I M U L A N T ; OAK T R E E S
TAXONOMY: P I N U S S T R O B U S ; QOERCUS RUBRA
9 8 9 E f f e c t s o f T e m p e r a t u r e , R a i n f a l l , a n d F a u n a o n T r a n s f e r o f ( 1 3 7 ) C s , K , M g , a n d M a s s i n C o n s u m e r - D e c o m p o s e r M i c r o c o s m s
H i t k a m p , N . ; F r a n k , M . L . ; E c o l o g i c a l S c i e n c e s D i v i s i o n , O a k R d i g e N a t i o n a l L a b o r a t o r y , O a k R i d g e T e n n e s s e e
E c o l o g y 5 1 ( 2 ) , 4 6 5 - 4 7 4 ; 1 9 7 0
T E M P E R A T U R E ; M I C R O C O S M S ; COMPUTER S I M U L A T I O N ; C E S I U M 1 3 7 ; MAGNESIUM; P O T A S S I U M ; T R A N S F E R ; B A I N ; A N I M A L S ; L E A C H I N G ; T R A N S F E R R A T E S
9 9 0 M a t h e m a t i c a l M o d e l f o r F a t e o f P o l l u t a n t s i n N e a r - S h o r e H a t e r s
W n e k , H . J . ; F o c h t m a n , E . G . ; I I T R e s e a r c h I n s t i t u t e ; 1 0 W. 3 5 t h S t . ; C h i c a g o , 1 1 1 . 6 0 6 1 6
E n v i r o n m e n t a l S c i e n c e a n d T e c h n o l o g y 6 ( 4 ) , 3 3 1 - 3 3 8 ; 1 9 7 2 , A p r i l
P 0 1 L U I A N T D I S T R I B U T I O N ; MATHEMATICAL M O D E L S ; C O A S T A L W A T E R S ; S E W A G E ; I N D U S T R I A L W A S T E S ; WATER; M U I T I E L E S O U R C E S ; DECAY R A T E S
- . ,,: . . .. 9 9 1 , C y c l i n g o f E l e m e n t s i n E s t u a r i e s
W o l f e , D . A . ; R i c e , T . R . ; N a t i o n a l M a r i n e F i s h e r i e s S e r v i c e , B e a u f o r t , N . C . , A t l a n t i c E s t u a r i n e F i s h e r i e s C e n t e r
F i s h e r y B u l l . , 7 0 ( 3 ) , 9 5 9 - 9 7 2 ; 1 9 7 2 , J u l y
H E A V I M E T A L S ; S T R E S S E S ; E S T U A R I E S ; W A S T E ; M E T A L S ; T R A N S F O R M A T I O N ; T U R N O V E R ; R A D I O I S O T O P E S ; C Y C L I N G ; TRACE E L E M E N T S ; F I S H E R I E S ; S E D I M E N T S ; MATHEMATICAL M O D E L S ; A Q U A T I C E C O S Y S T E M S ; R A D I O E C O L O G Y ; REVIEW
99 1013
9 9 2 C h e m i s t r y o f P h e n . y l a e r c u r y C o m p o u n d s i n t h e A g u a t i c E n v i r o n a e n t
W o l f e , N . I . ; Z e p p , R . G . ; G o r d o n , J . A . ; B a u g h m a n , G . L .
C h e m o s p h e r e W o . 6 , p p . 2 7 3 - 2 7 8 ; 1 9 7 2
PHENYLMERCURY; K I N E T I C S ; C L E A V A G E ; D I P H E N Y L H E R C U R Y ; D E B E R C U R A T I O N ; P H E N Y L M E R C O R I C S A L T S ; P H ; T E M P E R A T U R E ; A Q U A T I C E C O S Y S T E M S ; MERCURY
9 9 3 F i e l d a n d L a b o r a t o r y D e t e r m i n a t i o n o f H y d r a u l i c D i f f u s i v i t y o f a C o n f i n i n g B e d
W o l f f , R . G . ; U . S . G e o l o g i c a l S u r v e y , W a s h i n g t o n , D . C . 2 0 2 U 2
W a t e r R e s o u r c e s R e s e a r c h , 6 ( 1 ) , 1 9 4 - 2 0 3 ; 1 9 7 0
C O N F I N I N G B E D ; F I E L D S T U D I E S ; LABORATORY S T U D I E S ; D I F F U S I V I T Y ; P I E Z O M E T E R S ; H Y D R A U L I C C O N D U C T I V I T Y ; P A R T I C L E S I Z E D I S T R I B U T I O N ; CLAY MINERALOGY
9 9 4 R a p i d R e a c t i o n R a t e s B e t w e e n W a t e r a n d a C a l c a r e o u s C l a y A s O b s e r v e d b y S p e c i f i c - I o n E l e c t r o d e s
W o o d , W . W . ; U . S . G e o l . S u r v . , L u b b o c k , T e x .
J . R e s . U . S . G e o l . S u r v . ( J R G S A W ) 1 ( 2 ) 2 3 7 - 4 1 ; 1 9 7 3
C A T I O N E X C H A N G E ; S O I L S ; WATER; L E A C H I N G ; M I N E R A L S ; P H ; C L A Y S ; S P E C I F I C - I O N E L E C T R O D E S
9 9 5 E f f e c t s o f P o l l u t i o n o n t h e s t r u c t u r e a n d P h y s i o l o g y o f E c o s y s t e m s
W o o d w e l l , G . M .
S c i e n c e , 1 6 8 , 4 2 9 - 4 3 3 ; 1 9 7 0
S T R U C T U R E ; P H Y S I O L O G Y ; E C O S Y S T E M S
996 DDT i n t h e B i o s p h e r e : W h e r e D o e s I t G o ?
W o o d v e l l , G . M . ; C r a i g , P . P . ; J o h n s o n , H . A .
S c i e n c e 1 7 4 , p p 1 1 0 4 - 1 1 0 7 ; 1 9 7 1 , D e c e m b e r 1 0
GLOBAL M O D E L I N G ; R E S I D U E S ; D D T ; E I O S P H E R E ; MODEL; MATHEMATICAL MODEL
9 9 7 E f f e c t s o f F e r t i l i z e r M a t e r i a l s a n d C o m b i n a t i o n s c n t h e P h y t o t o x i c i t y , A v a i l a b i l i t y , a n d c o n t e n t o f A r s e n i c i n C o r n ( M a i z e )
W o o l s o n , E . A . ; A g r i c . E n v i r o n . Q u a l . I n s t . , A g r i c . R e s . S e r v . , B e l t s v i l l e , MD
J . S c i . F o o d A g r . ( J S F A A E ) , 2 3 ( 1 2 ) , 1 4 7 7 - 8 1 ; 1 9 7 2
P H Y T O T O X I C I T Y ; F E R T I L I Z E R S ; A R S E N I C ; P L A N T S ; S O I L S ; C O R N ; B I O L O G I C A L A V B I I A B I L I T Y
9 9 8 T h e C h e m i s t r y a n d P h y t o t o x i c i t y o f A r s e n i c i n S o i l s E a r t I s C o n t a m i n a t e d F i e l d S o i l s
W o o l s o n , E . A . ; A x l e y , J . H . ; K e a r n e y , P . c . .
S o i l S c i S o c Am P r o c 3 5 ( 6 ) , 9 3 8 - 9 4 3 ; 1 9 7 1
P H Y T O T O X I C I T Y ; A R S E N I C ; S O I L S ; F I E L D S O I L S ; F I X A T I O N ; A C C U M U L A T I O N ; R E S I D U E S ; P E R S I S T E N C E
9 9 9 C o r r e l a t i o n B e t v e e n A v a i l a b l e S o i l A r s e n i c E s t i m a t e d b y 6 H e t h o d s a n d R e s p o n s e o f C o r n - M Z e a - M a y s - M
W o o l s o n , E . A . ; A z l e y , J . H . ; K e a r n e y , P . C .
S o i l S c i S o c A m e r P r o c 3 5 ( 1 ) , 1 0 1 - 1 0 5 ; 1 9 7 1
P H Y T O T O X I C I T Y ; A R S E N I C ; S O I L S ; C O R N ; P L A N T S ; i A V A I L A B I L I T Y
TAXONOMY: Z E A - M A Y S - M
1000 P e r s i s t e n c e a n d R e a c t i o n s o f ( 1 4 C ) - C a c o d y l i c A c i d i n S o i l s
W o o l s o n , E . A . ; K e a r n e y , p . c . ; A g r i c . R e s . C e n t . , A g r i c . R e s . s e r v . , B e l t s v i l l e , MD
E n v i r o n . S c i . T e c h n o l . ( E S T H A G ) , 7 ( 1 ) , 4 7 - 5 0 ; 1 9 7 3 '
P E R S I S T E N C E ; R E A C T I O N S ; C A C O D Y L I C A C I D ; S O I L S ; H E R B I C I D E S ; D E G R A D A T I O N ; A R S E N I C
1001 R e d u c i n g M e r c u r y P o l l u t i o n f r o m K j e l d a h l D e t e r n i n a t i o n o f T o t a l N i t r o g e n
W o r s h a m , H . N . ; B l a c k m o n , B . G .
J o u r n a l o f E n v i r o n m e n t a l Q u a l i t y , 2 ( 3 ) , 3 9 5 - 3 9 6 ; 1 9 7 3
MERCURY; K J E L D A H L D E T E R M I N A T I O N ; N I T R O G E N ; D I G E S T I O N C A T A L Y S T ; P O L Y E T H Y L E N E T R A P ; LABORATORY T E C H N I Q U E S ; D I G E S T I O N S A L T S ; R E C O V E R Y ; Z I N C ; . MERCURY TRAP
1002 T h e U p t a k e o f O r g a n i c S o l u t e s i n L a k e W a t e r
W r i g h t , R . T . ; H o b b i e , J . E . ; T h e I n s t i t u t e o f L i m n o l o g y , U p p s a l a , S w e d e n
L i m n o l . O c e a n . , 1 0 , 2 2 - 2 8 ; 1 9 6 5
U P T A K E ; O R G A N I C S O L U T E S ; PLANKTON; L A K E S ; UPTAKE V E L O C I T Y ; T R A N S P O R T
1003 100
1 0 0 3 L a b o r a t o r y S t u d i e s o f A s s e m b l a g e s o f A t t a c h e d E s t u a r i n e D i a t o m s
W u l f f , B . L . ; M c l n t i r e , C . D . ; D e p a r t m e n t o f B o t a n y , O r e g o n S t a t e U n i v e r s i t y , C o r v a l l i s 9 7 3 3 1
L i m n o l . o c e a n . 1 7 , 2 0 0 - 2 1 4 ; 1 9 7 2
LABOHATOHT S T U D I E S ; L I G H T I N T E N S I T Y ; D E S I C C A T I O N ; S A L I N I T Y ; D I A T O M S ; D I S T R I B U T I O N ; S T R U C T U R E ; F E R I P H Y T O N ; S E A S O N A L V A R I A T I O N S ; T E M P E R A T U R E ; E S T U A R I E S
TAXONOMY: H E L O S I R A N U H H U L O I D E S
10C8 D e v e l o p a e n t o f P l a n k t o n i c O r g a n i s m s o f a n E u t r o p h i c R e s e r v o i r a n d T h e i r i n t e r a c t i o n v i t h R a d i o a c t i v e E n v i r o n m e n t
Y a n k y a v i c h y u s , K . ; A n t a n i n e n e , A . ; B a r a n a u s k e n e , A .
L i e t u v o s T s r H o k s t u A k a d e m i j o s D a r b a i , S e r i j a C -3 - N o . 5 9 , 3 - 2 2 ; 1 9 7 2
A L G A E ; B A C T E R I A ; C E R I U N 1 4 4 ; C E S I U H 1 3 7 ; P L A N K T O N ; P R O T E I N S ; R A D I O I S O T O P E S ; R U T H E N I U H 1 0 6 ; S E A S C H A L V A R I A T I O N S ; S 1 R O N T I U f l 9 0 ; U P T A K E ; HATER R E S E R V O I R S
1 0 0 4 A S t u d y o f C o r r e l a t i o n s A a o n g N u t r i e n t C o n c e n t r a t i o n o f T o d o P i r - G A b i e s - S a c h a l i n e n s i s - G . N e e d l e G r o v t h a n d S o i l C o n d i t i o n s
Y a m a m o t o , T . ; S a n a d a , E .
B u l l G o v P o r E x p S t n T o k y o ( 2 2 9 ) . 2 3 - 6 2 ; 1 9 7 0
M I N E R A L S ; P H ; B A S E ; EXCHANGE C A P A C I T Y ; S O I L S ; T R E E S ; P I R ; N U T R I E N T S
TAXONOHY: A B I E S S A C H A L I N E N S I S - G
1 0 0 5 N u t r i e n t U p t a k e b y P l a n t e d T o d o F i r - G , A b i e s s a c h a l i n e n s i s - G N u t r i e n t C i r c u l a t i o n a n d a C h a n g e o f S o i l i n F o r e s t L a n d
Y a m a a o t o , T . ; s a n a d a , E .
B u l l , o f t h e G o v . F o r e s t E x p e r i a e n t S t a t i o n T o k y o , ( 2 2 9 ) 9 3 - 1 2 1 ; 1 9 7 0
U P T A K E ; HUNUS; D E C O M P O S I T I O N ; N U T R I E N T S ; F I R ; S O I L S ; F O R E S T S
TAXONOMY: A B I E S S A C H A L I N E N S I S
1006 L e a f D e c o m p o s i t i o n o f A i n u s I n o k u a a e ( A l d e r ) a n d H o v e a e n t o f S o a e C o n s t i t u e n t s O r i g i n a t i n g f r o a D e c o o p o s e d L e a v e s
Y a a a y a , K . ; T o h o k u B r a n c h , G o v . F o r e s t E x p . S t n . , M o r i o k a , J a p a n
R i n g y o s h i k e n j o K e n k y u H o k o k u ( R S K B A C ) , N o . 2 4 9 , 1 - 1 6 ; 1 9 7 2
D E C O M P O S I T I O N ; F O R E S T S ; L I T T E R ; S O I L S ; N U T R I E N T S ; A L D E R ; L E A F ; P I N E ; T R A N S P O R T
TAXONOMY: ALNUS INOKUMAE
1 0 0 7 E f f e c t o f S o i l H a t e r P o t e n t i a l a n d B u l k D e n s i t y o n H a t e r U p t a k e P a t t e r n s a n d R e s i s t a n c e t o F l o w o f H a t e r i n N h e a t - H P l a n t s
Y a n g , S . J . ; D e J o n g , E .
C a n . J . S o i l S c i . , 5 1 ( 2 ) , 2 1 1 - 2 2 0 ; 1 9 7 1
1 0 0 9 D e t e r a i n a t i o n o f L e a d i n B i o l o g i c a l a n d R e l a t e d M a t e r i a l s b y A t o m i c A b s o r p t i o n s p e c t r o p h o t o m e t r y
Y e a g e r , D . H . ; c h o l a k , J . ; H e n d e r s o n , E . H .
E n v i r o n S c i T e c h n o l 5 ( 1 0 ) , 1 0 2 0 - 1 0 2 2 ; 1 9 7 1
LEAD A S S A Y ; L E A D ; A T O N I C A B S O R P T I O N S P E C T R O P H O T O M E T R Y
1010 A M e t h o d f o r t h e D e t e r m i n a t i o n o f P h y t o p l a n k t o n C h l o r o p h y l l a n d P h a e o p h y t i n b y F l u o r e s c e n c e
Y e n t s c h , C . S . ; M e n z e l , D . H . ; H o o d s H o l e O c e a n o g r a p h i c I n s t i t u t i o n
D e e p - s e a R e s e a r c h , 1 0 , 2 2 1 - 2 3 1 ; 1 9 6 3
P H Y T C P L A N K T O N ; C H L O R O P H Y L L ; P H A E O P H Y T I N ; F L U O R E S C E N C E ; CHLOROPHYLL
1011 C o a b i n e d I o n - E x c h a n g e S e p a r a t i o n a n d A t o a i c A b s o l u t i o n D e t e r n i n a t i o n o f H e a v y M e t a l s i n S o i l s . I . H e a v y M e t a l C o n t a m i n a t i o n o f S o i l s
Y o n e d a , S . ; I m a m u r a , M . ; S h i g e a o t o , H . ; K o c h i , T . ; U n i v . O k & y a a a , O k a y a a a , J a p a n
N i p p c n D o j o - H i r y o g a k u Z a s s h i ( N I D H A X ) 4 3 ( 8 ) 2 7 8 - 8 4 ; 1 9 7 2
T R A C E E L E M E N T S ; D E T E R M I N A T I O N ; S O I L S ; I O N EXCHANGE; A T O M I C A B S O R P T I O N
1012 T h e P r o d u c t i o n o f I A A b y B e c t r i a - P t e r o s p e r a i
Y u , P . H . ; C h e n , C . C . ; H u , L . C .
B o t B u l l A c a d S i n i c a ( T A I P E I ) 1 1 ( 2 ) , 9 8 ~ 1 0 4 ; 1 9 7 0
GROWTH; S U B S T A N C E ; N U T R I T I O N ; T E M P E R A T U R E ; L I G H T ; A G I T A T I O N ; I AA
TAXONOMY: N E C T R I A - P T E H O S P B R f l l
S O I L H A T E R ; BUS.K D E N S I T Y ; U P T A K E ; H H E A T - H ; P L A N T S MATHEMATICAL H O D E L ; S O I L S ; MOVEMENT
101 1013
1013 Biological Turnover of Ash Elements and Nitrogen on Pine Felling Areas Yurkevicb, I.D.; Yaroshevich, E.P.; Golod, D.S.; Inst. Eksp. Bot., Minsk, USSR Lesovedenie (LESOAB) (5) 3-13; 1972 ASH; ELEMENTS; TORHOVEH; PINE; NITROGEN; POTASSIUM; UPTAKE; MINERALS; TREES
1014 The Uptake of insecticides by Freshwater Mussels and the Effect of Sublethal Concentrations of Insecticides on these Mussels; Project Completion Rept. 1 Jul 69-30 June 70 Zabik, H.J.; Bedford, J.W.; Michigan state Univ., East Lansing. Dept of Entomology Dept. of Entomology, Michigan State University, PB 214 090/3; Monitoring Agency Rept No. H73-03904, OHRR-A-035-MICH(1); Proj. OWRR-A-035-MTCH; 29 p.; 1972, December HATER; ANIMALS; MUSSELS; INSECTICIDES; SHELLFISH; SUBLETHAL DOSAGE; DET; DIELDRIN; LETHAL DOSAGE; PESTICIDES; DIGESTIVE SYSTEM; REPRODUCTIVE SYSTEM; LAKES; BIOLOGICAL ABSORPTION; TISSUE UPTAKE
1018 Partition Coefficients of a Series of Aliphatic Ketones Zorik, V.I.; Sairnov, N.I.
Khia. Khim. Tekhnol. (D8MKYC) 1971, No. 12, () 94-7; 1972 KBTONES; ALIPHATICS; PARTITION COEFFICIENTS
1 0 1 9 Effect of Soluble and Exchangeable Aluainua on a Soil Bacillus Zwarun, A.A.; Bloomfield, B.J.; Thoaas, G.H.
Soil Sci Soc AB Proc 35 ( 3 ) , 460-463; 1971
ALUMINUM; BENTONITE; ADSORPTION; CATION; EXCHANGE CAPACITY; ORGANISMS; CLAYS; AGGREGATES; TOXICITY; MICROORGANISMS TAXONCMY: BACILLUS
1015 Transport in the Xylem Zinmermann, M.H. Part of Zimmerman, Martin H. and Claud L. Brown. Trees: structure and Function. 335p. Springer-Verlag: New York, NY, 0. S.A. Berlin, West Germany (169-220); 1971
TREES; HATER; SOLUTES; TRANSPORT; XYLEH
1016 Release of Heavy Metals from sediaents by Nitrilotriacetic Acid (NTA) Zitko, V.; Carson, H.v.; Biol. Stn., St. Andrews, New Brunswick Chemosphere, 1(3), 113-118; 1972 HEAVY METALS; RELEASE; SEDIMENTS; NITRILOTRIACETIC ACID
1017 Nutrient Conposition of Selected Hheats-M and Hheat-N Products Part 6 Distribution of Manganese, Copper, Nickel, Zinc, Magnesiua, Lead, Tin, Cadaiua, Chromium and Seleniua as Determined by Atonic Abosrption spectroscopy and Coloriaetry Zook, E.G.; Greene, F.E.; Morris, E.R. Cereal Chem 47(6), 720-738; 1970 BAKED PRODUCTS; NUTRIENT COMPOSITION; HHEATS-M; HHEAT-M PRODUCTS; DISTRIBUTION; MANGANESE; COPPER; NICKEL; ZINC; MAGNESIUM; LEAD; TIN; CADMIUM; CHROMIUM; SELENIUM; ATOMIC ABSORPTION SPECTROSCOPY; COLORIMETRY
,105
AUTHOR INDEX
Aarkrog, A. 6
Abbott, W. 7 8
Abdel-Gawaad, A.A. 9
Abernathy, J.F. 10 11
Abushev, R. A. 471
Acree, P., Jr. 12
Adams, R.S. 13 14
Addiscott, T.H. 15
Adriano, D.C. 16 17
A H R , W . H . 18
Al'Tshuler, G.N. 19
Albone, E.S. 20
Albright, L.3. 697
Aleksakhin, R.H. 21
Alexander, K. 22 40 61 265 726
Allen, S.C. 23
Alloway, B.J. 2ft
Alperovitch, N. 559
Alvarez, B. 900
Aoar, A.J. 817
Amhurgey, J.W., Jr. 92
Amend, D.F. 25
Anneraan, C.B. 26
Andersen, A. 27
Andersen, J.R. 28
Anderson, J.P.E. 29
Anderson, T.D. 30
Andren, A.W. 364
Anginc. E.E. 31
Anisiaova, L.S. 561
Antaninene, A. 1C08
Apgar, n.A.
Archer, p.c. •S V
Arle, H.v. 3 4
Armstrong, D.E. 560 844 976 977 978
Arostrong, N. 667
Armstrong, N.E. 1 K
Arnold, D.J. 6 53
Arvik, J.H. 36
Arvisto, E. 770
Askari, A. 4 13
Assaf, R. 558
Athalye, V.V. 37 38
Auertach, S.I. . 156
Auletich, R.J. 35
Auschaloa, H. S €
Axley, J.H. 5 5 8
Ayanata, A. 4C
Aylesworth, J.H. ee
Ayloi, D. 713
Azley, J.H. 999
Batcock, K.L. 902
Batincts, A.E. 41
Bache, C.A. €25
Bachelard, E.P. 814
Bachaann, R.W. 42 43 683
,106
AUTHOR INDEX
Baclimat, Y. 44
Bawden, C.A. 715
Badras, V.G. 45
Bagshaw, P. 46
Bazargani, J. 470
Beal, Cpt. Kenneth L. 62
Bailey, G. W. 47
Beall, M.L. 62 64 663
Baird, R.N. 887
Beauchamp. J.J. 197
Bakels, C.C. 314
Becker, D.I. 765
Baker, D.I. 48 :
Bedford, J.W. 1C14
Baldwin, J.P. 49
Beek, H. 769
Ball, R.C. 50 485
Ballard, R. 51
Beeton, A.M. 599
Bell, J.R. 788 \
Ballard, T.H. 52
Bellan, G. 6 S
Banat, K. 53
Belousov, M.S. 66
Banerji, S.K. 54
Bender, H.E. 4C4
Bankert, I. 189
Bengtson, G.N. 67
Banwart, v.L. 730
Bennett, P.J. 387
Baptist, J.P. 55 188 226
Benzing, D.H. 6 8
Baranauskene, A. 1008
Beque, H. € 5
Barber, J. 841
Berg, A. 3C3
Barber, S.A. 56 943 944
Berg, N.H. 7 C
Barrett, G.tf. 57 58 125
Bernhard, (1. 71
Barsdate, R.J. 59
Beroza, ft. 12
Bartha, P. 97 98 99
Bartnik, V.G. 297
Easier, 854
Eatteriaann, G. 94
Baughman, G.L. 992
Baumhardt, G.B. 60
Bautista, s.H. 61
Beyers, R.J. T2 73 74 168 258 319
Biddulph, G. 220
Biggar, J.VI. 669 942
Bigliccca, C. 3C3
Bingham, 76
Bishop, S.E. 1 6
Bittsl, R. 69 79
75 320
76 687
77
,107
AUTHOR INDEX
Blackburn, R.D. 885 886
Blacknon, B.G. 1001
Blair, G.J. 80
Blanchar, p.H. 81
Blasco, 82 8
Blea*se, J.A. 212
Bledsoe, B.E. 230 231
Bloom, S.G. 84
Bloomfield, B.J. 1019
Blumer, H. 85
Blunt, sister H.X. 685
Boast, C.H. 86
Bacharova, M. A. 21
Eody, D.F. 373
Boersma, I. 568 569 570
Bohn, tl.I. 87
Eolton, E.v. 88
Bolyshev, N.N. R9
Bonatti, E. 90
Bone, D.H. 9 1
Bonner, v.p. 92
Bonnier, A. 93
Boochs, P.w. 94
Booth, G.H. 95 635
Borak, T.B. 96
Bordeleau, L.K. 97 98 99
Bordelon, B.R. 737
Borg, K. 100
Bctnann, F.H. 558
Boroughs, H. 1C1 102 103
Bcrthnick, P.W. E 19
Bothner, I.H. 1C4
Bouchcr, F.R. 1 C 5
Bould, C. 1 C 6
Bcuipa, J. 107
Bcurtcn, P. 1C8
Bourget, S..1. 148
Boush, G.H. 605 606 717
Benbjerg, H.v. 306
Bowen , V.T. 414
Bcver, C.A. 1C9
Bowman, I.e. 12
Boyfl, C.P. 319
Bradford, G.R. 113
Bradley, J.R., Jr. 839
Brantley, R.K. 777
Braunschweig, L.C.V. 335
Bravdc, B. 558
Bredeboeft, J.D. 110 111 732
Bresler, E. 112
Bressan, D.J. 974
Brcadtent, F.E. 113 758
Brcck, T.D. 23
Brccksen, R.W. 114 144
Broda, E. 261
Brcdtnann, N.V. 115
,108
AUTHOR INDEX
Brooks, G.T. 116
Cairns, J«J. 135 136
Broussy, G. 108
Caaercn, H.L. 368 614
Brower, D.I. 532
Caapbell, A.S. 868
Browman, M.G. 117
Campbell, B.S. 454 455
Brown, I.E., Jr. 738
Cannell, H.G.R. 137
Brown, T.E. 118
Cardev, H.H. 333
Broyer, T.C. 211
Carlucci, A.F. 348
Bruce, N.N. 767
Caro, J.H. 138 139
Bruch, J.C., Jr. 119
Carpenter, R. 1C4
Bruck, S.D. 120
Carroll, J. 161
Brumbach, S.B. 121
Carson, W.V. 1C16
Brungs, H.A. 122 123
Carter, J.N. 279
Buchholti, K.P. 649
Carter, R.C. 140
Buckley, D.E. 182
Carvaeho, E.A. 141
Buecking, H. 124
cary, J.H. 142
Buenmann, G. 577
Cearley, J.E. 143
Bulan, c.A. 125
Chadwick, G.G. 144
Buneaann, G. 126
Chadwick, R.C. 145
Burcar, F.J. 958
Chaing, J. 75C
Burke, 0. H. 680
Chamterlain, A. 145
Buirkitt, A. 127
Chandler, C.C. 599
Burlakova, Z.P. 128
Chandler, J.H. 812
Burns, I.G. 129 130
Chapman, R.K. 259
Butler, J.t. 131
Charig, A.J. 640
Button, U.K. 132 133
Chase, N.N. 374
Byrne, G.F. 134
Chase, T. 85
Byrne, R.H., Jr. 482
Chau, I.K. 146
Cafly, F.B. 887
Chavant, I. 1C8
,109
AUTHOR INDEX
Chon, C.C. 101?
Ccoodnay, I. E I(3
Chen, C.H, 147
Confer, J.I. 1 6 1
Cheng, B.T. 1 4 8
Cherkasova, S.V. 920
Ccckc, A.S. 1C5
Cocke, G.D. 166 167 168
Chesters, G. 1 1 7 1 4 9 14 28 733
Cccper, H.'i., Jr. 7 32
Chiang, L.T. 400
Cope, O.B. 169
Chipn, T.S. aoo
Childers, w.p. 767
Copeland, B.J. 1 7 0 1 7 1 172 1 7 3
Copcland, B.J., Dorris, T.C. 1 7 4
Chisholm, D. 8 7 7
Corey, J.C. 3 30
cho. c.rt. I S O 1 5 1
Cholak, J. 1009
Chough, K.S. 3 3 6
Chrenekova, E. 3 9 2
152 comfccth, I.s.
1 7 5 1 7 6
Ccrwin, N. 463 48U
Cosby, R.I. 2 3 0 2 3 1
Ccshcv, H.R. 3 5 1
Christian, J.p. 153
Cottenie, A. €60
Chuah, H.H. 4 4 9 4 5 1
Chuprina, G.N. 15U
Chuprina, I.". 1 5 U
Ccutant, c.c. 919
Cos, R.J. 1 7 7
Cracken, R.J. 1 7 8
Cibes-Viade, H.R. 571
Craig, P.P. 5 S 6
Clark, J.S. 1 5 5
Craig, R.H. 1 7 8
Clark, T.P. 156
Craker, I.E. 1 7 9
Clarkson, T.N. 157 673 674
Craner, J. 160
Clement, C.R. 1 5 8 4 5 8
Cliath, n.n. 1 5 N 1 6 0 866 867
Cranmer, H. i e i
Cranston, B.E. I E 2
Clouet, Y. 161
Crooke, H.H. I E 3
Coats, J.R. 465 466
CrcstJ, D.G. 184 185
Coble, A.J. 157
Crcsfcy, J.H. Ill 1 6 6
Coffin, c . c . 162
Coleby. A.H.P. 163
Cress, P.A. 1 8 7 1 8 8
crossley, D.A., Jr. 9 2 7
,110
AUTHOR INDEX
Culbertson, J.K. 256
Cunnings, S.L. 189
Cummins, K.w. 190 542
curry, L.v. 553
Cushing, C.E. 191 192 193 949
Czuba, R.:\ 194
Czvrska, H. 4 1 5
t'ltri, F.M. 157
Dagan, G. 242
Dahlnan, R.C. 195 196 197 934
Dalla Venezia, 1. 597
Dalpont, G. 668
Damanakis, M. 198
Daniel, J.w. 199
Daniels, R.B. 178
Darnell, R.M. 58
Davey, S.P. 200
Davidson, J.H. 10
Uavies, B.E. 2 4
Davis, B.N. 201 436
Davis, T).G. 202
Davis, G.E. 114 945 946
Davis, J.J. 203
Davis, S. 78
De Goeij, J.J.M. 205. •
De Groot, A.J. 204 * 205
De Jong, "E. 1007
De Koning, H.R. 206
De Hit, C.T. 278
Dekkec, A. <3. 248
Delas, J. 207
Deli, J. 2C8
Derr, d.A. 6 8
Deubert, K.H. 3 37
Deuel, H. .627
Devlin, R.M. 2C9
Dewitt, J.B. 879
Deflolfe, T.A. 529
Di Salvo, I.H. 210
Dickscn, R.E. 211
Dieter, C.T. 378
Dillard, G.E. 962
Dinond, J.B. 2 1 2
Dindal, D.l. 213 214
Dicn, E. 364
Dotrykina, F.Y. 6 C 8
Dcdd, J.D. 215
Dodge, H.E. 879
Dollar, A.M. 897
Dollimoce, D. 153
Dcmenico, p.A. 216
Dcninick, T.F. 2 1 7
Donaldson, D.E. 218
Dormaar, J.T. 219..
Dccnbush, J.N. 2 8
Dcrris, T.C. 572
,111
AUTHOR INDEX
Dr°fahl, D. 512
Dietitian, *i.S.H. 198
Drew, M.C. 220
Drouinoau, G. 221
Drozdova, T.V. 596
Dubach, P. 222 677
Dud as, (I.J. 223
Duff, H.G. 224 Duffer, H.C.
757 Dugan, P.P.
557 727 Dugdalc, ^.c.
J10
Duke, J . H . 225
Duke, T.W. 187 276 227 228
Dunawav, p.B. 196 496
Dunigan, E.P. 229
Dunker, S.S. 13 3
Dunlap, N.j. 230 231
Eupuy, c. 232
Dusauskiene-Duz, N. 23 3
Djsbabek, K.E. 2 0 2
Duseja, D.R. 249
Dutton, J.W.P. 74 6
Duursma, E.K. 234 235 236
Eagon, R.G. 320
Eberhardt, L.I. 237
Edland,T. 238
Edmondson, W.T. 239
Bdmondson, T.H. 239
Edwards, C.A. 2 «0
Edwards, H.w, 9 1 5
Eglinton, G. 2C
Eisler, R. 241
El-Gayar, F.H. 9
"ldot, M. 2 4 7
Elgala, A. II. 243
Ellet, L. 1 6 9
Ellington, C.P. 4 7 6
Sllictt, L. = C E
Elzeftavy, A. 593
Emery, W.T. 244
Enfield, C.G. 245
Epifanio, C.E. 246
Eppley, R.W. 8 6 1
Epstein, E. 782
Erne, K. 100
Ernst, W. 247
Evans, E.J. 248
Evans, J.0. 249
Evans, N.C. 20
Evans, T. 31
Eving, B.B. 54
Eyman, L. 250
Fagerstrom, T. 2E1 252
Fairaan, 0. 96
Falade, J.A. 253
Fang, s . c . 254
,112
AUTHOR INDEX
Farmer, R.J. 402 403 837
Faust, S.D. 642
Teldneth, C.R. 255
Feltz, H.R. 256
Fenster, R.E. 650
Fenton, R.L. 186
Ferauge, H.T. 257
Ferens, B.C. 258
Ferguson, D.E. 798
Ferguson, J.F. 296
Ferodoroff, A. 1 6 1
Ferreiro, E.A. 259 729
Fickle, J.S. 384
Filip, D.A. 260
Findenegg, G.R. 261
Fischler, K. 227
Fisher, J.D. 262
Fisher, U.S. 654
Fiskell, J.G.A. 773
Fitzgerald, G.F. 263
Fitzsimmons, D.H. 264
Focht, D.!J. 265
Fochtnan. E.G. 990
Foehrenbach, J• 266
Foerstner, U. 53
Follett, R.fl. 267
Forbes,,S.A. 268
Forsyth, D.J. 269
Foster, R.F. 203
Fourt, D.F. 270
FOX, K.F. 271
FOX, R.L. 329
Francis, C.W. 92 229 272
Frank, M.L. 988 989
Frea, J.I. £57 727
Freeze, R. A. 274
Freiterga, G.Y. 275
Frere, 1.H. 276 277 278
Freytag, H.E. 2 6 0
Frid, A. 7E1
Friednan, N. 603
Friend, A.G. 261
Prink, C.R. 262 283 28U
Frissel, M. 265 769 931
Fryer, J.D. 198
Pnentss, R. 6 S 0
Fuhreaann, T.W. 565
Fu^ifieto, Y. 548
7'cjita, H. 2£6
Fuiigatoli, A. A. 287 288
Fttngaioli, A.A. 2G9 772 824
Gadgil, R.L. 250
Gage, J.C. 157
Galba, J. 251 392
Galbraith, J.H. 252
Gallcuay, T.R. 562
273
279
,113
AUTHOR INDEX
Gangjly, A. 7 1 6
Harder, K. 2 9 3
Gardner, W.R. 2 9 4
Garrison, ".L. 6 2 1
Gartner, 9 6 0
Garwood, F.A. ? 9 5
Gaudtn, C. 8 2 8 3 4 3 5
Gavis, J . ? 9 6
Gee, J . H . 2 9 7
Gossel, S.P. 7 8 4
Gessner, R.V. 2 9 R
Gptchell, A.S. 2 1 2
Getzzn, L . w . 2 9 9
Gill, A. 7 8 9
Gillespie, TKC. 3 0 0 3 0 1
Gilaour, J . T . 3 0 ?
Girardi, 3 0 3
Gjessing, E . T . 3 0 4 3 0 5
Glass, L.w. 3 0 6
Glatzel, G. 3 0 7
Glenn, J.l. 4 0 1
Globus, A.II. 3 0 8
Gloyna, E .F . 35 172 309 520 521
Goering, J . J . 3 1 0
Goldberg, E . D . 4 9 7
Goldberg, H.C. 958 95S
Goldman, C.R. 3 1 1 3 1 2
Goldman, G. 7 3 5
Goldwater, L. 1 5 7
Golod, D.S. 1 C 1 3
Gcitcrraan, H.I. 3 1 3 3 1 4
Golueke, C.G. 3 1 5 3 1 6 3 1 1
Gcn7alez-Tbanez, J . 5 7 1
Gonzalez, G.C. = 1 4
Gccdncw, 5.A. 3 1 8
Gocdyear, C.P. 3 1 9
Goes, R.T). 2 = 8
Gordei, R.W. 3 I 0 3 2 1
Gordon, J , A . 9 9 2
Goren, 3 2 2
Gorhan, E . 3 2 3 3 2 4
Gorzelak, A. 3 2 5
Gozzynski, M.j. 7 5 2
Goswami, K.P. 3 2 6
Gothe, R . 4 2 9
Gctoh, I . 6 C 5 6 0 6
Gcvoienko, B.p. 3 2 7
Graham-Bryce, I . J . 3 2 8
Grahaa, E . R . 3 2 9 5 7 6
Grant, B.R. 668
Grant, C.H. 741
Grauty, A. 418
Grava, J . 8 5 0
Green, R.S. 3 2 6 3 3 0
Greene, P . E . 1 C 1 7
Gregor, C.D. 3 3 1
,114
AUTHOR INDEX
Greib, B.J. 4 1 6
tlance, R.J. 6 5 5
Gribovskaya, I.V. 3 3 2
Hankc, 5. ICO
Grice, R.E. 3 3 3
Hanncrz, t. 3 4 9
Grigal, D.T. 2 7 3
Hansen, D.J. 9 5 2 6 2 6 3 5
Grigor'eva, T.I. 5 1 3
Hansen. L.G. 3 5 0
Grill, E.v. 3 3 4
Hague, R, 3 5 1
Grimme, H. 3 3 5
Hardefceck, H. 5 1 5
Gromova, v.s. 8 9
Hargrave, B.T. 3 5 2
Groves, K. 3 3 6
Hating, G. 3 5 3
Guillard, R.R.I. 5 9 8 5
Hatley. J.L. 3 5 4
Gunner, H.B. 3 3 7
Harris, C.I. 3 5 6 3 5 7
GUth, J.A. 3 3 8
Harris, C.R. 3 5 5 3 5 8 3 5 9 3 6 0
Gutknecht, J. 3 3 9 3 4 0 3 4 1
Harris, E. 3 6 1
Guymon, G.L. 3 4 2
Harris, R.F. 5 6 0 8 4 4 9 7 6 9 7 7 9 7 8
Haan, c.T. 3 4 3 3 4 4
Harrison, A.P. 3 1 8
Hagao, K. 4 1 9
Harrison, D.E. 3 C 2
Hagen, J. 5 4 8
Hatriscn, H.I. 3 6 3
Haider, K. 4 3 3
Hairiss, R.C. 3 6 4
Halbvachs, G. 3 4 5
Barter, R.D. 3 6 5
Halevy, E. 6 3 0
Hartung, R. 1 5 7
Haller, H.T. 886
Harvard, N.E. 2 2 3
Hallgren, G. 9 6 7
Harvey, B.B. 7 4 6
Halverson, H.G. 7 0 7
Hashizune, K. 5 6 6
Hainan, H.A. 9
Hashaat, 5. 4 1 3
Hamaker, J.v. 3 4 6
Hassett, J.J. 4 6 1
Hamid, A. 3 4 7
Hauck, R.D. 3 6 6
Hamilton, R.D. 3 4 8
Haydu, E.P. 2 € 7
Ramaond, I.e. 5 9 4
Hayes, P.R. 1 6 2 3 6 8 3 6 9 6 1 4 9 5 2
,115
AUTHOR INDEX
Hayes. n.H.fl. 129 13C
Hayaan, D.S. 372 653
Heagle, A.S. 373
Koaney, J.P. 722
Heath. H.A. 715
333 3 7 C 371 HodgeE, T.K.
2 6 2
Hcdgscn. J. 150
Hoede, C. 5?e
Hcfstetter, H.H. 324
Hoijdehl, O.T. 351
Heck, H.H. 373
llclly, K. 158
Heilberg. E. 374
Helling, C.S. 375 376
Hellaers, H. 514
Helveg, A. 380
Hen, J.O. 381
Heaphill, D. D. 382
Henderson, E.V. 1009
Hermann, L.H. 342
Hiatt, R.H. 101 102
Hiis, V. 919
377
103
378 379
Hcla~Ransen, o. 661
He In, H.R. 912
Holokrady, K. 392
Hoed, D.W. (Ed.) •53
Hooper, F.F. 5C
Hccvez, H.I. 628
Hopper, H.J. 158 458
Here, F.R. 8 6
Horiuchi, T. 3 5 4
Horowitz, H. 355
Hill, A.C. 383
Hoskin, C . N . 686
Hill, L.B. 321
Hiltibran, R.C. 384
Hilton, H.W. 385 386
HOSS, D.E. 2 2 6
How, Sister Haraion 3S6
Hovard, P.A. 628
Hindin, E. 387
Hinaan, A. 157
Hinson, R.H. 270
Hirwe, A.S. 388 465 466 636 637
Hoyt, P.B. 297
Hsieh, J.J.C. 245
Huang, J.C. 398 399 400
Hutbell, D.H. 401
Hissong, D.E. 749
Hoare, D.S. 3 8 9
Bobbie, J.E. 1002
Hobbs, J.A, 8 6 1
Huter, H.C. 722
Huggenberger, F. 402 403
Huggett, R.J. 4C4
Hulin, N. 395
,116
AUTHOR INDEX
fluljev, D. 405 882
Humphreys, F.R. 406
Hunsaker, V.E. 407 745
Hunt, P.G. 593
Hunter, J.H. 408
Hunter, J.H. 20
Hurlbert, 3.H. 409
Hurley, J.L. 788
Hurtig, H. 410 411
Hurtt, W. 412
Husain, A.A. 413
Hutchinson, G.t. ai4
Hutchinson, T.c. 415
Hynes, H.B.H. 416
Hyvarinen, S. 535
Hyzak, D.L. 36
Ibrahim, H.S. 417
Igel, H. 280
Tgue, K. 650
Ijuin, H. 418
Illes, S. 631
Tmamura, H. 1011
Itnura, N. 419
Inch, T.D. 42 0
Tnglis, J.M. 469
Inoue, K. 421
Irving, H. 422
Isaacs, J.D. 423
Isaev, H. 424
iseneee, A.R. 425
Iskandar, I. B. 889
ivanova, L.N. 426
ivantsova, R.N. •32
iverscn, R.L. 720
Ivakava, 0. 421
Iwani, P. 96
Iyer, J.G. 427 428
Jaakkcla, T. 429
Jacat, T. 222
Jackscn, H.O. 839
Jackscn, H.L. 648
Jackscn, P.c. 430
Jacobs, D.G. 9C9
Jacobs, L.N. 431 432
Jagncu, G. 4 33
Jakots-logelin, J. 314
James, A. 434
Jannasch, H.W. 926
Jaumier, J. es
Jeanjean, R. 82 83 435
Jefferies, D.P. 746
Jefferies, D.J. 436
Jenne, E.A. 437
Jensen, N.B. 279
Jensen, s. 1(38 444
Jensin, 5. 439
117
AUTHOR INDEX
Jernelov, A. 157 251 442 143
Jervis, F.F. 157
Jodrey, l.H. 1 6 2 6 1 4
252 444
436 44 C 441 KaCOCCr I.P.
38P 465 638 639
Kardcs, L.l. 468
Kaiira , <1. A. 469
466 767
467 636 6 ^ 7
Johannes. R.E. 445 446 447
John, U.K. 448 449 450 451
Karpov, P.H. 6C8
Kashirad, A. 470
Johnsen, R.E. 452
Kasimcva, G.K. 471
Johnson, B.T. 453 454
Johnson, C.n. 211
Johnson, H.A. 996
Johnson, H.P. 456
455 Katz, E.I.
749 Kaufian, D.D.
378 Kautsky, H.
172 Kavadia, V.S.
473 Johnstone, .L.
186
Jones, A.S. 457
Kawahara, T. 474 I
Kavatski, J.A. 475
Jones, G.F. 425
Jones, L.H.P. 158 458
Kearney, P.C. 425 476
Keeler, T. 477
998 999 1000
Jones, R.D.H. 740
Keency, D.R. 431 432 889
Jones, R.F. 459
Kehde, P.H. 478
Jones, R.S. 173
Kenper, w.D. 913
Jones, W.W. 745
Kenaga, E.E. 479
Judd, J.H. 701
Kennedy, E.J. 480
Jung, J. 460
Jurinak, J.J. 461 533 534
Kenns3y, E.M. 549 551
Kennedy, J.O. 453
Kabata-Pendias, A. 462
Kephart, R.P. 750
Kaliset, R. gig
Kalyanasundarau, N.K. 463
Kereiakes, J. 434
Kerfcct, W.B. 481
Kamal, A. 486
Kester, D.R. 462
Kanehiro, Y. 853
Ketchun, B.H. 483 484 523
Kao, Chun-Wie 81
Keveny, fl. 592
Kaplan. I.R. 464
Kevern, N.R. 485
,118
AUTHOR INDEX
Khailov, K.H. 128
Kochi, T. 1C11
Khalsa, U.S. 466
Koenstrom, J.C, 502
Khan, H.A. 486
Kclb, W. 503
Khan, S.U. 487 488
Kclentrander, G.J. 5C4 505
Kin, J.Y. 419
Kolli, R. 506
Kimeu, E.S. 137
Kondrat'Eva, T.N. 1 2 8
Kinderis, Z.B. 489
Kcnorcvskii, A.K. 507
Kindstedt, H.O. 439
Konova, V.n« 5C8
King, D.L. 490
King, L.U. 895
Koren, E. 509
Korganoff, A. 93
King, S.F. 491
Koridcn, A. 928
Kinjo, T. 492 493 494 817
Kormcndy, E.J. 510
Kirkhara, B. 833
Kotn, s. 583
Kiselev, V.E. 495
Korschgen, L.J. = 11
Kitchings, J.T., III. 496
Kittrick, J.A. 801 .
Koite, 512
Kcshino, M. 166
Klein, D.H. 497
Kozhinova, L.A. 513
Klein, H. 512 656
Kliger, I. 809
Kramer, P.J. 514
Krampitz, G. 515
Kline, J.R. 873
Klock, G.P. 498
Krauskopf, K.B. 516
Krishnamurthy, K.: Rao, S. 5 17
Klotz, L.J. 529
Kruger, P. £ 1 8
Klute, A. 837
Kude, T.N. 5 19
Knapp, G.I. 499
Kudo, A. 520 521
Knight, A.H. 183
Kudryavtseva, B.M. 522
Knisel, W.G. 887
Kucnzler, E.J. 523 684 685
Knuicka-Goldfinger, N. 500
Ko, W.H. 501
Kulikcv, H.». 910
Kumagai, J.S. 742
,119
AUTHOR INDEX
Kunicki-Gcldfingcr, W.J.H. 500
Lauff, G.H. £ 1 2
Knnishi, H.M. 898
Laurens, S. 543
Kurtz, L.T. 524
Law, S.L. E 4 4
Kust, C.A. 649
Lavrerce, A.M. 772
Kuz lichev, p. 5. 525
Lavscn, D.H. E 1 5
Kuznetsov, Y.v. 526
Le Grand, H.E. 516
Kuznefsova, i.H. 527 528
Lean, D.R.S. 517
Kwan, T. 119
Lee, G.B. 1 4 9
Labanauskas, C.K. 5 2 9
Lachet, B.Z. 530
Lee, G.F. 1 0 5
LeP, O.J. E 1 8
305
549
811
550
929
551 618
Lacourly, G. 79
Legranfl, H.E. 552
Lagerwprff, J.V. 531 532
Lenon, E.H. 714
Lai, S.H. 533
Lengeoann, P.H. 3 9 6
Lai, S-H 461
Lenon, H. 553
Lai, Sung-Ho 534
Lerman, A. 555
Lakanen, E. 535
Leshniovsky, H.O. 557
Lambert, S.H. 537
Lester, P. 157
Lane, T.H. 965
Letej, J.J. 1C2 403 837
Langley, D.G. 538
Levin, I. 558
Langmuir, D. 32
levy, B. 559
Lann, H. 44 3
Levis, C.H.
Lapagiiellerie, Y. 539
Ley, H.V. 420
larsen, S. 540
LeBiche, H.H. 554
Larson, 797
LeBoux, J. 5E6
Laseter, J.L, 737
Li, H.C. 560
Latouche, C. 539
Liakcpoalos, A.c. 561
Laudelout, H. 931
Liang, S.F. 562
Lauderdale, B.A. 541
liani, A. 563
,120
AUTHOR INDEX
Liao, C.F. 399 400
Libios, A. 161
lichtenstein, E.P. 29 56 it 565 825
Ligon, J.T. 566
Lindenbergh, D.J. 928
Lindsay, W.L. 267 567
Lindstrom, 568 569 570
Linn, R.J. 881
Lipas, B. 428
Lisk, D.J. 625
Liu, L.C. 571
Livingston, D.S. 368
Lockvood, J.L. 501
Loken, P.J. 572
Lon g, J. 973
Long, R.c. 573
Longlev, R.E. 337
Lopez-Gonzalez, J.D. 574 575
Lopez, P.L 576
Loucks, O.L. 363
Lu, Po-Yung 465 635 638
lubchenko, 7.Y. 920
Ladders, F. 126 577
Lunde, G. 578
Lundxe, p.R. 333 370
Luthin, J.H. 579
Lutz, J.v. 828
Luxnoore, R.J. 580
Lyalikova, H.H. 5 8 1
Lynn, R.Z. 260
Lyszcz, s. 8C4
Macek, K.J. 582 583
Hackay, D. 564
MacPhee, c . 585
Haddcck, T., III. 566
Magnuson, l.H. 31
Mahendrappa, H.K. 5E7
Maier-Eode, H. 568
Faier, R.H. 243
Malone, C.R. 589
Manaril, C.P. 80 590
Manahan, S.E. 591
Mandl, R.H. 592
Mansell, R.s. 593 594 595
Manskaya, S.N. 5S6
Nanthey, J.A. 738
Harciulioniene, D. 233
"»tcc?'i| G. 597
Harks, P.L. £98
Marshall, J.S. c 99
Marshall, V.G. 6CC
Martin, P. 222
Martinez, H.E. 6 C 1
Marvan, P. €C2
Masri, M.S. 6C3
Mastrcaolo, C.A. 548
AUTHOR IND"X
latson, W.R. 6 0 H
Hatsumura, 605 606
Mattraw, II.c. 607
Mavlyanov, G. A. 608
Hay, R.H. 609 61C
Haver, Jr. 611 813
Mavland, H.". 142
Mclean, E.O. 827
McAllister, C.C. 6 1 2
McAllllffP, C. 613
Mccarter, J.A. 168 614
McConnell, w.J. 615 616
Mccormick, J.P. 736
Mccraren, J.P. 169
Mccune, D.C. 592
BCDiffet, V.T. 617
McEnery, I.E. 549 618
McFeters, G.A. 619
HcGauhey, P.H. 317
McGee, J. 396
McHenry, J. 789
Mclntire, C.D. 620 621
Mcintosh, R.P. 623
McKercher, R.B. 655
McKinney, M. 624
McKone, C.E. 625
McNabb, J.F. 230 231
Meeks, R.I. 237 626
1?1
Merit a , B . V . 463
717 Mehta, N.C.
2?2 627
MeIs ted, S.W. 524
Meltcn, J.R. 6 2 8
Mengel, K. 659
Menzel, D.W. 310 1010
Merzer, R.E. 554
Mercado, £30
A.
Meriaux, 161
S.
Herlini, 303
N.
Mestres, 631
R.
ietcalf. 163 633 639
R . 1. 388 634 767
465 63 5
466 636
467 637
632 6 1 8
Michijiraa, M.S. 647
Niddlebcooks, E.J. 742
fiicttinen, J.K. 429
Mifflin, M.D. 516
Miller, A. 553
Miller, "C.W. 337 640
Miller, H.G. 641
Miller, H.M. ees
622 799 1003
Miller, J.H. 3 4
filler, M.H. 8C 590
Miller, M.S. 302
Miller, R.S. 761
Miller, R.B. 642
Miller, S.M. 2 6
Kistry, K.B. 37 38
Mitchcll, D. 643
122
AOTHOR INDEX
Mitchell, J.W. 363
Mitchell, H.J. 766
Mitchell, R.I. 644 645
Mitropolsky. A.Y. U 1 6 « 6
Miyake, H. 6K\7
Moilanen, R.W. 184
Mokma, D.I. 648
Molozhanova, P.G. 426
Mclozhanova, L.G 872
Moody, K. 649
5*oore, R.B. 389
Morelli, M. 650
Morgan, N.w. 652
Morgan, R. 25
Moriarty, F. 651
Hork, H.M. 797
Morris, E.R. 1017
Morris. H.D. 895
Morris, w.J. 652
Morse, M.I. 133
Mortimer, D.C. 20 6
Mosse, R. 372 651
Mosser, J.I. 654
Moyer, J.B. 655
Moza, P. 656
Mueller, G. 53
Mulawica, 5.T. 7«9
Mulia, M.S. 409
Hull, R. 94
Mullet, W.A. 550
Mundie, J.H. € 5 7
Murdoch, M. 982
Murphy, P.G. 658
Murray, C. 659
Murray, L. 6 5 9
Nair, K.P.P. €60
Nakamuca, H. S 4 8
Nakawaua, M. 1 0 4
Nalivkin, Y.V. € 6 1
Naqvi, S.M. 662
Naryshkin, H.A. 21
Nash, R.G. 63 64 663 664
lavarrete Guijosa, A. 5 7 5
'leibcer, E. 7 5 2
Nelscn, n.J. 7 64
Nelscn, D.w. 665
Nelscn, W.E. €€6 e67
Nemanic, E.B. 153
Neueth, R. 3 3 5
Neniskiene, V. 2 3 3
Newell, B.S. £ 6 8
Nickless, G. 127
Nielsen. D.R. 669 942
Nikorcva, A.G. 5 1 3
Nishisrot-o, R.K. €70
Nixon, s.w. 671
123
AUTHOR TIU^X
Nommk, H. 672
Norseth, T. 673 670
Novak, V. 675
Nyborg, 397
Nye, P.'I. 46 49 676 677
320 3 6 6
6 8 1 682 6 E 3
Nystron, R.F. 465 467
O'nell, E. T.. 678
O'Hara, J. 932
O'Hare, p.J, 679
O'Neill, R. V. 680
Odun, P.P. 41 168 68H 685
Oflura, H.T. 686 687
Oduia, W.P. 688
Oehme, P.H. 689
Office of Hater Resources Research, Washington, D. C. Hater Resources Scientific Information center
S 9 0
Ogden, E.T. 587
Oqner, G. 691
Ogorodnikov, V.I. 646
Ghr.omo, I. 692
Okaichi, T. 694
Okino, T. 693
Okutani, K. 694
Qlausson, E. 695
Oiler, H. 181
Olney, c.E. 696
Oloffs, p.C. 697 698
Olsen, s. 699
Olson, J.S. 941
700
Ochel, I.I. 7C1
Orlot, G.T. 147
Orlov, D.S. 7C2
Oschuald, H.R. 703
Osgeifcy, J.H. 04
Ospenson, J.N. 366
Oswald, H.J. 316 317
Ott, A.I. 916
Oucllette, G.J. 1 U 8
Overdahl, C.J. 650
Oncriein, l.N. 1C5 706
Ovstcn, P.H. 7C7
Padden, T.J. 309
Page, A.I. 494
Pan. S.K. 419
papadcpulos, I.S. 110
Papanicolaou, E. P. 7C8
Parkhurst, D.F. • 6 3
Pailange, J.Y. 709 710
Pataele, L.H. 714
Patra, H. 539
Parrish, J.D. CC7
Parsons, T.R. 612 715
Paschinger, H. 261
Patel, B. 716
Patil, K.C. 717
Patin, S.A. 718
Patrick, R. 719
711 7 1 2 7 1 3
,124
AUTHOR INDEX
Patten, B.C. 720 721
Patulski, D. 553
Paulson, R. 900
Pease, H.L. 777
Pechku Renkov, V.L. 718
Peinemann, N. 259
Peoples, A. 181
Peldue, E.H. 775
Perez, A.I. 722
Perhac, R.H. 723
Perrens, S.J. 951
Ppterle, T.J. 237 724
Peters, L.N. 725
Peterson, I..A. 117
Pfaender, P.K. 726
Pfister, R.H. 557 727
Philip, J.I. 728
Phillips, P.T. 473
Phillips, J.'?. 369
Phillips, R.H. 829 830 831
Phinney, H.K. 621
Picat, P. 418
Pick, W.F. 371
Piencmann, N. 729
Pierre, 730
Pillay A.R. 731
Pinder, G.P. 111 732
Pinta, 1. 778
Picnke, H.B. 732
Pisarev, V. 734
rlatc, P. 735
Piatt. R.B. 736
Poelstra, P. 285 769
Poirtaier, H.A. 737
Polikarpov, G.G. 233
Polin, D. 39
Polzin, H.J. 738
Pcaeroy, L. 739 740 741
Porcella, D.B. 742
Porter, P. E. 5 37
Posner, A.M. 7«3
Powers, v.i. B 6 1
Poz-zi, G. 303
Pratt, D.M. 744
Pratt, P.P. 16 17 407 492 493 494 745 817
prausnitz, J.H. 9 1 7
prestcn, A. 746 901
Pribil, S. 6 0 2
Price, K. 747 748
price , T.J. 227 228
Pringlc, 3.H. 749
Pritchara, P.H. 750
Pratchett, H.L. 4C6
prcbst, G. H. 738
Prckhcrov, V. 751
Puck, D.E. 366
,125
AUTHOR INDEX
Puckett, K.J. 752
Fuig, P. 108
PuLushothanan, K. 753
Puschmann, H. 75ft
Pyatt, E.E. 722
Rabinowitz, H. 755
Raczr G.J. 152
Raines, G.E. 84
Rains, D.w. 177 756
Rains, T.C. 900
Ransey, R.H. 757
Randhawa, N.5. 758
Randies, C.I. 557 727
Pashid, fl.A. 759 760
Raymont, J.E.G. 761
Read, D.C. 762 763
Reed, J.R. 764
Reese, C.E. 765
Reichle, D.P. 766
Reinold, R.J. 7U0
peinhold, K. 767
Reincrt, R.E. 768
Reimger, p. 285 769
Kcintam, L. 770
Renezov, N.P. 771
Renson, I. 772
Reneau, R.B. 773
Renfro, w . c . 914
Rennie, D.A. 774
Rennie, R.J. 77U
Reuter, J.H. 715
Reynolds, H.T. 163
Rhead, M.M. ZC
"hcades, J.D. 1C9
Rhcads, F. H. 776
Rhodes, R.C. 777
Riandcy, C. 778
Rice, C.P. 779 780 849
Rice, T.R. 161 991
Richards, F.A. 334
Richardson, D.H. 752
Richardson, E.N. 762
Richardson, R.E. 763
Rick, A.J. 519
Riekerk, H. 764
Riffaldi, R. 765
Riglcr, F.H. 766 787
Riley, J.P. 652
Rinehart, C.D. 271
Ringer, R.K. 39
Ringlc, J.C. 7 E 8
Rish, H.A. SC3
Rissanen, K. 429
Ritchie, J. 789
Robertson, D.E. 7 SO
Robinson, T.W. 218
,126
AUTHOR INDEX
Robinson, W.H. 385
Robledo, D.D. 601
Rode, .A.A. 791
Rogovski, A.S. 792 793 791
Rohleder, K. 795
Rolfe, 6.1. 796
Roakens, fi.J.K. 665
Romney, E.M. 797
Rook, D.A. 975
Rook, H.I. 900
Rooma, I. 770
Rosato, P. 798
Rose, F.L. 191 799
Rose, J,M. 865
Rosen, J.D. 99
Rosenberg, R. N<TU
Rosenblatt, G.H. 121
Rosenthal,, G.H. 878
Rosentul, G.L. 601 \
Roulet, N. 222
Rouse, H.R. 800
Routson, R.C. 801 802 969
Rubin, H. 548 519
Ruch, R.R. 480
Runnels, J. 486
Russell, D.A. 803
Ruszkovska, 1. 804
Ruthven, J.A. 805
Saas, A. 4 1 8
Safaccv, H.G. 471
Said, ft.B. 606
Saiki, M. 6 52
Saila, S.B. 8C7
Salineres, B. 539
Salo, A. 8C8
Saltzman, S. 6C9
Samoilova, E«H. 8 1 0 <
Sanada, E. 1004 1005
Sanchez, I. 811
Sanders, H.O. 454 455 611
Sands, R. 614
Sangfca, G.K. 467 639 815
Sans, R.N. 355 358 359
Santelraann, P.H. €54
Sarma, S.V. 816
Saunders, C.R. 454 455
Savel'Ev, E.A. 19
Saxena, S.N. 9C4
Sealf, H.R. 230 231
Scarpino, P.v. 434
Schalscha, E.B. 817
Schieferstein, R.H. 527
Schmidt, R.L. 969
Schmitt, H.D. 5 19
Schmulbach, J.C. 4"<5
Schneider, R. P. 970
812 813
360
127
AUTHOR INMEX
Schnell, J.H. 966
Schnitzer, M. 691 785 818 822 823
schoenberger, F.J. 824
Schubert, J. 518
Schulz. K.R. 565 825
Schumacher, G.J. 962
Schuth, C.K. 635 638
Schutz, D.F. 826
Schwab, G.O. 027
Scott, D.P. 301
Scott r H.D. 828 829 830
Scott» V.H. 342
Sedlet, J. 96
Seki, H. 832
Selim» M.S. 833
Sequeira, T3.M.D. 834
Serne, R.J. B02
Serueivt, J. 835
Sevenhuysen, fl. 236
Shade, 5. 78
Shainberg, I. 559
Shalhevet, J. 559
Shaurette, M. 595
Shaykewich, C. F. 836
Shchebetkbvskii, V.M. 526
Shearer, B.C. 837
sheets, T.J. 34 357 838
Sheikh, K.H. 840
819 820 8 2 1
831
839
Shekhanova, T.A. 718
Sheldon, H.G. £79
Shentcn, L.R. 740
Sherman, P. 638
Shieh, Y.J. 841
Shigeuoto, H. IC'M
Shirap, N.F. 460
Shimshi, D. 8 1 2
Shiomi, M.T. 146
Shlain, L.B. 561
Shuji, 1. 813
Shukla, S.S. 814 978
Shure, 15.J. 645
Sid, Ro, A.A. 846
Siddiqi, I. 937
Sieborth, J.M. 298 847
Siegel, A. 848
Siems, P.L. 292
Sikka, H.C. 779 780
Siler, K.L. 667
Sillanpaa, M. 536
Siskins, C.A. 850
Sinclair, A.G. 851
Sinclair, C.G. 652
Singh, B.R. 853
Singh, J.H. 854
Sinnasve, J. 931
Skinner, S.Z.H. 820 821
849
822 823
,128
AUTHOR INDEX
Skogerboe, G.V. 855
Starr, R.I. 452
Skulberg, 0. 293
Starr, T.J. 150
Slatyer, R.O. 514
Steele, A.K. 746
Slone, H.D. HO 4
Stefanskii, R.S. 872
Smiles, D.E. 856
Steintrich, A. 921
Sairnov, N.I. 1018
Steiner, R.L. 824
Smith, A.E. 857
Stephens, K. €12
Smith, E.E. 741
Sternberg, Y.H. 875
Smith, J.I. 707
Sternling, C.V. 5€2
Smith, M.J. 591
Stevenson, E.J. 576
Smith, S.J. 858 859
Steward, K.K. 886
Smith, N.H. 860
Stewart, D.K. e77
SnellingrK.W. 861
Stewart, M.I. e78
Sodergren, A. 862
Stickel, L.F. 879
Soininen, R. 429
Stickel, «.H. 879
Sokolov, A.A. 863
Stcbte, E. R. 4ce
Soamerfeldt, T.G. 864
Stcllj, L.H. 529
Spangler, N.J. 865
Stcry, J.D. 496
Sparks, R.E. 135
Stranger-Johannessen 572
Spencer, w.v. 159 160 866 e67
Stretel. 0. 6E0
Spigarelli, J.I. 865
Strickland, J.D.R. 612 881
Sprague, J.B. 868 869 870
Strohal, C. 4C*> 882
Spronk, *>. 871
Strong, J. 1*2
Spynu, K.I. 872
StUffCt, 0.G. •rn9
Stacey, H. 129 130 370
Styrcn, c.^. 766
Stanford, G. 859
Sudnitsyn, l.T. 883
Starbuck, J.S. 179
Sukegawa, S. 419
Stark, N.H. 873 874
Sulijiene* !>. 233
,129
AUTHOR INDEX
Sumner, n.^. 556
Sutcliffe, J.F. 8 8 1
Thakre, S.K. 9CU
Thcnann, R.V. 905
Sutton, D.L. 885 886
Suzuki, H. 692
Thcnas, G.W. 887 906
Thcmas, R.I. 9C8
907 1019
Svec, H.J. 355 358 360
Thcnas, W.A. SC9
Svanson. fl.D. 980
Thompson, J.H. 346
Swartz, E.D. 803
Suoboda, A.R. 887 907
Thcnpson, W.W. 960
Tiedenann, A.R. 3C
Syers, J.K. 432 6U8 844 977 978
Szalay, A. 890 891
szeto, S.y. 697 698
Szilagyi, M. 8 9 1
Takahashi, H. 429
Takatori, *.H. 17
Talibudeen, 0. 892
Taau, CoO. 893
Tanura, T. 92 792 793
Tan, K.H. 895
Tanaka, Y. 1 9 7
Taub, T.B. 896 897
Taylor, A.v. 139 714 898
Taylor, F.6. 899 984 985
Taylor, J.K. 900
Tchan, Y.T. 731
Teapleton* «.L. 901 949
Teng, T.C. 654
Tarkoltoob, R.H. 902
Teshabaev, S. 903
888 889 976
794 894
986
Tietjen, J.H. 551
Tilders, V. 871
Tinicfeeva, N.A. 910
Tinker, P.B. 4S
Tisdale, S.L. 911
Titus, J.E. 6 6
Todd, R.I. 912
Todd, R.H. 513
Tonlinson, R.D. 914
Tons, E.A. 371
Topivala, H.H. 852
Tosnatene, T.G. 915
Toth, S.J. 916
Tonneley, s.j. 1C1 102
Tracy, c.R. 363
Tscnopoulos, C. 917
Ticker, 8.V. 366
Tucker, R.K. 185
Tukey, H.B. 918
Turbas, E. 519
103
,130
AUTHOR INDEX
Turekian, K.K. 826
Turner, B.C. 3 7 9
Turner, R.C. 1 5 5
Turovskii, D.S. 9 2 0
Turski, R. 9 2 1
Tyson, K.c. 2 9 5
Ohlmann, Von D. 9 2 2
Ukita, T. 4 1 9
'Jnanova, O.G. 5 8 1
underwood, D.L. 384
Otley, D. 420
Vaccaro, B.*. 4 8 4
Vachaud, G. 8 5 6 9 2 3
Vaidyanatban, I. V. 4 6
Valenzuela Calahorro, c. 5 7 5
Van Anburg, G.I. 2 1 5
Van Bladel, R. 9 2 4
Van Der Borght, 0. 6 9 9 2 5
Van Per Hoek, G.J. 935
Van Dorsser, J.C. 9 7 5
Van Geaerden, H. 9 2 6
Van Hoek, R.J. 8 7 1
Van Hook, R.T., Jr. 9 2 7
Van Laerhoven, C.a. 4 4 9 4 5 0 4 5 1
Van Puyabroeck, S. 69
Van Sehaik, J.C. 8 6 4
Van Schreven, D.A. 9 2 8
Vauclin, H. 8 5 6
Veitfa, G.D. 929
Verdium J. 930
Verdcnk, p. 921
Vernterg, W.B. 932
Vernette G. 539
Verstraete, W. 4C
Visser, S.A. 933 934
Von Eraunschweig 629
Vosjan, J.H. 935
Voss, G. 338
Vrcchinskiy, K.K 936
Wagner, K. H. 937
Wablterg, J.S. 437
Waldichuk, (1. 938
walker, A. 939
Walker, K.C. 940
Walker, R.W. 337
Walker, T.W, 868
walker, W.R. 855
Wallet. H.D. 941
Waller, W.T. 136
Walsh, n.F. 813
Wang, B.H. 652
Wanner, H. 322
Wanntcro, R. 1C0
warick. A.W. 942
wnrkentin, B.p. •47
Watncke, D.O. 943 944
m
AUTHOR INDEX
<>arren, C.*. 114 621
Warren, G.F. 2 0 8 6 7 P
"nrren, H.V. 947
watanabe, T. 9U8
Watson, D.G. 192 193
Watson, K.K. P50 951
Watt, K.E.v. 952
watts* D.G. 36 3
Waugh, T.C. 31
«>ax, L.H. 11
Webb, K.L. 447
Weber, J.E. 953
Webster, J.M. 698
weeks, 954
Weinstein, L.H. 592
Weise, K. 955
656
Weiss, H.V. 9B1
Welch, H.E. 956
Welch, L.F. 60
Welch, R.H. 957
Wershaw, R.L. 958 959
wetherill, C.R. 757
Wheeler, W.B. 595
whisler, F.D. 951
White, B.B. 960
White, J. L. 47
Whitevay, S.G. 162
9 4 5 946
949
Whitfcr'l, L.A. <361 962
Whittaker, R.H. 9 6 3
flhittingham, W.F.
Whittcn, B .A. 564
Whitwcrth, W.R. 965
Widdcwson, A.E. - 40
wicgert, R.G. 966
Wiklatider, L. 967
Wille, ?. 140
wilder, H.B. 968
Wildung, R.K. 6C2 969
Wiley, w. R. 970
wilhn. J.L. 4 ?8 971 972
wilkins, B., Jr. J 17
wilkriss, P.E. 574
Will, G.il. 975
Williams, B . L . 641
Williams, J.D.H. 844 976 977
Williams, L . G . 979 980
Williams, P.n. 981
Williams, R. 982
Williams, R.E. 292
Williams, R.J.F. 422
Williams, V.P. 425
Willis, J. 227
Willis, J. K. 167 188 228
Willis, V» H. 781
Willson, H.R. 409
97 3
978
,132
AUTHOR INDEX
Wilson, R.H. 156
Wilson, T.V. 566
Witherspoon, J.P. 725 766 899 986
Witkanpr M. 721 934 987
Wnek, W.J. 990
Wolfe, D.A. 991
Wolfe, S.I, 992
Wolffr R-G. 993
Wolin, R.J. 186
Wolkoff, A.W. 584
WoltZ, W.G. 573
Pong, A.S. 184
Wood, W.W. 994
Woodwell, G.M. 688 995 996
Woolson, E.A. 425 476 664 1000
*orsham, H.M. 1001
Wright, R.T. 1002
Wu, L.C. 1012
Wulff, B.I. 622 1003
Burster, C.F. 654 688
Yananoto, T. 1004 1005
Yanaya, R. 1006
Yang, s.J. 1007
Yankyavichyus, K. 1008
Yannacone, V.J., Jr. 363
Yaron, B. 809
Yaroshevich, P.P. 1013
Yasutake, w.T. 25
983 984 985
988 989
997 998 999
Yeager, D.w. 1009
Yeutsch, C.S. 1010
Yeroshicheva, N.I. 7C2
Yoneda, S. 1011
Young, H.C. 264
Young, R.G. 625
Yousef, Y.A. 309
Yu, c.: 95
Yu, E.H. 1012
Yuen, Q.H. 386
Yurascva, 0.1. 513
Yutkevich, I.D. 1C13
Zatik, H.J. 1014
Zanancv, P.B. 471
Zegers, C. 2C5
Zepp, R.G. 992
Zindahl, R.L. 36
Ziomermann, H.H. 1015
Zieon, S. 824
Zitko, V. 1016
ZOCk, E.G. 1017
Zorik, Y.I. 1018
Zufcer, R. 477
Zuckerman, B.I. 337 640
Zvarun, A.A. 1019
135
KEYWORD INDEX
.ALPHA.-TRICHLOROMETHYLBENZYL PHENYL ETHERS 388
<DICHLOBENIL) 169
in SOILS 795
ABATEMENT 765 917
ABDOHINAL VA* 635
ABS 5FT
ABSORPTION 27 49 56 64 70 82 83 87 128 180 '189 192 206 221 275 278 325 325 336 353 359 396 435 474 486 495 555 578 594 642 659 677 fi78 688 704 710 712 796 830 831 8i»9 854 862 909 948 953 957
ABSORPTION RATE 353
ABUNDANCE 804
ACAROL 595
ACCUMULATION 21 39 102 144 180 185 192 212 247 260 286 424 436 443 472 481 519 529 577 598 619 626 672 702 768 799 862 910 998
ACCUMULATOR 834
ACETATE 254 456 747
ACETIC ACID 230 231
ACETYL ACETONE 417
ACETYLENE 613
ACID 706
ACID ESTERS 839
ACID SOILS 397 492
ACIDIFICATION 428
1CIDITY 80 291 650
ACTINIDE COMPLEXES 747
ACTINOMYCETES 501
ACTIVATION ANALYSIS 405 692
ACTIVE FRACTION 537
ACHD1T1 COEFFICIENTS 564 C17
ACDTE IRRADIATION 5*8
ACUTE TOXICITY 25 870
ACYT.-AMIDASE 99
ACAMS-MCULTON METHOD 3 4 2
ADAPTATION 23 312
ACIPCSE TISSUE I S
ADSOFETION 11 13 31 47 105 120 121 129 149 192 198 208 2Z0 229 230 231 242 249 577 330 333 340 346 351 357 365 370 371 376 377 3 84 392 395 399 400 402 463 406 488 492 510 524 532 533 53 4 575 655 667 699 704 720 727 731 737 ec6 808 809 829 867 894 9C6 909 914 939 953 957 977 1019
ADSORPTION CAPACITY 1C5
ADSORPTION ISOTHERM 699
ADSOBE1IVITY 120
AEROEIC 3C1
AEROBIC MINERALIZATION 859
AEEOEIC TREATMENT 824
AGE ESTIMATION 769
AGGICEERATION 862
AGGREGATES 1019
AGGRESSIVE BEHAVIOR 306
AGITATION 1C12
AGRICULTURAL CROPS 899
AGRICULTURAL EFFECTS 597
AGBICCLTORAL PRODUCTS I E 9
AGRICULTURAL RETURN FLOWS e s s
AGRICULTURAL WASTES 499 667 690
AGBICULTURE 27 594 722
136
KEYWORD INDEX
AGROTIS 355
AIFINE PLANTS 899
AIR 87 373 592 755 974
AIR ANALYSIS 562
AIRBORNE HETALS 127
ALDER 1006
ALDER-B 345
411 835
5 0 3 8 3 7
505 8 6 0
531 : 872
ALGMIVUM 4 4 8 528 532 702 1019
ALDRXN 138 486 827
ALFALPA 64
ALFALPA-D 383
ALGA 491
ALGACIDES 263
ALGAE
344 511 904
454 541
4 5 5 5 6 4
474 656
475 664
ALGAL BLOOM 310
ALGAL DENSITY 896
ALIPHATICS 1018
ALKALI IONS 979
ALKALINE 864
ALKALINE EHOSPHATASE 91
ALKYL ARSENICALS 425
ALLOPHANE 407
ALLOPHANIC SOIL 853
ALLUVIAL CAPTINA SILT LOAM 792
ALPHA SPECTROSCOPY 647
ALPHA.-TRICHLOEO*ETHYLBENZYLANILINES 388
ALUMINUM PHOSPHATE 81
AHER3CIUM 748
AMERICIUM COMPODNDS 747
AMERICItJM 241 747
AMETHJNE 571
AHIBEK 649
AMINES 23C 231
AMINO ACID POOL 543
AMINC ACIDS 447 775
AMITBCIE 928
AMBONTA 313 334
7 36 43 59 83 118 12B 141 164 174 188 193 AMBONIFICATION 250 260 263 309 310 312 380 314 315 316 317 320 332 339 348 352 378 389 409 AHBONIUH 425 435 459 464 466 087 151 590 485 490 523 541 551 585 591 602 620 643 654 668 AMMONIUM ACETATE 685 687 693 717 720 731 536 768 779 780 781 799 849 896 973 979 980 982 1008 AM8ONI0M COMPOUNDS
774
7 C 5
&MHORIUM SULFATE 8C
AMOREHOUS COMPONENT REMOVAL 2 2 3
AMEHIfOD 4 4 5
ANAERCEIC ENVIRONMENT 211
ANAEROBIC MINERALIZATION 859
ANAERCBIOSIS 7
ANALCG MODELS 875
ANALCGS 36
ANALYSIS 156 5 4 8
423
408 4 1 8 591 624 778
ANALYSIS TECHNIQUES 794
ANALYTICAL EVALUATION. 282
903
KEYWORD INDEX
ANALYTICAL METHODS 2«2
ANALYTICAI SOLUTION 110
APELICATION 21 362
AQUARIA 73
l i f t 8
ANILINE OXIDASE 98
ANILINFS 98
ANIMAL BEHAVIOR 688 807
ANIMAL WASTFS
AQ0AMU1 963
AQUATIC ANIMALS 783
AQCATIC BIOLOGY 765
A Q C A T I C B I O T A 546 192
ANIMALS AQUATIC COMMUNITIES 23 39 69 173 181 293 367 316 371 443 4'T4 U54 466 512 515 589 600 631 671 AQCATIC ECOSYSTEMS 678 681 689 715 748 749 t C 35 50 65 68 765 807 871 989 1014 71 72 73 74 75 77
79 114 115 131 144 147 ANION 157 167 170 171 174 ' 190
730 212 225 226 227 234 237 2<.1 250 252 255 258 268
ANION CATION 1NTEEACTIONS 261 297 312 J16 320 393 126 411 425 446 459 469 478
161 485 500 519 538 542 ANION EXCHANGE FAPER 617 620 021 622 635 657
851 666 687 693 697 715 739 7E3 783 799 807 812 818
ANION EXCHANGE RESIN 818 881 896 910 9 30 945 540 946 971 991 992
ANIONS AQUATIC HEDIA 492 493 907 957 79
ANNUAL VARIATIONS AQLA1IC MICROORGANISMS 367 912
ANOXIA * AQUATIC ORGAWISHS 340 55 303 350 486 635 767
ANTAGONISM AQUATIC PLANTS 46 3 2C9 415 886
PNTHROPODS AQIJATIC POPULATIONS 125 600 409
ANTIBIOTICS 979
AtiTlCHLOINFSTEBASE ANALYSIS 299
ANTIMONY 156 4 0 5 581
ANTIMONY SOLFIDE 581
ANTIMYCIN A 965
APHIE 413
APHIDS 299 966
APP 333
APPLE TREES 45 558
APPLE-D 106
APPLES 426
577 872
AQUATIC 120
AQDATIC 398
AQUATIC 364
AQDECOS 60(;
AQOEOOS 219
AQQECCS 361
AQUECUS 917
AQOECUS 130
AQUIFER 111
SOLUTION
SYSTEMS
WEEDS
ENVIRONMENT
EXTRACTS
MEDIA
SOLUTIONS
SUSPENSIONS
630
AQUIFER EVALUATION 875
AQOIFER SARD 105
1 3 8
KEYWORD INDEX
AQUIFER-TEST ANALYSIS 954
ATCMIC SPECTROSCOPY 624
AQUIFERS 230 231 690 732 855
ATCMI2ATI0N 778
ARCTIC 899
ATE 456
SROCIOH 1200 : 812
ATPASE 262
AROMATIC ACID HERBICIDES 356
ATBAICNE 721
AROMATIC HYDROCARBONS 613
AROMATIC SOLUTES 917
ARSENATE 8 2 " 435
ARSENIC 18 578 1000
•ARSENITE , 8 2
83 456
121 689
132 948
156 968
133
425 997
291
431 99 8
392
432 999
8 3
ARTIFICIAL COMMUNITIES 805
ARTIFICIAL ECOSYSTEMS 597 687
ATRAZINE 249 649 861
325 655 939
330 731
402 828
571 830
588 831
AUTOCEROBATOGRAPHY 851
AUTOCIAVING 8C6
AUTORADIOGRAPHY 82 163
AUTOTEOPHIC ALGAE 389
AUTOTROPHS 168
AUTUMN 424
AVAIIABILITY
590 724
ARTIFICIAL POND 124 126 148 267 314 335 281 382 397 427 448 463 470
556 567 60C 645 678 774 ARTIFICIAL PONDS 836 859 892 898 911 925
469 975 999
ARTIFICIAL STREAMS 65 485 657 693 9 6 2
AXENIC ALGAL ECOSYSTEMS 896
ARTIFICIAL VEGETATION 290
AXENIC CULTURE 671
ASCORBATE 804
AZC-EENZENE ENZYMES 97
ASH 89 1013
AZCTCEACTEB 928 933
ASSIMILATION BACTERIA 114 . 336 744 927 2C 98 210 265 292 298
. 312 315 317 318 320 321 ASSIMILATION RATES 336 348 369 389 433 453
312 5C0 >522 551 557 581 619 694 726 727 832 852 865
ASSOCIATIONS 912 928 1008 124
ATMOSPHERE " 1 8 0 883
323 974
383 497 562 5 8 4
ATMOSPHERIC PRECIPITATION 324
ATMOSPHERIC TRANSPORT 411
ATOMIC ABSOP.PTION 628 778 1011
ATOMIC ABSORPTION SPECTROPHOTCMETRY 108 531 746 1009
ATOMIC ABSORPTION SPECTROSCOPY 601 1017
BACTEEIAL DEGRADATION 865
EAKEC PRODUCTS 1L 17
BAIANCED AQUARIA 763
BAID CYPRESS 211
BAEIUK 156
BARLEY 27
BAELEY-M 183
34
430
194
527
528 774 937
139
KEYWORD INDEX
BASALT 5 3 9
BASE
9 1 6
BEACHRS 217
BEAN PLANTS 5 0 8 9 0 9
BEAN-D 70 412 456
BEANS 220 253 495
BED LOAD 517
.BEET-D ,'. 872
BEHAVIOR 869
BENTAXON 95 I
BENTAZON 11
BENTHIC ALGAE 43 683 685
BENTHIC FLORA 622
BENTHIC MACROINVERTEERATES 542 971
BENTHOS 227 312 339 550 719 799
EFNTONITE 208 642 675
BERYLLIUM 7 96
BETA PARTICLES 197 766
BETA-GAMMA RADIATION 196
BINDING 299 921
BICACCUMULATION 1004
BASE SATURATION 397
I 27 269 718 EI2
34 293 724 813
95 341 749 832
203 349 780
225 501 781
266 583 799
BASES 176 229
BICACTIVITY 395 762
BATCH CULTURES 668 862
BAY 37289 360
BAYS
BICASSAY 122 3S5 869
BICASSAYS 611
190 500 870
198 585
299 688
312 763
378 868
352 971
864
4U5 972
1019
469
BHC 664 877
BIBLIOGRAPHIES 244 499
BIBLIOGRAPHY 241 391
BICARBONATE 585
690 757
BICCREMICAL OXYGEN DEMAND B27
BICCHEHISTRY 350 869
BICC2IES 427 765
BICCONCENTRATION 4 143
BICCYCLE 405
BICDEGRADAEILITY 95 350 €27 638
479
388 639
497
466 767
501 878
633 634
BIODEGRADABLE INSECTICIDES 4
EICDEGRADATION 54 249 636
BICDETERIORATION 149 230 231 €S6 765 839
BICDYKAHICS 1 1 6
BICGECCHEHISTRY 187 947
BICINCICAT 325
BICIKtlCATORS 746
BICLCGICAL ABSORPTION 1C14
BIOLOGICAL ACTIVITY 471
BICLCGICAL AVAILABILITY 26 69 997
BICLCGICAL CONTROL 317
BIOLOGICAL CYCLING 464 464
BICLCGICAL EFFECTS 241 444 766
BICLCGICAL HALF-LIPS 181 340 725
BIOLOGICAL MAGNIFICATION 562 632
384 572 690
755
1 9 0
KEYWORD I RDM
BIOLOGICAL PADIATIOH EPPECTS 258 982
BIOLOGICAL SURE 5 4
BIOLOGICAL TRARSPORtlATIOR 22
BT0L06XCAL TORROVEP 927
blOLOGICAL VARIABILITY 27
BrOLOGICAL-CHEMCAt VUO CORTROL 7 3 1
8LCORS »90 961
BIOS GRASS-n ee
8L0E-GREER AlGAft 170
RlQECRAftS i n
9 1 0 E S U L € 1 1
RLCfCJttS IS)
3 1 0 389
1 3 S I H
BI0MAGRIPZCATX9R
EIOHASS 166 973
16R
6 3 0
602
615
612
« I A
6 9 3 9RS
PIORfGERERA*IOR 1 6 9
BI0SPH1KE 3 « 9
BIOSYRTES TTJO
BIOTA 171
996
? 2 B
BXOTIC COIKORXtf 3 1 5
BXOTX0 S S I
BXOTITR 2 M
BXOTRA«POji»IATSOR 1 1 6 1 9 9
S X M M 6 9 6
S R T 6 7 1 tit
B I M X D T R S A N C O M P O O R R S 59<*
»T«T
BJRCH
M P C F F 1
» I R » 9 it*
m
8 1 5 T P - C A U S R O M R I F T I A C S . ? O » R C * : T R * I 9
•UTFTOTTT 1 9 6
tucR JM»ROCR
S T O O R 74«
two*
RlWICRl** At«AR 6 1 7
« C T
8CC5 m
SOIARt 1 6 9
R C I T I F S R P T R X R M * 1 4 9
T M C « O W O S M
W L T C * 9 A T E R S A L
*
* * m m
S I * * ; * * w
It*
T O
t H R I i l
tAoct u m t
n t
* E T * M
M M f l
491 760 799
141
wtmnn mnsx
F W M R I I T S C A » A C M
S O M A S C « » ! M M
C A F A C J T * 003 861
C A F A C I T F O S T I R F L X H A T I O N « C 7
M * «»A J H J C ?
C A M I A F T M I N
M L L F J W S 7 3 S
C M U M A C T I O N 7 T L
F I M O E W C T
c<n»i-s>ir
zmvtttx it* $
C A C O W M C *est* * « T O O O
SI
I0»»
1 * 3 10FT
7 * 3 1TT«
I S *
7§*
C A R S t o n i n
<A*XA*!!»#S NWtttNA SOJtS 1 8 7
C A L C A I S O S S J M W I *
CAFCCST m
»»
?0<*
CMCI0* CfttOfSSt
E A M T W * 2 9 0 N 9 A N I C C C F T W T T N O S
•• * * 1 2 } 1 2 4 1 1 5 J S C S 8 * * 0 7 A L O
S W FELT 7 0 1 1 M 7 6 T S F S W S U S *
< * L « 1 0 * 1 0 1
S T I 7 F T
C A I O M * * * * * J I T
C W E R M
C A P O * *
C A P A C S T A T C T M T » »
» 0
CAtUtAttY C0»QtJCTIVX1V
CfcmtAftV & I F F 8 S I 0 W m
CAMMtATS *2«
C A M A I T A T W 1 1 7 M S
CAMCt#!JtA# 7 1 3
C*»8C*Y0M?t
CMtC* m
C A M C * O J O X S O S 75 n «
• » 0
6 7 2
509 6 1 2 < m
CASK* 6MM8& LX«g»ATX0»
CAMC* CXOtXOt ttMlt* T ! L
c*«c» not m
CAftCS HONOXXOt I T L
CAMC* 1« S I 3t& «2S «S S«S 777 *3*
CAF8C* 1« exoxin «I3
CAASCKATR lis 585
CA»SC«AttS
c m c m i i f f i o * 130
c A t e c m C M O M a t
CAtlOIIl CJIOOP
CARtCHlXC ACIDS 775
C A H C 1 BXCRQCOSiS * 61S
?«7 3»0 329 311 933 *5S $95 «)3 6«0 «5ft m i •tt
CAIP 1 1 8 136 716
CAtRlXft 10MS 3*1
1 4 2
K8TH0B0 XSOEX
CARROT-D CHAHHIL CATFISH 82S 872 €11
CARROTS CHARCCfiL 359 698 953
CATION CttARCI IS 30 109 113 140 176 lea 163 207 223 273 281 397 461 528 535 538 607 648 CHARGED PARTICLE TRACKS 702 708 730 760 77U 773 648 802 817 819 850 87a 890 916 957 1019 C8HA7ES
117 146 230 CATXOH EXCHANGE
507 510 53a 563 8«3 CRttAIINO AGENTS 99a 272
CATION EXCHANGE CAPACITY CBflAtXON 527 888 238 231 23«
5ft 667 647 CATIONS
178 53* 907 CtttMlCAt ANALYSIS
C A T T L 6 « J S
CAOtiriOttKlt CQCOtttfR
a t n r sx«s 7 1 1
CELI, DENSITY 881
CElUlLOSf 6 0 3
CEttttLQSR *f ACtlON COMPLEX IJSC 7 S «
82
CEiEAl 7 3 9
C I M M 2 6 1
c m i m i«i A I «
C t t l M ia« 2 9 3
C ' L T T F I - I A A 189
CSSIOJt
9 8 1
"tn
s*e
526
389
<6921
<*m
781
« 2 3
1 0 C 8
SIC i m
CfSItM CHlOPXDf
CBSSBM XSffMPSS A J J ? « €
CESIPil 13a 215 309 92 T 9BS
cesr«» t3?
7 2 1 1 2 5
4f2 8 2 A 718
CH?MU*t AUTOPSY ««8
CttfMKM. 8X8018® tat
CttlMKAL COMPOSITION 8C«
C*E8Uftl S«»ItI88108 F I T « 8 2
IC a? 6»7
C 8 I 8 K A L 8tACTI0«$ 9 * 9
C»f*1Cfttt U 2 0 0
cutNitomioti
C F T T F L I M K Q a7«
i-77
6 * A
231
236 876
6 2 A
5aa 895
748
585 900
5 2 A $ 3 7
cftfftc*tr*or*artue « m t m * s tn CWfftCSTAT
C T T I C A T * iee
c#isc»cn& 1 * 9
C 8 I * E « E T ! T » * £ 6«7
C U M I M 6 C 1
n 6 196 197 229 208 258 281 293 349 a m 521 c n t e f m * 526 692 735 713 75ft 78« t M sat 790 792 793 79ft «9f 941 971 979 m ® 987 98* 989 c i n e m a s : T 8 M S W 8 T 1008 *77
«««
C8A&TOG9 ATMS aa7
cutcttfcows 9
103
KEYWORD INDEX
CHLORELt.A 332 5 9 1
CHlOtCSXS 3 4 253 8 4 0
CHLORPEWVIMPMOS 4 2 0
C H L O R Z O E
C H L O R I D E IOI» 520
C H M M X P E S 18* U56 9 0 7
493 532 705 8 5 8
c H L o u m n o turtttfms S97
CttLQPItfATf 0 ttVOROCANCON 9
CHtOMNATtt* tt*!»P0CAMC» PfSTlC:i>*S 717
CWtOf»!MTIO KV0MCA960NS 116 J9i W O 5«<* M l U 1
ctttopiMTin m « c r i c : m 6 * 8
E » W ? I W T ! ( » P M T C S M 6 3 1
Cttt.O*l«« 21 a m
5 0 1
M S
5 5 3 557
euiaftm AUPHATIC c o u w w o s S 9 « *3H?
C * M » M * S If-5 9 3 6 2 * » 1 2 9 8 1
O f l u m s s 1ft • A T J
I S
CtftftOTg
C # M » » 0 - * * C - K « M M N W E S
§9
®7*
C F L T O P O N R F T L U C K T O * *te ctttotom m * t *c m r f 5 0 9 9 9 5
C»t«PSI»»OS I I U C T I C I M SOS
C # F C « « » F » 8 F U 3 5 4 > 1 3
c n v a m v n m *
« U « 2 2 1 0 1 0
831 CHtORFROPHAH
670 828 CHKCMYRIPOS
155 CHIOR1HIAHID
260
CHROMATOGRAPHIC COltlHNS 537
CHROMATOGRAPHY 585 37-5 377 623 727 769
CHPCRATOCRAPHY ANALYSIS 775
820 459 5S3
C I T P O M T I N t l 749
193 778
156 1017
C«50»!|t»1 51 St 195 «01
CMI091C EPfECT? 119
c<t*ofie i m s r . 1 1 7
m O N I C IRRADIATION m 197
C(IIONIC IRRAIDAtlON
CHSOR1C TOKICXTf m CK«0«}Q9 SI
u
c u t J!7
C X K Q I M I M T P H A S E S eis
C I I T H W F S L
230 530
927 9«9
548
C M * « S 797
cii#es-o 71
C L A R I S 7 2 $
CtAt T L
S29
2 2 7
7*5
2(11
3 3 5
981
791 955
C T A ¥ C 0 * T 8 » T 91 209
CtAY «l»t*ALOGY M l
C U 1 UltllLS 737
ClAYS *7* 31 51 92 17® 215 223
571 370 171 176 377 199 •CO 52ft 53$ 57* 642 675
313 7ca 75 J •03 806 «S0 887 953 99» 1019
C » W J I W * E F F F I F ( 9 9
144
KEYWORD INDEX
CLEARCDTTING 502
C L E A V A G E 648 992
COMBUSTION 960
COMMUNITIES =48 549 982
CLIMATE 124 609
COBMtNITY 6C9 620 671
CLIMATE EFFECTS 558
CLIMATIC FLUCTUATIONS 90
CLIMAX ASSOCIATIONS 315
CLOSES ECOSYSTEMS 610
CLOSED MICROCOSM 72
CLOSED-TOP PIfLC CHAMBERS 373
CLOSBRE 598
CLOVER 062
CNIDARIA 464
COASTAL WATERS 71 S99
4 8 4 49"> 659 746 882
COEHONITY ENGINEERING 666
COMNONITY HETADOLISM 170 171 172 956 965
COMMUNITY RESPIRATION 352 621
CONPMIIOH 671
COHPI1ITION 114 719
COMPIIX COMPOUNDS 462 667
CCRPIEX FORMATION 7C2
CORPIEX ION 518
173 174 617
CCMPIEXES lf.5
C O M P t m N G 422 437 691 758
COASTS 895
CCCPtEXITY 6C9
COBALT 156 72 J
2 6 1 749
COBALT ISOTOP'S 790
COBALT 56 716
COBALT 60 96 659
229 716
275 930
405 471 530
234 790
281 9*>1
401 ate
CODISTILLATION 12
COELEV'TBRATPS 447
COHO SALMON 657
COLXPOft!! BACTERIA 196
COLLIHATEO 9EHFCT0S 303
COLLXOOAL NATURE 13
COLLOIDS 737
CCLORXMF.TRY J3& 1017
COLOR* PRCC009E 4 0 2
COMPOSITION 667 696
C9HPCSTS 4S9
CONFUTE* ANALYSIS 217
COMPUTER CALCULATIONS 84
CCMP01ER MODELING 278
COMPETE* MODELS 662
COMPOTER PROGRAMS 5e7 591
COMPOIER SIMULATION 374 911 989
CCf.FUTER TRACERS 2 C 3
CONCENTRAITON 4€1
CONCENTRATION 156 240 E 3 5
278 667 696 717
CCSCE JURATION CHEMISTRY 624
CONCENTRATION COMPOSITION 149 198
C0RCERINA7I0R FACTORS 140
145
KEYWORD INDEX
CONCENTRATION PROFILES 151
CCEEPCOS 447
CONCENTRATION REDUCTION COPPER 936 31 146 156 267 271 275
322 457 548 591 694 715 CONDUCTIVITY 723 749 778 804 811 871
308 580 675 836 923 950 C85 886 920 935 1017
CONDUCTIVITY COEFFICIENT 883
CCEPEB ORE 271
CONFINING BED 993
CCEPEF SULPATES 9 65
CONIFERS 899
COSAI REEFS 210
CONJUNCTIVE SORFACE-GROUNDWATEB SYSTEM 722
CONJUNCTIVE USE 722
COED GRASS 2 9 8
COREY METHOD 5 € 0
CONSERVATION 498
CONSOMER-REGENEBATOR 686
CONSUMERS 168 190 320
CONTACT EXCHANGE 941
CONTAMINANTS 476
CONTAMINATED 7IONFS 552
CONTAMINATION 93 111 753 772
141 925
671
633 937
692 949
716 985
117 838
80
CORN 64 714
COBN-K 6 C
CCERAI 16
COBSICAN PINB-G 270
COSTS 373
COTTON 34
COTTON RATS 496
473
431 997
88
470 999
590
629 670
839 846
CONTENT 207 535 E O 6
COTTOa-1 163
CONTINUOUS CULTURE 91 132 133 332 668 750 852 926
CONTINUOUS FLOW 133
CONTINUOUS FLOW SYSTEM 293
CONTINUOUS SYSTEM MODELING PROGRAM 285
CONTINOOOS-PLOW CULTURES 862
CONTROL 6 2
CONTROLLEC-EHVIRORH ENT 592
CONTROLS 373
362 935
394
CONVECTION 151 1 5 2 728
CONVERSION PRODUCTS 410
CONVEYANCE S?EPA3E 855
COOLIWG SYSTEHS 949
COTTCIMOUTHS 798
CCTURSIX QUAIL 798
CCVEF CROP 106
COWS € S 2
CRABS 95 226
CRANBERRY BOG 640
CRAYFISH 611
CRICKETS W
CRITERIA 774
CBITXCDB 930
CRC6R1RS 226
662
966
246
812
688 715 932
CRCP 092
1 4 6
KEYWORD INDEX
CROP PRICES 586
CROP ROTATION 506
CROPLAND 1 6
CROPPING SISTERS 88
CHOPS 139
CRUSTACEA 141
CRYPTOGRAMS 899
CRYSOPHITE 348
CSMP 285
CUCUMBERS 64
CULTIVATION 240
CULTURE 315
527 5 9 7 730 983
812
495
500
CULTURE MEDIA 348
CULTURE MEDIUM 897
CULTURE SOLUTIONS 649
897
CULTURES 29
CURIUM 748
9 8
909
654
CYCLCEARAFPIN 613
CYICCEIENE 1 1 6
CI4 EIQUAT 386
C14-0-GLY0XYLATE 320
DACDISFLY LARVAE 3G6
DAIRY FEEDLOT 186
DAIRY MANURE 16
DAIAECN 928
DAEHNIA 491
DABCY'S LAN 44 950
DABCYS EQUATION 8C3
343 DAECYS LAW
142
DA5KKESS 83
DATA 555
DATA EVALUATION 566
D A T I N G 769
DCPA 6S6
CURIUM COMPOUNDS 747
CORIUH 224 747
CURRENT VELOCITY 620
DD!)
CUTWORMS 355
CYANICE 220
CYCLE
3 5 8 360
42 390 771 787 952 CYCLING
67 175 178 191 193 214 228 283 296 313 327 483 484 502 506 587 598 599 618 744 786 810 873 908 949 991
CYCLODIZME INSECTICIDES 717
CYCLODXBNES 638
CYCLOOLEPIN 613
2 1 3
DDE 4 5 7 5
DDMU 213
DON 439
DDI
266
160 658
467
213 680
658
266 688
688
465 866
4 6 7
4 12 18 20 29 52 63 64 95 115 116 138 160 165 180 185 201 206 212 213 214 237 238 247 265 266 269 344 363 367 388 399 439 453 454 455 465 479 501 513 519 541 553 564 57S 582 583 626 6 36 637 654 658 663 680 688 696 717 726 727 737 765 767 779 782 784 815 E39 849 862 866 872 877 879 887 904 905 965 996 1014
ANALOGS 466 637 638
CARBON-14 247
147
KEYWORD INDEX
DDT CL-36 724
DDT-ANALOGS 388
U E C A P O D A 141
DECARBOXYLATION 495
DECAY 242
DECAY RATES 990
552
TECIDOOUS TREES 899
RESORPTION 47 494
104 655
DESORPTION CURVE 880
DETECTION 135 857
DETECTION LIMITS 156
DETERGENTS 54 643
230 900
DETERMINATION 15 273 1011
208 659
947
231
479
229 809
398 867
400 977
318
601
331
778
591
802
DECOMPOSERS 168
DETOXIFICATION 929
DECOMPOSITION 89 175 312 334 336 704 895 922 1005 1006
483 DETRITUS
190 979
589 688 910 966 971
DECOMPOSITION PRODUCTS 656
DEVELCPMENT 362
DEFICIENCY 126
DI PHENYL METHANE 265
DEFOLIATION 290
DI-M-EUTYL PHTHALATE 6 1 1
DEGRADATION 20 163 224 454 455 512 1000
DEGRADATION PRODUCTS 160
DEHP 635
D E L 3 A V 420
D E L T A S 204
DEMERCURATION 992
DENITRIFICATIOH 17 151
249 750
26 5 866
318 912
D E N S I T Y 44 306
DEPLETION ZONF 46
DEPOSITION 725
DEPOSITS 517
DESALINIZATION 846
DESERT 903
DESICCATION 1003
DESIGN 788
730
719
906
DI-2-ETHYLHEXYL PHTHALATE 611 635 813
DIALIATE 202
DIAMOND-BACKED HATER SNAKES 798
DIATOM 348
DIATCMS 266 799
DIAZINON 238
459 1003
337
548
589
549
845
6 & 0 622
DIAZINON-C (14) 640
DICANEA 376 827
DICHICBENIL 380
DICHIOFENTHION 420
DICHLCRO-NITROANILINE 336
DICHLOBOPHENOXYACETATE 495
DICHICBOPROP 928
DICHICRPROP 528
DICOTYLEDON 843
DIEL DRIFT 657
148
KEYWORD INDEX
OIEL OXYGEN TECHNIQUES 965
DIELDRIN 29 63 64 105 138 144 159 201 246 266 344 359 398 433 436 473 474 486 501 511 541 553 663 664 696 714 727 765 768 780 799 827 849 879 1014
DIELDRIN-14C 433
DIET 101 657 701
DIETHYLENETRIAHINB PENTA ACETIC-ACID 267
DIFFERENTIAL EQUATIONS 217 652
OIFFUSION 46 129 235 335 377 529 555 629 659 728 747 751 808 829 837 856 862 943 944
DIFFUSION COEFFICIENT 418 676 942
DIFFUSION COEFFICIENTS 285 328 943 944
DIFFUSION EQUATIONS 669
DIFFUSION THEOFT 856
DIFFUSION UPTAKE 312
DIPPUSIVITY 94 294 343 709 710 732 993
DIPONATE 9
DIGESTION CATALYST 1001
DIGESTION SALTS 1001
DIGESTIVE SYSTEH 1014
DIGESTIVE TRACT 396
DIGITAL COMPUTERS 278
OIL AN 664
DISETH ANONAPHTHALENES 849
DIHETHOATE 58 224 328
DIHETHOXON 224
DINETHYL 5-(1-ISOPROPYL-3-METHYL-PYRAZOLYL-CRRBAHATE)
299
DIH ETHYL A HINE 40
DIHETHYLARSINE 425
DIHETBYLNERCURY 520
DIR-EUTYL PHTRALATE ESTERS 813
DIBOFIAGELLATSS 612
DIOCTYL PHTHALATE 635
DICXIBS 377
DIPHBNAM1D 208 395 670
DIFHENYLHERCURY 606 992
DIPHCIE INTERACTIONS 953
DICUA1 371 384 386 487 886 965
DISCHARGE 545
DISCRIHINATION 878
DISEASE VECTORS 765
DISPEESION 35 44 242 306 525
DISPERSION COEFFICIENTS 93 112 913
DISPERSION EQUATIONS 151
DISPEBSION EXPERIMENTS 119
DISPERSION RATIO 791
DISPIACEMENT 330
DISSERTATION 131
DISSOCIATION 917
DISSCIOTION TREATMENT 223
DISTRIBUTION 37 137 100 215 232 250 337 364 401 426 434 469 477 513 520 603 622 646 664 684 723 756 838 871 887 901 908 1003 1017
DISTRIBUTION COEFFICIENTS 494
DISTRIBUTIONAL BEHAVIORAL PATTERNS 542
DISUIFOTON 328
DIURUAL CURVE METHOD 174
119
KEYWORD INDEX
DIURNAL METABOLIC PATTERN 7 4
DIURON 2 4 9 B 2 S
DIVERGENCY 8
DIVERSITY 5 5 0
DIXIDESHUU 9 8 7
3 3 0
623
DMA 4 2 5
DOBSON PLY 812
DOGS 6 3 5
DOLOMITE 4 6 1
DOMATOL 3 2 5
DOMESTIC SEWAGE 7 0 0
6 8 7
9 8 2
DOMINANCE 1 7 0
DOP 6 3 5
DOSE RATES 1 9 7
DOSIMETRY 7 6 6
DOUGLAS FIR-G 2 7 0
DRAGONFLY 5 1 0
DRAINAGE 1 7 2 6 4
4 0 2 5 7 1 6 7 0 7 3 1
6 4 3 9 7 2
8 3 3 8 4 0
DRAINAGE WATERS 4 8 9
DRINKING WATER 6 9 2
DRIVING FORCE 2 4 5
DRUGS 5 1 5
DRY WEIGHT CHANGES 1 3 7
DTP A 2 6 7
DUCKS 2 1 3
DURSBAH 3 6 0
DYES 218
DYFONATE 5 6 5
DYNAMICS 9 3 6
DYSPROSIUM 692
EARTHFILLS 2 4 4
EARTHWORMS 200
2 8 7
201
288
4 3 6
2 8 9
600
4 9 9 6 9 0
ECOLCGIC SIMULATION 1 4 7
ECOLCGICAL MAGNIFICATION 6 3 9
ECCLCGY 1 8 8 2 3 3 5 1 5 602 7 2 7
EC SYSTEM ANALYSIS 4 8 1
ECCSYSTEH DEVELOPMENT 681
ECOSYSTEMS 5 7 6 7 1
7 6 682
166 9 9 5
168 2 6 9 309
EDC 4 4 4
EDSO 3 5 7
EDTA i n 5 9 1
EFEECTIVE DEPTH E 4 6
EFFECTIVE HALF-LIFE 9 8 6
EFFECTS 8 7 9
EFEIC1ENCES 7 5
EFFLUENT 2 8 3
EFFLUENTS 1 0 7 1 8 2
EFFLUENTS PHOTOSYNTHESIS 1 7 4
EGGPLANT 9 4 8
EGGS 122 6 3 1 7 1 8
ELECTRIC ANALOG CIRCUIT 7 7
ELECTBICAL RESISTIVITY 8 2 7
ELECTRODES 5 9 1
ELECTROLYTES 808
ELECTRON CAPTURE GAS CHROMATOGRAPHIC ANALYSIS 9 2 9
ELECTRON DENSITY 9 7
KEYWORD INDEX
150
ELECTRON MICROSCOPY 648
EQUIIIBBIUM 540 699 700
ELECTROPHORETIC MOBILITY 864
EQUIIIBRIUM DATA 917
ELECTROPLATING 497
ERADICATION 428
E L E M E N T S 313 748 1013
ERCSICH 277 834
344 940
498 792 793 794
ELIKINATION 349 520
ELIMINATION RATE 429
ENCLOSED ENVIRONMENTS 317
ENDOSULFAN 696 782
ERCSICN INDEX 793
ESR 785
ESTOABEIS 982
ESTUARIES 7 D 20 55 59 171
ENDRIN 182 187 225 226 228 256 9 63 64 138 663 664 266 342 364 401 404 517 727 904 622
901 659 991
740 1003
741 749 765 ENDRIN RESISTANCE
798
ENERGY 75 312 485
610 ENERGY FLOH
367 510
ENERGY STATUS 245
ENERGY TRANSFER 342
ENGLISH RYEGRASS 458
ENTEROCOCCI 186
ENVIRONMENTAL BEHAVIOR 476
ENVIRONMENTAL FATE 97
ENVIRONMENTAL FBYSIOLOGY 514
550
682
EPAL 757
EPILIHNION 786
EPIPHYTES 549 551
EPITHSRMAL NEUTRONS 788
EPOXIDATION 4"»5 486
EQUATIONS 342 579 951
EQUILIBRATION 407
EQUILIBRATION SYSTEMS 560
EQUILIBRIA 130 510 801
ESTUAEINE FISHERIES 668
ESTUARINB ORGANISMS 227
ETHICN 387
ETEOXYCHLOR 465 466 467
ETHYL MERCURY PHOSPHATE 25
ETHYL MF.THYLPHOSPHONOFLUORIDATE 370
ETHYLENEDIAMINE DI (O-HYDROXYPHEHYL ACETIC ACID) 2H3
EUCALYPTUS 814
EUCARYOTIC ALGAE 389
EUEHCHC ZONE 483 484
EUROPIUM 405 692
EOIROEHICATION 250 468 740
EUXOA BIOTHION 358
EVALCATION METHODS 938
EVAPORATION 347 558
EVAPORATION RATE 584
EVAPCTRANSPIRATION 279 324
490 643 7 03 727
EXCRANGB 113 547 821
1 6 2 559 823
561
800
368 720 890
5B4
842
369 741 892
704
528 742
532 820
1 5 1
KEYWORD INDEX
IAHGE CAPACITY 15 19 30 109 140 176 183 207 223 273 299 397 535 536 <507 698 650 708 760 773 802 806 817 819 850 874 907 916 969 1009 1019
FACTCHAl EXPERIMENTS 123
m i c o t 79 1)0 195 197 233 32* 725 73S 766 795 899 993 985
EXCHANGE EQUILIBRIA 329
FAtLOOT CONTANTNATION 752
EXCHANGE FUNCTION 533
FAILCQT DEPOSITS 27 692 709
EXCHANGE PROCESS 752
FAUCOT STItOLANT 996 996
EXCHANGE RATE 369
FAIN STOPS 189
EXCHANGE RESIN 770
FARIt flANAemRT S€6
EXCHANGE RESINS 129
FAflTAIDS 207
EXCHANGEABILITY 96 869 916
FAT €12
EXCHANGEABLE SODIUM 51
FAtr 565
EXCLOSION EFFECTS 907
FATHIAO NIN0ON 122 611
EXCRETION 496 520 507
FAONA 65 6 6 5F9 597 966
EXOSKELETON 599
FECAt COIXFOMS 1 F «
EXPERINENTAL CONDITIONS 785
FECES 996
EXPERIMENTAL DESIGN 738
FttDUC 199 671
EXPERIMENTAL ECOSYSTEMS 73
FEIDICT BASTES 690
EXPERIMENTAL FIELD 966
FEN PEAT 229
EXPERIMENTAL PONDS 225 228
FENAC 376
EXPERIMENTAL STREAMS 367
FENTBXON 238
EXPERIMENTS 307
FERM1TATX0N 362
EXPLOITATION 807
F E N D t m O COMPOST '428
EXTERNAL IRRADIATION 196
FECR8T 100
EXTRACT 536
FERRIC HYDROXIDE
EXTRACTABILITY 535
FEBTIIXTY 88 927 850
EXTRACTION 417 448
EXTRACTS 397
EXUDATION 941
452 851
EYES 5 7 9
F ERT X11ZAT ION 239 319 761 892
FERTILIZER 17
FERTXIXZER RATES 795
906 8 9 3
567 910
667 799
m
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F I T » I M I S M M T 140
F S I T © H F C W F W T * J M
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N O O A M T C * * » S O J » * T * # # to
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TTQ8*«4CT*E« 1 0 1 0
25 •« tos ICS 1 U 122 135 U t 11} 1*« 1*9 n o o t t s c m * m 193 I U 22* 233 350 as* 219 255 2#6 291 J00 301 1*9 » ) It* til •25 *29 r w e f m e o # e * # m ? z o f t«2 M l »$« K S 111 5*0 «91 519 520 57« 5«« 611 «§a H I 69* 701 703 *tooti#t Til 767 U 9 19* ««« 949 295 ««0 •TO 92* 9*9
W T E N I F T w m * * s u i
m O M * * *CCO*8UtTXOi
1 5 3
*M©*I> M A C *
T J * m
rtt 6 H
6 6 9 4 0 3 9 3 1 FS«B KBBROY
S O I
F R T E M T K } % m
FBFSR EATER 337 BOS
f O U A * fttALVSIS S9J
PRCSN RATER BIOLOGY 1 2 ?
f Oil AN ffttVtfe FRF58BATEB 42 69 233 260 281 286 113 009 434 454 455 599
*o«*» * m m o * 626 659 701 726 783 847 3ft (78 916 925
2 0 2 PRtSANATER BIOLOGY
ito
PNTSRRATER COMMUNITY *J6 % 7« 896
fOOtt CHAIN m S R M T E R CRAB « 55 79 too 237 396 o« «2* 5«2 609 635 651 M O *97 9ft 1 PRESRtATER PLANTS
910 >00J) C«AT*5
#4 *5 95 191 203 FReOROXCB-TYPE ISOTHERMS 250 t u 272 BIO 17) 442 351 4*3 «5* 465 461 496 511 5«3 * • * 703 725 79C «99 PftlQNClXCM ADSORPTION CQOATIOA K T 3 « Q
w o C O * 8 t » m O # t u
r o w TOXICITY •75
FOPANXNXFM STAMLITY 5*0
F N C 6 S I C S
FRCST HEATING 102
FROIT 4 5 6
FROIT TREES 106 257
«6«CASTLLHI 37*
W W RCOSTSTFRJT U O
w m t s
WMMtAtlW N S
M M * W 0 9
r e m c *e*» «17
P W F M J L * 2 1
2 * 0
ran?*** 5 9 1
FOPTNAN « PROGRAMMING LANCQACr 5 9 1
R M T I O N A T I O N 782: 3 0 %
FRCtTS 4 5 137 558
POltERTON LOAN SOIL 9 C 9
FOlfXC ACX0 30 51 52 66 67 124 487 290 S27 345 354 406 421 «f* 502 506 567 641 679 FOIVIC ACIDS 705 765 706 770 771 7®4 702 775 m o 960 #63 673 993 991 1005 1006 rUICTXONAL GROUPS
9 5 3
PONGAt PATHOGEN 975
P0NGI 96 298
FONGICIDES 199 302
»0RG0S 653
GAMMA RADIATION 197 258
5 0 1
3 3 6
7 6 6
738
982
777
GAMMA RAT ABSORPTION 923
GAR*A SPECTROSCOPY 647
97ft
1 5 4
JCEYNORD INDEX
GAHHa-PENTACfJLOBOCYCLOREIENE 159
GJtHRft-RftY SPECTROMETRY 3 0 3
GAS CHROMATOGRAPHY 613 624 727 764 857 865
GAS EXCHANGE CAPACITY 317
GIS SURFACE INTERACTIONS 121
GAS-LIQUID PARTITION CHROMATOGRAPHY 613
OOlOflSR JSJ
CORA15 180
G058AtX 100
688X8 SIEE 985
8 0 8
GAAP2-D 207
6 2 S 701
GASES 288 289
GRAPH THEORY E67
GEL FILTRATION 627 743
G8L PEBREATION CHROMATOGRAPHY 775
GRASS 27
GV*SS«R 8 9 5
872
G E O C R E N X S M 31 596 890
GEOLOGICAL RAPS 875
GEOLOGY 778 808
GEOMETRY 216
GEOPHYSICS 110
GERMINATION 197
GILLS 578
GLACIAL OOTWASH 1 8 6
GLASS SHRIMP 812
GLASSHOOSE EXPERIMENTS 290
GLOBAL MODELING 996
GLOECKAUF THEORY 505
747
GLYCOLLATE 964
GNOTOBIOTIC CULTURE 671
GNOTOBIOTIC ECOSYSTEMS 896
G8ASSCS 127 145 195 202 725 W O
GRASStAND 57 125
GRASSLANDS 215 880
GRAVITY 711 712
GRAZING 478
GRAZING PRESSORS 966
GREER RETROD 5eo
GREENHOUSE CONDITIONS 571
GREENHOUSE EXPERIMENTS 64
GREENHOUSES 63 373 592
GROSS PRIHARY PRODUCTION 621
GRCDHD HATER
197 895
295 899
298
16 32 44 81 93 96 GLYCIHE-HAX-D 111 186 217 230 231 244
649 287 288 289 343 499 504 522 546 566 586 594 652
GLYCOLIC ACID 667 690 734 788 839 906
GRCUNE HATER RECHARGE 566
GROUNDWATER 28 110 156 216 274 545 552 561 772 875
GROUNDWATER FLOW 722
277
GOATS 396
GRCUNERATER MOVEMENT 566
GOLD 226 271
m
6 * 6 * 1 * #0 114 122 112
M 1J7 t n 99$ 257 279 sua 3*4 354 $72 #15 577 (too t U «t* 6S3 710 744 800 88 V 885 8«! i a «
744 800
W M W C*IL
cmmtft
C*OIT# m i m u m m
*vmeftto» trouot « «
MITfttf
nc»*-sima« AAtwuoms • t«s
8R88ICX8E APfUCATlQN ' 7 1 1
RIHKIOt RESI00ES ' H I
m i i i K u i »m»Txo* -
680ttTH RlttfttCS 132 HERBICIDES
tc 11 14 3* 36 OROttTB RATE n 97 99 120 129 130
J40 975 149 169 118 202 208 209 J40 975 249 263 325 333 338 346
6*QRt» RATES 3f« 171 375 37 6 377 380 530 jen 395 488 412 476 487
495 509 571 588 593 594 aoxmxttss 634 642 649 655 670 696
47*' 7Ca 814 827 828 829 830 47*' 811 854 857 861 876 885
GULPS 886 921 928 939 1000 TTAI
colls 631
C A P O T E S 3 0 0
H P P 2 1 1 9
MtiarsxTtr 213
HALOFRYTE 903
WAPO 747
HARDNESS 25
HATCH1WG 783
767 7 « 8
H A T 207
H C T 95
HEALTH PH7SICS 189
HEARTS 635
HEAT 960
HEAT DISSIPATION 922
HEAVY HETALS 24 53 715 746
HEtBR«H0P8XC SUCCESSION 350
H E m C T R O P H I S H 121
HEIAClLOKO-BENtENE 6 JO
HEXAC8LOAOCTCLOHEXA8E 116 513
RXSTC10G7 100
HISTCIATHOlOGf 8 6 9
HOLDING POHOS 174
R0IX5TXC ECOLOGY 7
R080GER8XTE 633
R O M C N 462
HORIZONTAL-VERTICIL RATIO 954
BOBBCIB-HXHIC INSECTICIDES 634
ROEHCNES 515
HORTIC8LTBRB 540
69 991
205 1016
694 6 9 5
RORANS 6 225 553 609 195 940
317 680
374 681
410 689
512 695
HEXDEN-HONT CLAY 215
ROR&XtS 229 333 921
HEPTACHLOR 64 879
138 663 664 714 827 BORIC ACID
467
ISfi
RBIRORD XWOEX
BORXC AC7D3 229 351 905 702 793 7S1 758 77S 892 890 891 921 958
HBIIXC COMPOUNDS 207 822
NORXC SALTS 959
H8RXC SUBSTANCES 222 998 627 691 760 785
HUMIDITY 129 163
RQNXFXC&TXQN 200
592
RVCROtVSXS CONTROL 806
MDBCSBTSICS 308
BYDRCFONICS 2S1
8YCRCS0LS 256
HYDBCIXDES 982
A T C R O m 921
RYFE8SALXRE WATERS 173
R0H05 52 309 900 1005
HOROS FORMATION 770
RrBRXO CORFOTEB 65 2
RTDBATE FORMATION 917
HYDBAOLXC CORDOCTIVtTf 109 580 950
HYDRAULIC 9ODEI 62
HYDRAULIC PROPERTIES '636
HYDRILLA 886
RYDROBIONTS 233
751 808 876
HYDROCARBONS 8 5 1 1 6 5 8 9
HYDRODYRARIC DISPERSION 2 9 2
HYDROFLUORIC ACID 9 1 7
HYDROGEN FLUORIDE 3 8 3 5 9 2
HYDROGEN SULFIDE 6 9 4
HYDROSEN-BOND FORMATION 351
HYOSOGEOLCGY 6 9 0
HYDROLOGIC PACTORS 5 8 6
HYDROLOGIC SYSTEMS 6 5 2
HYDROLOGICAL MODEL 5 9 5
HYDROLOGY 2 1 7 2 3 0 2 3 1 2 8 9 4 9 9 5 8 0
HYDROLYSIS 7 7 4 7 8 5 8 0 6
993
7 5 0
2 4 2 6 5 2
2 8 7 6 9 0
288 7 2 2
RYEOtXRHIOM 619
HYFOIOHNXON 716
HYSTERESIS 675
IAA 1012
XGVXHERITE 2 3 2
M M 3 5 1 8 0 1
XllOHXRATXON 7 5
mOHXNATXON INTENSITY 621
IMEIEITIOH 2 6 4
IHPAC7 7 6 5
IMPOUNDED WATERS 5 4 1
IMEOUEDMENTS 9 1 6
IN SITU 3 1 0
IN VITRO 4 6 6 7 2 6
IN VIVO 3 0 3 4 8 6
INCIEIENT LC(50) 868
INCUBATION 672
INEICATOB ORGANISMS 537
INDICATOR SPECIES 136
INCUCED DEFICIENCY 463
INDDSIRIAL EFFLUENTS 153
KBYBORa INDEX
INPU'ITRTAL SENRGP 700
I N D U S T R I A L N A S T Y 171
INDUSTRIAL WASTE W&YEH 251
INDUSTRIAL WASTES 116 182 099
INDUSTRIAL WASTEWATERS 7
INDUSTRIAL WATER 1 4 1
TNDOSTRZ ALXZATION 65
INDUSTRY 908
INFILTRATION 161 274 711 793 833 923
INrORHATYON CENTERS 379
INPORMATION SYSTENS 379
INFORMATION THEORY 972
INFRARED SPECTRA 775
INGESTION 149
INHIBITION 253 290 428
INHIBITION CONSTANT 926
INHIBITION KINETICS 132
INHIBITORS 957
INJECTION WELLS 099
INJORY 345
INLAND WATERS 323 700
INLAND WATERWAYS 692
INORGANIC MERCURY 940 865
INORGANIC NITRATES 906
INORGANIC NUTRIENTS 500
INORGANIC PHOSPHATE 313 560
INORGANIC SURFACES 914
INORGANICS 61
137
INSECT CONTROL 165 839
INSECTICIDE ACTIVATION 763
INSECTICIDE EFFECTS 895
INSECTICIDE RESIDOFS 990 63 952
INSECTICIDES
712 722 792 902 951
4 «» 14 18 29 47 52 57 58 63 64 115 116 138 139 199 159 163 2C1 213 229 238 240 299 328 337 344 355 358 359 360 376 377 387 388 009 910 911 413 926 452 453 459 075 508 512 515 553 569 565 574 589 631 636 637 651 656 658 662 663 696 697 698 714 717 727 737 762 763 765 768 779 7E2 799 809 815 825 837 839 895 849 867 877 904 1010
INSECTS 909 465 967 589 592 636 812 927 966
INTAKE 84 197
INTEGTHEHT 101
INTERACTION 558 959
INTERCEPTION 899 984
INTERCONPARTHENTAL CYCLING 156
INTERFACES 217
INTERNAL IRRADIATION 196
IN1EB1IDAL AREAS 622
INVERTEBRATES 212 255 349 454 955 486 812 982
i INVERTEBRATES REARING
255
IOEINE 131 692 754 927
XODOBBONINE €02
ION EALANCE 857
IOH BEHAVIOR 221
TOR CHROMATOGRAPHY 534
ION COMPOSITION 56
10R EXCHANGE IS 129 159 156 407, 667 702 752 892 906 953 1011
1 5 8
ICETNORD INDEX
ION EXCHANGE RESIN 11
ION EXCHANGE RESINS 130
ISOMERIC NUCLEI 659
ISCPBOPYL N-(3~CHLOROPHENYL) CARBAMATE 357
XOB INFLOX 262
TON METHODS 397
ION MOVEMENT 77 5
ION SELECTIVE ELECTBODES 591
TOM UPTAKE «56 931
XONXZABXLITY 953
IONS 19 0 3 5
IOXYNIL 928
26 730
82 863
262 323 416
ISCTHERMS 392 867
ISOTOFE DILOTION 724
ISCTCIE RATIO 526 949
iscTosrs 150 966
309 464 677 774 7 7 4
ISCrCEIC EXCHANGE 576 699
KACLINITE 2 2 3
KETONES 1018
KITNEYS 1 C 0
3 5 1 370 675 828
IRON 31 267 723
156 405 749
187 530 84G
223 548 847
230 699 904
253 702
IRON COMPOUNDS 432
IRON HYDROXIDES 482
IRON INORGANIC COHPOONDS 81
KINETICS 133 718
237 957
368 988
KJELDBHL DETERMINATION 1C01
LABEtED SOBSTANCES 230 231
LABELING 214 656
224 674
384
269
426 992
530 568
280 454 633
IRON ISOTOPES 790 974
LAEEIIED COMPOUNDS 6 9 2
IRON OXIDE 660
LAEORATORY 201 238 252 869
IRON OXIDES 906
LABORATORY AQUARIA 910
IRON 55 96
IRON 59 96
790
576
LABORATORY CULTURES 862
LABORATORY ECOSYSTEM 6 3 3
IRRADIATION 197 258 593
LAEORATORY EXPERIMENTS 510 804 875
IRRIGATED SOILS 34
LAEORATORY MEASUREMENTS 160
IRRIGATION 1 9 17 159 279 283 387 558 690 728 757 757 842 846 855 902 942
IRRIGATION MANAGEMENT 78
ISOCIL 351
ISODRIN 664
ISOLAN 299
ISOLATION 551
LABORATORY MICBOECOSYSTEMS 258 971
LABORATORY MODEL ECOSYSTEM 622
LABORATORY STREAM 255
LABORATORY STREAMS 620 621 799
LABORATORY STUDIES 320 355 358 1003
LAEOSATORY TECHNIQUES 1C01
530 946 993
159
KEYWORD INDEX
LACATION LEACHING 396 9 16 28 38 78 88
89 161 178 208 219 240 LAGOON 242 244 249 259 287 288
65 289 292 295 299 347 376 377 402 406 403 417 460
LAKE ERIE 461 489 499 504 505 509 827 564 565 572 573 608 656
661 679 690 704 705 706 LAKE MUDS 729 734 745 776 792 827
699 846 858 863 874 895 906 918 941 955 967 989 , 994
IAKE RATER 4 4 1
LAKES 146 162 250 256 268 282 284 310 312 321 331 349 352 365 368 369 916 480 490 50 2 555 557 614 735 786 787 789 808 811 844 865 889 920 929 956 976 977 978 1002 1014
LAND 180
LAND DISPOSAL 16
LAND SUBSIDENCE 216
LAND WATER 692
LANDFILL 32 772
LANDFILLS 156
LANDSCAPE 6FI1
LANTHANUM 708
LARCH 327
LARGENOUTH BASS 798
LARVA 469
LARVAE 246
LAW 306 765
895
LAW JURISPRUDENCE 765
LC50 868
LEACHATE 156
T.EACHATES 784
LEACHES 349
870
824
LEACHING VOLUME 745
LEAD 18 24 31 53 60 70 108 127 153 156 177 230 261 271 322 331 448 .,< 457 458 477 531 532 548 581 694 723 749 755 756 778 796 835 847; 915 920 , 937 947 948 V, 1009 1017
LEAD ASSAY 1009
LEAD PEROXIDE METHOD 562
LEAD SULFIDE 581
LEAD 210 37
LEAF
38 145
1006
LEAF EXCISION 412. -
LEAF-FALL 175
LEAST SQUARES METHOD 591.
LEAVES 179 218 814
LEGISIATION 690
LEGUMES 730
LEGUBES-D 70
LEMNI-M 198
LERNAED-JONES POTENTIAL 121
LEETOEHOS 355 358
LESSIVAGE CLASSIFICATION 178
LETHAL DOSAGE 136
LETTUCE 451
1014
755
LEUCINE 234
LICRBN 127
160
KEYWORD INDEX
LICHENS 752 899
LCSS BATE 510
LIGANDS 667
t o n e 212
L.'JGflT 82 340 501)2
91 341
1 7 4 542
TIGTSR. . L R T K K S I T Y W 5 9 3
LIMB 177 919
ITBriWf
IXRITO'TOE* 31 149
LINOFCNE 10 5. 138 696 837
LINDEN 610
193 612
3 2 2
2 6 1 683
1003
3 1 2 7 6 1
384
159 867
72-7
160 9 0 4
402 564
LCTIC MICROCOSM 191
LOTIC ORGANISES 172 542 962
LOCEBNE-D 207
LUCBRSB-D, LEACHING 158
LONG 635
LYSIHETERS 287 288 289
LYSIMETRY 52
HACRC INVERTEBRATES 511
784
LINE SOURCES 728
MACRCIHVERTEBRATES 972
L7N0BON' 6 4 %
HACROFHYTES 312 720
LIPIOS 4
MAGGOT 763
LIQUID SCINTILLATION 862 909
LIQUID WASTE DISPOSAL 757
MAGNESIUM 33 48 89 123 175 183 581 407 461 534 536 559 585 650 701 708 895 955 989 1017
LITHIUM IODI05 142
KAGNIFICATION 454 455 633 638
LITHIUM IODIDES 788
MAGNITUDE DETERBINATION 245
LITTER 196 327 810 1006
LITTER DEPOSITION 215
LITTERPALL 587
LIVE TRAPPING GRIDS 58
873 96 C 987
LIVER 100
LOAD 3 1
LOAH 208
LOESS 554
IOSS 102
199 635 LIVESTOCK
26 690 LOACH
718
864
608
103
877
955
339
955
781
MAIZE 904
MAIZE-M 139 207
MAIACBITE GREEN 965
HAIATE 456
MAtATHION 538 553
MAIATHION S-35 724
MAflMAIS 58
H A N
316
765
467
84
MANGANESE 31 90 156 397 434 471 840 1017
NANGARESE ISOTOPES 790
MANGANESE MODULES 462
797
187 723
194 749
267 804
161
KEYWORD INDEX
434
919
914
720
807
MANGANESE 54 96 401 418
MANNITOL 551
HANDRES 16 207 690
MARINE 348 717 779
MARINE ALGAF 59 622 668
MARINE BIOLOGY 188 423 624
MARIME COMMUNITIES 65
MARINE DISPOSAL 71
MARINE ECOSYSTEM 739
MARINE ECOSYSTEMS 188 446 481 760
MARINE PISH 423
MARINE MICROORGANISMS 624
MARINE ORGANISMS 102 103 247 497
MARINE PHYTOPLANKTON 239 914
MARINE PLANKTON 717
MARINE POLLUTION 695
MARINE SEDIMENTS 457 539
MARINE YEAST 132
MARINE ZOOPLANKTON 447 761
MARSH
576 790
780
849
848 981
543 938
MATHEMATICAL SOIOTION 279
MATHEMATICS 728
MATURATION 122
MCPA 928
MEADOW 792
H E A D C W PLOTS 794
MEASUREMENT 134
MEASURING METHODS 788
MECHANISMS 689
MECHANISTIC MODEL 363
HECOEBOP 928
MEDIUM TEMPERATURE 949
MEMBRANE 262
NEHBEANE FILTER CHAMBERS 619
HEMBEANE PERMEABILITY 420 841
M E M B R A N E S 718
HEBCUBIC CHLORIDE 3C2 806
HEBCUBIC IONS 625
MEBCUEIC SULFIDE 251 301
MERCURY 237 626 25 53 104 146 156 157
IE2 199 205 230- 251 252 MASS FLOW 254 260 286 296 300 302
142 335 831 353 364 381 396 404 419 430 438 440 441 442 443
MASS SPECTROMETRY 480 497 520 520 530 538 865 894 544 601 603 605 624 625
628 673 674 689 692 715 MASS TRANSPORT 769 841 882 889 908 932
111 402 935 981 992 1001 MATERIAL BALANCE
481
MATHEMATICAL ANALYSIS 278
MATHEMATICAL METHOD 710 711 712
MATHEMATICAL MODEL 86 93 217 569 570 609
MATHEMATICAL MODELS 84 287 374
713
237 704
990
561 722
991
568 996
MERCUBY ACCUMULATION 286
MERCUBY METHYLATION 538
MERCOEY ORGANIC COMPOUNDS 624
HERCUEY TRAP 1001
MERCURY 203 674 692
162
KEYWORD INDEX
METABOLIC ACTIVITY 510
METABOLIC INHIBITORS 220
METABOLIC PATHWAY 636
HETABOLIC QUOTIENT 75
METABOLIC QDOTXENTS 687
HETABOLIC RATE 77
HETABOLIC RATES 74 651
HETABOLIC TRANSFORMATION 717
METABOLISM
HETHYIMERCORY 251 353 440 481 54<l 624 673 865
HE1HYLHERC0RY CHLORIDE 674
HE1RIE0ZIN 36
HICA 223
HICRC ALGAE CULTIVATOR 332
HICRCAHALYSIS 108
HXCRCEIAL ACTIVITY 417 933
MICROBIAL AOTOLYSIS 280
520 538
72 73 74 75 77 95 HICRCEIAL DECOMPOSITION 101 102 103 170 172 173 243 366 174 188 201 220 247 254 258 341 436 465 466 467 MXCRCEIAL DEGRADATION 476 515 543 578 606 617 726 63S 651 656 686 700 726 765 777 779 780 849 853 HICRCEIAL DETOXIFICATION 957 571
HETABOLITE 266
HICRCEIOLOGY e9 895
HETABOLITES 128 410 672 970
MICR CCALORIM ETRY 371
METAL ION MICROCOSMS 752 7 8 23 68 72 74
76 166 167 191 268 298 HETALS 319 321 481 615 616 643
31 53 136 230 231 236 686 721 878 878 881 963 241 271 287 288 289 292 973 982 987 988 989 303 422 423 457 516 607 624 667 689 702 759 805 MICROECOSYSTEMS 900 991 75 131 166 312 320 922
METEOROLOGICAL EVENTS MICROFLORA 899 471
METEOROLOGY 714
HICRCtYSIMETER 770
HETHIOCHLOR 467
MICROHETAZOAN HERBIVORES 551
METHOD 338
METHODS 308 366 540 791
MICRCHOTRIENTS 267 462 919
MICROORGANISMS
576 612 876 903
22 40 61 99 199 210 METHOXY-MEHIOCHLOR 240 243 258 315 316 361
466 366 389 394 427 550 593 606 624 671 672 694 717
METHOXYCHLOR 727 750 832 915 928 933 138 453 638 765 767 782 934 936 970 1019
METHYCHLOR 465
H U G E 812
METHYL BROMIDE 593
HUGE LARVAE 114 144
METHYLATIOH 251 419 441
METHYLATION DYNAMICS 157
METHYLCOBALAMIN 419
MIGRATION 27 755
MIIK 396
186
692
250 292 661 753
1 6 3
KEYWORD INDEX
MILLIPEDES MOCEl ECOSYSTEM 987 65 77 95 118 125 164
188 210 255 320 398 425 MINE TAILINGS 465 466 467 469 470 4 OS
292 597 609 620 621 632 634 635 638 639 657 607 693
MINERAL 753 783 799 807 015 096 137 910 933 934 945 946
MINERAL BREAKDOWN 178
MINERAL CONTENT 126
MINERAL CONTENTS 30
MINERAL FERTILIZER 508
MINERAL INDICATORS 917
MINERAL OILS 765
MINERAL SOIL 763
MINERALIZATION 124 176 672 853
MINERALOGY 284
MINERALS
417 600 6 1 8 641
MINING 24
MINK 39
MITES 298
MITOCHONDRIA 262 456 635
HITSCHERLICH EXPERIMENTS 937
MIXING 312
MOBILITY
HODEI STREAMS 114 172
MODELING 274 732
277 772
297
279
542
534
962
561 580
MODIFIED DAT EQUATION 505
MOISTURE 1 856
240 943
525 944
942
566 816 0 2 9
HOISTORE CONTENT 148 902
HOISTORE GAGES 788
MOIECOIAB CONFIGORATION 97
HOIECOLAR DIFFUSION 324
MOLECULAR SIZE 953
15 26 31 67 92 96 MOIECULAR STRUCTURE 106 117 148 207 240 257 13 307 354 382 399 400 431 461 489 502 567 608 644 MOLECULAR WEIGHT 678 801 853 874 947 953 775 994 1004 1013
MOLECULAR WEIGHT DISTRIBUTION 627
MOIECOLAR WEIGHTS 743
MOLLUSCS 533
MOLLUSKS 115
MOLYBDENUM 59
464
156
715
194
716
471
749
804 MOLYBDENUM 99
59 MONITORING
562
720
593 11 151 159 198 204 272 345 356 375 376 377 378 MONITORS 403 420 509 579 595 664 136 792 794 810 880 898 919
MONO-CALCIUM PHOSPHATE MOBILIZATION 80
300 301 644 895 MONOCOTYLEDON
MOCKUP 803 753 766 985
MONODS FORMULA MODEL 500
6 8 35 49 77 86 93 180 217 237 265 278 MONTMCRILLONITE 287 312 363 461 465 521 31 351 370 545 568 569 570 586 634 640 652 680 710 711 712 MONUECN 713 722 769 807 852 883 655 731 905 931 933 996
407 559 655
MCRPHCLOGY 899
K N V T T O N N M U X
H I
HOSQOITO Hf01«)U»tU»I* 466 636 B12 9
HOSQOITOFISH S tf (624)C>a9ROECO*e 319 798 9
MOSSES 9-?SCi»0PVi ARTHRARILIC 127 B99 n
HOTtO* RARROfLARKTOR 136 212
HOUSE MAPTAKAM 466 467 636 3C9
MOVEMENT RAT8RIL RATERS 14 47 52 110 142 208 «ft SOS 393 210 221 344 345 347 359 376 406 409 409 416 421 NA10FE 494 537 546 566 565 594 6S1 614 669 680 800 825 827 829 834 858 661 683 837 MECOVCR 902 907 1007 711
6 1 9 6 9 7
HOCK 2 0 8
NEGATIVE SUSPENSION 7CB
M O O 369 662
HEMATCOBS 298
MOO CHUBS 227
HEPTURIOM 748
MODS 2 0 416
NEFTORIUH COMPOUNDS 747
MULTI-ELEMENT ANALYSIS 405
NEPTORIOM 237 747
MULTIPLE SOURCES 990
NET ANNUAL PRODUCTION 598
MULTISPECIES ECOLOGICAL SYSTEM 168
RE1V0BK ANALYSIS 607
MOMMICHOG 55
NETVCBKS E « 7
MUSCOVITE MACRO PLANES 648
NEURAL DAMAGE 100
MUSHROOMS 207
NEOTRON ACTIVATION ANALYSIS 724 826
H0SSKLS 441 459 1014
NEDTRCN DETECTION 788
MYCORRHXZA 51 372
N (006) BAY 37289 762
428 653 NEUTRONS
405
N E W S 165
N (006) CARBOPURAN 762
NICHE 609
K (006) PROPOXUR 762
NICHES 550
N (012) CHLORPENVINPHOS 762
N (012) DASANIT 762
N (012) DIPONATE 9
N(0 12) ZINOPHOS (I) 762
N (018) DYFONATE (II) 762
NICKEL 31 834
146 920
156 1017
448 723 749
NIGROSINE BLACK 965
NICBIUH 95 401
NI1GCGEN OXIDES 894
NITRATE 78 505
118 551
279 744
313 745
334 897
456
165
KEYWORD INDEX
M i T R A T E R f O O C T A S F 5 7 3
NUCLEAR MAGNETIC RESONANCE 715
N?T8ATRS NUCLEAR PROBE 7 16 186 492 092 090 788 y»9 797 779 973
NUMERICAL ANALYSIS NITRIC 0X108 217
383 NUMERICAL SOLUTION
NITRIFICATION 119 392 713 151 380 730 928
NOMERICAL SOLUTIONS NXTRILOTRIACETIC ACID 533 772
146 230 231 811 900 1016 NUTRIENT
NSTBITR 169 529 313 334
, NUTRIENT AVAILABILITY NITROGEN 98 66 176
27 80 124 151 171 175 176 207 257 279 290 295 NUTRIENT COMPOSITION 310 313 339 417 460 468 1C17 970 989 992 493 994 498 500 508 593 573 577 587 NUTRIENT CONCENTRATION 600 612 691 668 672 705 881 779 827 842 853 859 893 899 933 955 960 1001 1013 NUTRIENT CYCLING
329
589 874 HITR0G3H BALANCE
745 NITROGEN CONTENT
299
NITROGEN DIOXIDE 383
NUTRIENT LIMITING FACTOR 311
NUTRIENT RELEASE 960
NUTRIENTS 4€ 49 56 67 81 88
NITROGRS FIXATION 106 117 126 137 108 171 971 175 211 243 253 276 278
283 287 295 307 311 327 NITROGEN FLOH 334 354 427 428 489 490
930 500 502 506 508 535 556 567 585 587 591 598 600
NITROGEN RELEASE 615 629 641 676 677 679 853 687 690 719 740 702 774
810 827 840 90 3 873 874 NITROGEN 15 892 893 898 911 939 960
280 705 967 1C06
970 973 975 1004 1005
NITROGEN-FIXING 310
NITROPHENOLS 120
NITROSANIRE 40
NITROSYL RUTHENIUM 106 459
NITROSYLS 925
NOCTUID 238
NODULATION 290
NON-DARCIAN BEHAVIOR 803
NONLINEARITI 561
NUTRIENTS CIRCULATION 164
NUTRITION 26 671
137 842
257 940
366 987
424 1012
551
O METHYL-O-P-METHYLTHIOPHENYL PHOSPHOHOTHIONATE 163
O-ETHYL 0-2,4,5-TRICHLOROPHENYL ETHYLPHOSPHONOTHIOATE
360 O, O-DIBTHYL O-(3,4,5-TRICHLORO-2-PYRIDYL)
PHOSPHOROTHIOATE 360
0,0-BIETHYL S-(ETHYLTHIO)HETHYI PHOSPHORODITHIOATE 299
OAK
NTA 146 912
230 231 331 811 900
810
OAK TREES 986
OAT PLANTS 189
NUCLEAR EXPLOSIONS 84
OATS 27 34 357 449 755 838
166
KEYWORD INDEX
OATS-M 183 395
ORGANIC PHOSPHOROUS COLLOID 597
OBTAINED 542
ORGANIC REMOVAL 377
OCEAN 391
ORGANIC SOLUTES 1C02
OCEANOGRAPHY 788 847
ORGANIC STORAGE 615
OHLE ANOMALIES 171
ORGANIC SYSTEMIC INSECTICIDES 299
OIL REFINERY EFFLUENTS 972
ORGANICS 2C8 279 959
OIL HASTES 690
ORGANISMS 790 1019
OILS 153 690
ORGANC MERCURIALS 199
OLD FIELD ECOSYSTEM 269 589 845
ORGANC-HETALLICS 820 821 823
OLD FIELD ECOSYSTEMS 684
OLEANDER-D 218
OLEFIN 613
ONIONS 46 372
OPEN-TOP FIELD CHAMBER 373
ORE ANALYSIS 601
ORGAN 103
ORGANIC 14 15 19 275 346 446
ORGANIC ACID ESTERS 149
ORGANIC CARBON 888
ORGANIC CHEMICALS 371
ORGANIC COMPOUNDS 389 596
ORGANIC MATTER 13 129 535 604 953 958
113 819
155 8 6 1
234 970
775
305 758
818
376 782
848
393 809
525 850
ORGANIC MATTER CONTENT 299 571
ORGANIC HEDIOH 601
ORGANIC NITROGEN 668
CRGANIC NUTRIENTS 500
CRGANIC PESTICIDES 5
ORGANCCHLORINE 14 18 20 513 634 638 727 737
138 696
149 697
474 698
ORGA NCCHLORINE INSECTICIDES 160 387 453 651
ORGAHCCRLORINB PESTICIDES 698
ORGANCMERCURIALS 6 c 6
ORGANCPHOSPHATE 662
ORGANCEHOSPHATE INSECTICIDE 845
ORGANCPHOSPHATE INSECTICIDES 565
ORGANOPHOSPHOROUS 328
ORGAKCEHOSPHORUS 409 634 809 839
ORGANCPHOSPHORUS COMPOUNDS 370
ORGANCPHOSPHORUS INSECTICIDES 9 337 420
ORTHIC BLACK AH 219
ORTHC PHOSPHATE 456
ORTHC-PHOSPHATE 152
ORTHOGONAL EXPANSIONS 833
ORTHCEHOSPHATE 7
ORTHCSILICATE 334
ORYZAIIN £09
OSMOTEOPHS 168
167
KEYWORD INDEX
OSTRACOD 475
PARTICLES 195 459 503 974 983 985
OUTCROP COHHONITIES 736
PARTICULATE SOLIDS 753
OXALATE 456
PARTICULATES 969
OXALATES 747
PARTITION COEFFICIENTS 31 232 1018
OXICATION 385
PARTITIONS NATHEHATICS 31
OXIDANT EXCLUSION 592
PASTURE 33
OXIDANTS 592
PASTURES 16
OXIDASE 804
PATH CF POLLUTANTS 765
OXIDATION-REDUCTION POTENTIALS 699
PATHWAYS 466
OXYGEN 75 48 3 6 1 2 622 672 894
PCE 651 654 812
OXYGEN CONSOHPTION 352
PCE TCBD 634
OXYGEN CORVES 956
PCCH 159
OXYGEN DIFFUSION 615
PCNB 501
OXYGEN TENSION 75
PCTPIT COHPUTEB PROGRAH = 91
OYSTERS 115
OZONE 179
226
373
227
383
481 716 PEA
202
PEANUT-D 70
P,P'-DDT 213
PEAT 324 525 655 808
PARACHUTE DROGUE 483
PEAT EOGS 808
PARAFFIN 613
PECLET NUHBERS 44 :
PARAQUAT 129 130 198 371 487 827
PECOCBEHICAL WEATHERING 178
PARAQUAT HERBICIDE 594
PEDOGENIC PROCESS 178
PARATHION 1 8 1 238 564 809 839
PENTACHLORONITROBENZENE 501
PARATHION-S(35) 640
PESTAEYDRATE 885
PARCEL STRUCTURE 810
PARROTFBATHER-D 885
PARTICLE DIFFUSION 129
PARTICLE SIZE 148 153 782 969
542 983
660 725 727
PARTICLE SIZE DISTRIBUTION 993
PEECCIATION 54 81 537 566 906
PEBICEICITY 30
PEBIBBYTON 164 191
PEEHEABILITY 217 343 950 954
107 690
2 2 1 757
244 795
326 855
312
456
478
630
1003
831 923
168
KEYWORD INDEX
PEROXIDASE 98 99
PEROXYACETYL NITRATE 383
PERSISTANCE 21
PERSISTENCE 2 4 9 29 138 169 212 224 249 337 355 359 380 408 411 476 481 512 515 541 571 688 738 762 765 765 797 825 877 928 998 1000
PESTICIDE DEGRADATION 22
PESTICIDE HOBILITY 379
PESTICIDE RESIDUES 688 696 765
PESTICIDE TOXICITY 688
PESTICIDES 2 3 5 13 14 22 39 47 64 120 144 149 159 160 181 184 246 247 249 256 266 276 277 330 333 3 44 346 375 378 398 399 400 402 403 410 420 426 454 455 465 473 474 479 486 488 511 512 513 513 519 541 546 557 564 582 583 589 595 633 638 639 640 664 667 673 680 688 695 696 697 724 727 733 738 765 782 827 849 872 879 940 953 958 959 959 1014
PETROLEUM 141
PH 19 51 54 75 80 105 166 183 192 207 219 227 236 287 288 289 291 341 385 430 448 470 482 535 536 540 619 650 659 702 705 708 761 775 808 827 864 957 992 994 1004
PHABOPHYTIN 1010
PHAGOTROPHS 168
PHAR HACODYNAHICS 520
PHASEOLUS 220
PHENOLS 775
PHENOXY GROWTH REGULATORS 209
PHENOXYACETIC ACID 249
PHENYLNERCURIC ACETATE 606
PHENYIHERCDRY 254 441 992
PHCSAIONE 936
PHCSDRIN 259
PHCSFBATE 132 133 171 257 313 416 547 560 643 662 699 739 741 744 761 844 931 964 976
PHOSPHATE DISTRIBUTION 851
PHOSPHITE FERTILIZER 540
PHOSPHATES 7 27 81 91 314 392 406 49 3 579 653 700 817 858 973
PHCSEHONATE 163
PHOSPHORATE INSECTICIDE 163
PBCSEHONOTHIOATE 762
PHOSPBONOTHIONATE 763
P H C S E HOROTHIATE 763
PHCSEHOROTHIOATE 762
PHCSEHORUS 45 50 51 66 80 81 89 149 162 164 171 175 263 282 334 361 365 368 369 372 414 424 431 445 446 463 468 470 483 484 500 508 523 536 590 600 612 614 653 665 685 744 786 787 796 827 840 851 885 952 960 961 963 977 978
PHCSPHORUS CYCLE 164
PBCSPHORUS 31 152
PHCSEHORUS 32 46 150 152 192 293 523 564 684 685 699 700 720 832 949 966
PHOTO NUCLEOPHILIC REACTIONS 184
PHCTCASSIHILATIOR 389
PHOTOAUTOTROPHIC BACTERIA 389
PHOTON BEAHS 982
PHCTCEERIOD 75 77 163
PHENYLHBSCURIC SALTS 992
169
KEYWORD INDEX
PHOTOSYNTHESIS PINE TBEES 74 77 83 166 172 173 986 312 320 341 389 612 615 616 622 687 693 720 956 PIRE-G 96 5 345 641
PHOTOSYNTHESIS-RESPIRATION CRABBER 621
PIREAI GLANDS 635
PHOTOSYNTHETIC BACTERIA 389
PINTO BBAN 592
PHTHALATE ESTERS 630
PLAINJIELD SAND S64
PHTHALATES 813
PLAINS €61
PHTHALIC ACID ESTERS PLANKTON 611 59 164 180 188 192 250
283 312 409 519 547 599 PHYROLYSIS 616 720 781 832 849 • 897
120 949 1002 1008 PHYSICAL CHARACTERISTICS
366 PLANKTON ECOLOGY
881
PHYSICAL PROPERTIES 30 47
PLANT COVER 2 57
PHYSICAL REACTIONS 959
PLANT GROWTH 373
PHYSICOCHEMICAL INTERACTIONS 129 130
PLANT INJ5JRY 373
PHYSIOLOGICAL ECOLOGY 622
PLANT NUTRITION 702
PHYSIOLOGY PLANT PATHOGENS 514 995 592
PHYTOPLANKTON PLANT OPTARE 55 85 180 192 239 312 383 321 334 369 409 481 483 519 585 612 720 727 744 PLANTS 761 780 849 961 1010 21 23 24 27 33 46
56 70 105 126 127 138 PHYTOTOXICITY 139 145 158 163 172 173
357 380 451 845 997 998 177 178 179 189 194 196 999 197 202 209 212 218 220
233 250 253 254 272 277 PHYTOTRON 279 283 309 336 337 349
257 354 359 369 372 373 382 383 390 397 412 -413 430
EHYTOTRONS 431 451 458 462 466' 473 514 474 477 490 495 506 508
512 527 528 536 558 567 PICLORAM 571 577 589 591 592 645
249 376 412 814 928 649 653 663 684 692 702 730 747 748 748 755 , 756
PICLORAM AMINOTRICHLOROPICOLINATE 774 777 792 794 795 797 408 8C4 835 839 842 843 843
083 884 886 903 909 910 PIEDMONT HATERSHEDS 911 918 931 933 936 937
566 939 940 947 948 966 967 975 983 984 987 997 999
PIEZOMETERS 954
PIGMENTS 622
993
PIKE 349
PINE 51 327 502 960 1006 1013
PINE FORESTS 975
PINE G 21
PLANTS MATHEMATICAL HODEL 1007
PLASTIC BAGS 930
PLBSTICIZEB 635
PLASTICIZEBS 611
PIEISTOCENE 90
PLOTCNIOM 272 272 718 748 797
170
KEYWORD INDEX
PIUTONIUH COMPOUNDS 747
PLUTONIUM ISOTOPES 790
PLUTONIUM 239 747
PLUTONIUH-238 189
BODZOLIC SOILS 248
POINT SOURCES 728
POLAROGBAPHY 702 822
POLLUTANT CARRIER 691
POLL0TANT DISTRIBUTION 990
POLLOTION 24 557
POLLOTION DETECTION 591
POLLOTION EFFECTS 938
POLONIUM 21f 37 38
POLY VINYL CHLORIDE 120
POLYATOMIC MOLECULES 121
POLYAXENIC MICROCOSM 671
POLYCHLORINATED BIP.HENYLS 654 812
POLYCHLORINATED.HYDROCARBONS 515
POLYCHLORIHATED TRIPHENYL 631
POLYELECTROLYTES 9 5 9
POLYETHYLENE FILM 311
oPOLYETHYLENE TRAP 1001 ?
FOLYMEFIZATION
PCjYMERS 120
POLYPERTIDE 668
POLYSTYRENE PARTICLES 145
POLYSTYRENE RESIN 129 133
POLYTRON 452
POIYXENIC ECOSYSTEMS 896
POBDEBOSA PINE 960
PONDS .123 131 414 687 936 961
PODTACYL BRILLIANT PINK 218
POPLAR STAND 597
POELASS 563
POPULATION DYNAMICS 258 610
POEUIATIONS 258 622
POEE VELOCITIES £34
POEOSITY 161 630 788
POROUS MEDIA 242 951
POROUS MEDIUM 119 568 569 570 816
POBOUS MEDIUMS 44 561 923 950
POSTI8RVAL FISH c e
POTAMCGETON 2C9
POTA SSIUM 48 281 585 892 989
89 329 629 895 1013
123 335 676 897
175 430 708 955
183 508 776 960
220 536 841 979
POTASSIUM FIXATION 109
POTASSIUM MSNGANATES 965
POTASSIUM NITRATE 80 91 -
POTASSIUM NITRATES 7C5
POTASSIUM SULFATE 112
POTASSIUM 40 401
POTASSIUM 42 220 974
POTATO 603
PCTATC-D 183 825 872
POTENTIAL EQUATIONS 669
POTENTIAL FLOW 833
171
KEYWORD INDEX
POTENTIAL GRADIENT 950
POTENTIOMETRIC 5 9 1
POWER REACTORS 753
PPCH 160
PRECIPITATION 249 532 592 706
PRECIPITATION CHEMISTRY 667
PREDATION 165 671 786
PREDATOR 807
PREDATOR DENSITY 114
PRESSDRE 482 561 580 710
PRESSURES 216
PREY 807
PRIMARY BIOLOGICAL PRODUCTIVITY 727
PRIMARY PRODUCTION 612 621 922
PRIMARY PRODUCTIVITY 485 683 685 720
PRIMATES 1 8 1
PROCESS 769
PRODUCER 686
PRODUCERS 168 170 671
PRODUCTION 75 239 352 602 612 617 685 719 761 973 987
PRODUCTION-RESPIRATION RATIO 75
PRODUCTION/BIOMASS RATIOS 973
PRODUCTION/CHLOROPHYLL RATIOS 973
PRODUCTIVITY 43 131 258 319 367 485 585 615 693
PRODUCTS 184
PROVILE METHOD 950
PROHETHIUM-147 189
PROMETRYNE 10 571 655 854
PROTEIN 612
PRCTEINS 543 1008
PROTON ACCELERATORS 96
PRCTC20A 118 551 805
PSAMECPHYTE 903
•PSEUDCGLEY SOILS 880"
PSEUtOPODZOLIC SOILS 506
PUBLIC HEALTH 189 765
PURPING COSTS 586
PUMPING TEST ANALYSIS 732
PURIFICATION 530
PUBPIE GRACKLES 798
PYBETBRUM 765
PYRIDINES 594
PYROECIYNERS 120
QUAHCGS 481
QUANTITATIVE ANALYSIS 401
QUANTITATIVE CHEHICAL ANALYSIS 405 647
QUANTITATIVE ECOLOGY 252
QUANTITY INTENSITY TECHNIQUE 556
if
QUANTITY RATIO 7.50
QUARTZ 755
QUINONE GROUPS 759!
RAEBIT 635
RADIATION 766
RADIATION DOSES 84 197 725
RADIATION EFFECTS 196
RAEIC-ION 437
172
KEYWORD INDEX
RADIO-LABELING 213
HAEICSCULIDES 564
RADIOACTIVE CONTAMINANTS 690
RADIONUCLIDE KINETICS 27 272 7<47
RADIOACTIVE EFFLUENTS RADIONUCLIDE ! MIGRATION 901 71 27 2 530 555 659 692
716 725 734 747 748 808 RADIOACTIVE ELEMENTS
472 RADIONUCLIDES 27 35 79 84 101 102
RADIOACTIVE GOLD 1C3 123 195 226 229 233 226 250 272 281 293 309 339
459 633 647 724 753 754 RADIOACTIVE ISOTOPE 793 795 808 909 927 941
540 949 974 987
RADIOACTIVE IS0T0P2S 188 189 790
RACICSULIDES 96
RADIOACTIVE LABELING 941
RAIICEHOSPHOBUS 369 614 963
RADIOACTIVE TRACERS 630
RAOICPHOSPHORUS METABOLISM 361
RADIOACTIVE WASTE DISPOSAL 71 692 747
RACICSCANNING 247
RADIOACTIVE WASTE WATERS 459
RARICSTRONTIUM 7C4
RADIOACTIVE WASTES 716 753
RAtlOTOXICITY 9C9
RADIOACTIVITY 101 123 225 242 309 349 424 602 716 725 769 795
RADIOACTIVITY TRANSPORT 172
KADIOASSAY 724
RADIOBIOLOGY 720
RADIOCHRHISTY 414
RAD3 CCH ROMOTOGR APHT 210
RADISH 451
RADISH-D 531
RACIOR 647
RACIUn 228 647
RAIN 343 863
373 989
RAIN SIMULATION 158
665 679 835 845
RADIOECOLOGICAL CONCENTRATION 716 725
RADIOECOLOGY 42 71 991
RADIOELEH ENTS 418
RADIOISOTOPES 71 84 424 455 720 832
748
692
203 517 971
716 739 764
235 526 991
320 576 1008
401 707
RAINECR TROUT 25 520
RAINFALL 240 343
RAINWATER 734
RANGE PLANTS 756
RAPICS ENVIRONENST 297
578
722
611
833 839
RADIOLARIANS 447
RASSCW-SCHOLTZKY EQUATION 12
RADIOLOGICAL CONTAMINATION 797
RA7 199 635
RADIOMETRIC ANALYSIS 747
RAT LIVER 456
RADIOMETRIC GAGES 788
RATES 225
RADIONUCLIDE MIGRATION 751
RATIO 895
173
KEYWORD INDEX
RATS 673 671
REACTIONS 1000
REACTORS 949
REARING 783
RECHARGE 242 279 545
RECLAMATION 1 259
RECOVERY 427 1001
RECYCLING 17 512
R£D CLOVER-D 158
RED KIDNEY BEAN 38
RED-EARED TURTLES 798
REDPIN PICKEREL 798
REDOX POTENTIALS 171
REDUCTION 61 82 83
REDUNDANCY 972
REFUSE DISPOSAL 287 288 289
REGENERATION 210 334 744
REGIONAL PLAINS 6 6 1
REGULATION 170 841
RELATIVE HUMIDITY 373 838
RELEASE 172 366 445 828 1016
RELEASE PROCESSES 395
RELEASE RATES 447
REM!NEBALIZATION 334
REM0EILI2ATI0N 90
REPLENISHMENT 312
REPRODUCTION 122 136 197
REPRODUCTIVE GROWTH 577
446 447 811
813 869
tteERODOCTIVB SYSTEM 1014
REQUIREMENTS 374
RESEAECI 2
RESERVOIRS 180 331 789
RESIDENCE TIME 121
RESIDUE ANALYSIS 338
RESIDUE FORMATION 99
RESIDUES 64 138 159 256 386 410 455 553 582 696 698 762 877 936 996
RESIN EXCHANGE METHOD 155
RESISTANCE 572
RESPIRATION 75 77 83 173 179 312 610 615 617 869 922 965
BESPIBONETEB CHAMBER 622
RESPCRSE 879
RETENTION 54 105 145 349 501 520 5e8 701 725 927 983 984
RETORR PLOW 249 906
REVIEW 14 26 87 157 272 346 460 479 488 644 677 682 868 869 870 924 947 953
REVIEWS 748
RP 379
RHENIUM 894
RHESUS MONKEY 181
RHIZOSPHERE 56 337 071
RHCDAEINE RT 2 1 8
PICE 840
213 240 249 420 426 454 631 663 660 782 825 825 998
114 166 172 320 456 529 622 672 687 973
195 281 340 534 579 575 782 836 899 985 986
116 128 138 362 393 39« 490 515 624 689 733 771 876 884 918 991
940
KEYWORD INDEX
RICE-H 931
S- (P-CHLOROPHEHYL) 0-ETHYL ETHYLPHOSPHONODITHIOATE 360
RICHNESS 623
S-ETHYL DIPROPYLTHIOCARBAMIDE 609
RIVERS SALINE SOIL COLOHNS 31 53 182 193 205 256 259 729 259 309 364 472 517 521 I
530 538 605 647 647 659 SALINITY 693 715 732 735 753 775 16 227 622 658 659 687 808 835 916 969 761 847 855 902 940 1003
ROACH 349
SAIIHITY STRESS 932
ROCKS 608 661 778 808
SAIPS 447
R060R 508
S AIT 142
ROOT EXUDATION' 215
SALT BALANCE 76
ROOT STOCK GRASS-M 106
SAIT CONCENTRATION 853
ROOT SYSTEMS 527
SAIT CONCENTRATION PROFILES 112
ROOT HBENCHING 975
SAIT IISPLACEHENT 161
ROOTS
ROTHMUND KORNFELD ISOTHERM EQUATIONS 130
ROTTING 89
RODTES 22S
RUBIDIUM" 261 262 590
SALT BARSH 27 46 49 56 215 218 548 549 550 220 290 322 335 372 430 449 458 473 528 563 590 SALT MARSH CATERPILLAR 649 653 663 670 677 704 466 831 843 885 957
551
SAIT MARSHES 765
SAIT SEPARATION 142
SALT-RATER 5 S
SALTS 69 646
334 902
347 913
505 608 747
RUBIDIOH CHLORIDE 262
RUBIDIOH 86 195
RUNOFF 139 343 722
RUTABAGAS 763
RUTHENIUM 69
984
149 344 792
530 RUTHENIUM 103
293 RUTHENIUM 106
401 692
196 344 793
925
971
249 276 665 667 794 827
277 690 839
SAITUATBR 8 239
43 744
93 781
101 170 171
SAKFIE PREPARATION 747
SAMPLES 92
SAMPtING 256 276 738
SAKPIING FREQUENCY 576
SAMPLING TECHNIQUES 794
SAND 1008
196 903
299 955
459 481 525 595
RYE 358 360
SAND CONES 290
RYE GRASS-H 158
SAKDS 803
RYEGRASS 592
SANDSTONE 630
175
KEYWORD INDEX
SANDY LOAM 215 664
SEDIMENTS
SANDY SOILS 563 888
SANITARY LANDEILL 772
SANITARY LANDFILLS 28 244 690 824
287 288 289 499
SATORATION 176
SATORATION CONSTANT 926
SCALLOPS 225 227
SCANDIUM 405
SCANDIUM 46 96 401
SCANNING ELECTRON MICROSCOPY 298
SCHRADAN 299
SCUD 812
SCUDS 6 1 1
SCULPIN 144
SEA
SEASONAL VAR IATIONS 293
SEASONAL VARIATION S 1008
SEASONAL VARIATIONS 298 367 424 620 762 770 1003
SEASONALITY 175
SEASONS 45
SEAWATER 925 982
SEAWEEDS 340 746
SEDIMENT EXCHANGE 695
SEDIMENT WATER CONTENT 788
469 949
503 961
577 969
18 20 31 41 53 90 92 139 149 153 172 178 182 187 205 216 227 234 235 250 251 271 282 ' 284 300 301 324 331 349 352 365 369 400 401 404 416 418 429 437 439 440 441 457 480 481 510 521 526 530 538 539 553 555 557 560 605 624 646 647 659 692 694 695 696 699 700 703 717 733 735 741 742 754 759 760 788 789 811 827 844 865 882 089 898 900 908 916 920 929 976 977 978 981 982 991 1016
SEEDLINGS 529
SEEDS 197
SEEPAGE 2 1 6
975
511
833
830
855
SELECTIVE CHELATION RESIN 544
SEIECTIVE DISSOLUTION 773
SEIECTIVITY 749
SELECTIVITY COEFFICIENTS 559
SELENIUM 156
SELENIUM 75 716
405 689
788 832 SEMICCNTINUOOS CULTURE
WATER 500 41 71 84 85 140 235 236 334 348 429 444 445 SENSOE 464 482 483 516 526 647 134 659 683 685 749 761 781 790 826 847 882 952 SEPARATION FACTOR
533
SEPHACEX 627 743
SEFHAtEX COLUMNS 3C5
SEPTIC TANKS 107
SEKPEHTINE 539
SERUM 1 C 8
SESTOR 786
SEVIB 426 872
SEWAGE 7 40 726 757
SEWAGE DISPOSAL 757
283 990
1017
468 497 70C
SEDIMENTATION 149 591 728
SEWAGE EFFLDENT 468
176
KEYWORD INDEX
SEWAGE IRRIGATION 690
SEWAGE OXIDATION PONDS 922
SEWAGE SLUDGE 439
SEWAGE TRATHENT EFFLUENT 690
SEWAGE TREATMENT 968
SHADE 641
SHADING 290
SHALLOW SEA 180
SHEEP DIP 020
SHELL 871
SHELLFISH 225 266
SHINERS 136
SHOOT ZONE UPTAKE 670
SHOOTS 458
SHORT-TERM EFFECTS 266
SHREWS 269
481 1014
SHRIMP 55
SILICA GEL 351
SILICATE 313
SILICIUH 313
SILT 208
SILT LOAM 328
SILTS 309
SILVER 143
SILVER 110 659
SINAZINE 325
481
575
233 459
793
464 803
156 271
588 731
788
969
405
828
791
715
838
778
SIMULATED FALLOUT PARTICLES 984
SIBUIATION 44 749
197 783
217 922
652 682 722
SIHUIATION MODEL 2 e s
SIBUIATORS 725
SINGUIAR PERTUREATION TECHNIQUE 711
SITKA SPRUCE-G 641
SKELETON 101
SLCPIRG LAND 833
SLCT7ED TUBE TEST 537
SIODGES 153 400
SLORSY 395
SMELTERS 127
SMCKE 940
SNAIIS 254 281 767 871
SNAKES 798
SOEIC RECLAMATION 864
SOtlCITY 1C9
588
349 925
425 987
466 478
SODIUM 51 534
89 585
123 708
183 864
281 897
532
SIMAZINE METABOLISM 838
SODIUM CHLORIDE 36 593
SODIUM HUMATE 958
SOLIUM IODIDE 543
SODIUM NITRI'LOTRIACETATE 912
SODIUM 22 96
SODIUM 24 974
SOIL ACIDITY 7 30
SOIL AGGREGATES 9C6
SIMULATED ENVIRONMENTS 965
SOIL EACTEJtIA
177
KEYWORD INDEX
SOIL BEDDING 833
SOIL CHEMISTRY 81 149 667 690
SOIL COLOHNS 243 259 595 729
SOIL COMPARTMENTS 215
SOIL CONTAHINATION 845
SOIL CONTENT 240
SOIL PACJNA 597
230 827
347 776
231 906
356 802
461
534
594
594
SOIL STUDIES 395
SOIL TESTING 46
SOIL TEXTURE 729
SOIL TRANSFORHATIONS 3 66
SOIL TREATMENTS 360
SOIL RATER 94 343 8C3
134 460 872
218 669 906
SCIL-5COT INTERFACE 80
245 690 951
279 728 1007
294 800
SOIL FERTILITY 56
SOIL-RATER 709
SOIL FORMATION 702
SOIL FRACTIONS 417
SOIL HORIZONS 81
SOIL INCUBATION STDDY 463
SOIL INVERTEBRATES 214
SOIL LAYl'RS 558
SOIL MICRO PLOT 359
SOIL MICROARTHROPOD 589
SOIL MICROFLORA 337
SOIL HOT STORE 106 300 385 421 791 842 923 950
SOIL PARTICLES 782
SOIL PH 183
SOIL POLLUTION 22
SOIL PROFILE 513 669
SOIL PROFILES 81 230 660 745
SOIL PROPERTIES 54 81 463 594
SOIL SEPARATES 248
SOIL SOLUTION MOVEMENT 913
SOIL STERILANT HERBICIDES 594
SOILS
561 629
1 9 10 11 14 16 17 18 21 22 24 27 29 30 34 36 40 46 47 48 49 51 52 54 56 60 61 63 64 67 70 80 81 86 87 94 96 98 106 107 109 113 117 124 126 127 130 134 137 138 139 142 148 150 151 152 155 159 160 161 175 176 178 183 189 194 196 198 199 208 211 215 219 221 222 223 224 229 230 240 242 244 248 259 264 267 272 273 275 278 280 285 291 294 295 299 302 307 308 325 326 327 329 333 335 336 337 338 343 346 347 355 356 357 359 366 370 371 372 375 376 377 378 379 380 382 365 387 390 392 395 397 402 40 3 406 407 408 411 417 420 420 421 426 432 433 436 448 449 451 452 460 461 462 463 468 470 474 476 487 492 493 494 5C2 506 507 509 511 513 524 525 531 532 535 536 537 540 554 556 559 561 563 564 565 567 573 576 579 590 594 595 600 608 628 629 641 644 645 650 653 655 656 660 661 665 667 67 0 672 675 676 677 692 698 702 704 705 706 709 710 711 712 713 714 725 728 729 730 731 . 734 738 747 748 751 755 759 762 763 769 770 770 773 776 777 778 784 788 792 7S3 794 796 797 802 803 804 806 80 8 809 810 817 818 819 822 829 831 834 836 837 842 845 846 850 851 853 856 858 859 861 864 866 867 872 874 975 e77 880 883 888 892 i>9a 902 903 906 907 909 911 913 919 923 924 928 933 937 939 940 941 942 943 944 947 948 950 953 955 960 967 975 994 997 998 999 1000 1004 1005 1006 1007 1011
SOIID INTERPHASES 8 37
178
KEYWORD INDEX
SOLID WASTE 156
SPLEEN 635
SOLID WASTE DISPOSAL ? 22 244 287
690 SOLONCHAK
903 SOLUBILITY
13 236 240 613 624 678 953
288 289 4 9 9
161 759
482 801
574 900
SPCII 499
SPCBTS 171
SPRING 424
SPRINGS 599 971
SOLUBILIZATION 331
SPRUCE 477 600 863
SOLUBLE SALTS 608 729
SPBUCE-G 345
SOLUTES 112 1015
SPRUCES 307
SOLVENT EFFECT 524
STABIIITY 168 422 518 609 801 807
SONG THRUSHES 436
STABIIITY CONSTANTS 155
SOBGHUH 670
STABLE ISOTOPES 464 464
SORPTION, STAGE HYDROGRAPH 19 104 < 229 230 234 263 732
: 291 '•'• ; 392 ' 398 400 406 432 437 522 537 552 568 569 STALKS
;•>'* 570 : 602 642 754 811 844 2C7 ! 856 • 876 921 STANDARDS
SORPTION CAPACITY; 71 ~;v 522 STANC1NG CROP SOURCES 312
230 231 499 847 STANDING WATER
SOYBEAN ' ' < 956 831
STARCB SOYBEANS 6C3
63 64 649 663 83 0 985 STARLINGS
SPACE TRAVEL 798 72 317
STATIC SPECIES COMPOSITION 426
654 STATIC MONITORING
SPECIES EIFFERENCES 592 * 730
STATISTICAL ANALYSIS SPECIES DIVERSITY 8C7
171 173 478 620 623 972 STATISTICS
SPECIFIC SURFACE 660 738 773
STAUEEER N-2596 SPECIFIC-ION ELECTRODES
,994 SPECTSOCBEKCAL ANALYSIS
624 SPECTROMETRY
539 SPECTROSCOPIC ANALYSIS
384 SPHAGNUM , 324
SPHERICAL CAVITIES 712
360 STEADY STATE
598 STEACY STATE ANALYSIS
245 STEADY-STATE
151 STEMF10W
587 ST'HRIIIZANTS
975
179
KEYWORD INDEX
STONE FLY 542
SUBSTEATE 265
STONEFLIES 1 1 0
SUESOEFACE DRAINAGE 244 237 288 289 499 690
STONEPLY 812
STORAGE COEFFICIENT 586
STRATIFICATION 312
STRAW 207
STREAH COMMUNITY 719
STREAM ECOLOGY 946
STREAH ECOSYSTEM 50
STREAH FLCW 968
STREAH ORGANISMS 542
STREAMS 190 617
STRESS 125
STRESSES 991
STRONTIUM 27 555 969
255 619
842
232 599
STRONTIUM 85 123 145 418 720
STRONTIUM 88 27
STRONTIUM 89 27 293
342 686
932
309 618
229 753
437 723
498 945
502
405 701
273 754
456 764
281
530 802
309
STRONTIUM 90 808
720
SURFACE WATERS
STRONTIUM 90 6 21 27 599 720 734 751 766
SUETHCEICS 66
SUCCESSION 166 168 845 956
SUGARS 413
SULFATE 585
SULFATES 493 885
SULF1IE 926
SUIFIEE TOLERANCE 956
290 973
315 320 681
SOIFOR 424 926
470
692 910
701 1008
SULFUR DIOXIDE 179 383
SOIFUR 35 210 640
SUMMIIOL 249
SUNFISH 767
SUNLIGHT 373
SUPERSATURATION 7C8
SURFACE €48
SURFACE AIR 503
SURFACE CHEMISTRY 121
SURFACE DRAINAGE 690 827
SURFACE FILMS 717
503
562
590 706 911
STRONTIUM-89 103
SURFACE FLOW 722
STRUCTURE 466 995 1003
STRUCTURE ACTIVITY CORRELATIONS 466
SURFACE LAYER 920
SURFACE SOURCES 728
SUBLETHAL DOSAGE 1010
SUBLETHAL EFFECTS 869
SUBSOILS 462
SUBSTANCE 1012
667
SURFACE TENSION 8 1 4
SUEFACE VOLUME RATIO 341
SURFACE WATER 199 277 343 e27 835 839
652 690 737
180
KEYWOHD INDEX
SURFACE WATERS TEMPEBATURE 734 23 25 54 69 73 82
105 129 148 163 174 174 SURFACES 193 220 227 240 257 261
121 914 974 985 308 341 37 3 447 482 510 ' { 542 592 612 619 622 683
SURFACTANTS 699 761 838 854 962 989 54 318 377 509 814 992 1003 1012
SURVIVAL TENPFBATURE EFFECTS 122 : 766 975 154
SURVIVAL TIKE TEHPEBATUBE STRESS 766 932
SUSPENDED MATERIAL 900
TEBSICNBTER 264
SUSPENDED HATTER 104
TENSICMETERS 880
SOSPENDED SEDIMENTS 31 727
TERATOGEN 635
SOSPENDED SOLID PARTICLES 235
TERBACIL 595
SUSPENDED SOLIDS 228
TEEBUTRYNE 588
SUSPENSION EFFECT 708
TERRESTRIAL ANIMAL SYSTEMS 466
SWANPS 765
SWEDES-D 183
SWEET CORN-M 329
SWELLING 456
SYNERGISM 415
SYNTHETHIC ORGANIC MOLECULES 249
SYNTHETIC MICROCOSM 671
SYSTEMIC HERBICIDES 594
SYSTEMIC INSECTICIDES 413
SYSTEMS ANALYSIS 363
TADPOLES 281
TAILING 534
TAP HATER 135
TAR 4 4 4
TARAPUR-1 REACTOR 716
TECHNIQUES 692 707
TERRESTRIAL ECOSYSTEMS 23 196 215 506 511 597 784 845 860
TERRESTRIAL HICROCCSSS 721 988
TESTING 197 572
TESTS 257 267 911
T HALL IBM. 689
THAWING 148
THEOREM 728
THEORETICAL CALCULATIONS 534
THEOBETICAL MODEL 534
THEORETICAL SOLUTION 833
THEOBETICAL SOLUTIONS 119
THEORY 517 561 791
THERMAL ATOHIZATION 778
THERMAL DIFFUSION 142
THERMAL NEUTRONS 788
THERRAL PROFILE 1 1 0
290 600 880
295 736 899
421 748 987
THERMAL PROPERTIES 768
181
KEYNORD INDEX
THERMISTOR 311
TITRATION 650
THERHOCLINE 311
TOADFISH 226
THERMOCOUPLE PSYCHR0METER5 245
TOEACCO 353 573 592
THERMODYNAMICS 121 883
THERMOLABILITY 838
s24 TOEACCO INJURY
179 TOEACCO PLANTS
37 373 THESES
81 TOEACCO-D
471 THIAMIN
320 TOIUIEINES
356 THIAMINE
551 TCHATC
872 1HIMET
299 TCHATOES
253 THIN LAYER CHROMATOGRAPHY
247 376 377 379 420 727 TOETUOSITY
9 43 944 THIN-LAYER CHROMATOGRAPHY
375 TOTAL EXCHANGEABLE CALCIUM
219 THORIUM
647 TOURISM
171 THORIUM 228 TOXAPHENE
647 6 38 664 839 887 929 THORIUM 232 TOXIC EFFECTS
647 169 THORIUM 234 TOXICITY
526 95 100 143 171 200 350 374 415 431 611 624 662
THROUGHFALL 689 731 76 2 765 798 812 587 813 834 86 8 869 870 879
8S7 939 1019 THUNDERSTORMS
34 3 TOXICITY LIMIT 846
TIDES 217 TOXICOLOGY
3 136 360 374 TILF DRAINS
906 TRACE ELEMENTS 26 31 33 41 136 156
TIME 187 188 194 204 228 275 129 327 332 382 390 391 405
462 464 471 181 482 539 TIME DEPENDENCE 554 567 591 60 2 604 624
197 705 725 748 983 985 644 645 646 660 661 667 678 771 778 804 826 847
TIMOTHY-H aen 900 903 919 991 1011 536
TIN 156 1017
TRJCEE STUDIES 2 30
TRACEF TECHNIQUES TIN 113 735
716 TRfCERS
TISSUE 149 161 162 196 210 213 103 214 226 231 242 250 269
285 30 3 455 495 517 524 TISSUE UPTAKE 564 565 614 618 626 653
1014 684 685 692 700 705 724 777 787 862 882 909 927
TISSUES 934 941 952 963 966 974 707
TITANIUM 156
7U9
920 TRACERS UPTAKE
27 TRAI2INE
14
182
KEYWORD INDEX
TRANSFER TRIAZINE 144 396 491 971 989 249
TRANSFER PATHWAYS TBIA21NE ACIDS 837 921
TRANSFER RATES TRIFIURALIN 989 1 • 839 857
TRANSPERBAL TRIFUBALIN 941 509
TRANSFORMATION TRITHION 97 98 184 252 254 336 420 441 574 581 605 673 991
,'j TRITIUM TRANSIENT FLOW DATA 96 285 324 593 633
923 ,. 878 TRANSLOCATION TROPHIC DYNAMICS
45 50 ! 138 163 178 202 550 218 220 253 413 458 495 531 605 663 670 69 8 724 TROPHIC LEVELS 838 854 884 948 55 367 519 610 682
TRANSMISSION , TRCPHIC RELATIONSHIPS 545 e45
TRANSMISSIVITY TRCPHCDYNAMIC STUDIES 586 8
TRANSPIRATION TRCPICS 78 270 295 324 800 838 175 492 493 494 773 939
TRCOt TRANSPIRATION TEMPERATURE 50 114
649 > . ' • - - TRYPTCN
TRANSPORT 766 11 38 52 54 56 84 86 96 106 111 112 128 TUBIEICID SEDIMENT 133 138 139 142 150 151 441 152 159 186 215 218 224 228. 230 '244 245 249 276 TOEIFICID WORMS 277 278 281 285 29 2 308 144 662 309 340 342 356 359 363 375 . 377 378 387 402 403 TUIII POPLAR 405 406 408 411 421 458 941 494 496 509 510 513 517 521 524 534 537 546 552 TUEEIC GUM 555 564 565 568 569 570 211 661 665 667 669 676 691 707 751 753 769 770 772 TURBIDITY 784 792 793 794 808 816 703 825 831 835 837 838 884 887 901 905 941 948 968 TUBBUIENCE 970 974 1002 , 1006 1015 800
TRANSPORT COEFFICIENTS TURNIES 308 4 74
TRANSPORT PROPERTIES TUSBCV2K 461 i 739 991 1013
TRANSURANIUM ELEMENTS TOBNCVSa TIME 748 339
TREE CHOP TOSTIE GRASS 366 170
THEE CHOPS TOH'U'S 270
TREE GROWTH ULTRAFILTRATION 427 3C4
iTREE NUBSERY U11RASONIC TECHNIQUE 428 452
TREES ULTRAVIOLET RADIATION 45 51 137 257 270 345 345 354 . 366 424 427 477 558 563 641 679 707 796 835 UNDERCUTTING .863 '873 983 1004 1013 1015 975
832
873
183
KSYWORD INDEX
UNDERGROUND EXPLOSIONS 84
VAEOEIZATION 151
UNSATUPATED FLOW 294 561 728
VECTCB CONTROL 636
U P T A K E VECETABLE 21 24 33 37 45 46 355 U9 59 60 63 64 80 102 106 115 117 123 126 VEGFTABLKS 132 133 137 138 144 163 730 172 1T7 179 194 201 202 206 209 218 220 233 246 VEGETATION 253 257 260 261 270 272 506 278 281 786 290 307 310 339 340 354 372 37 2 412 VEIOCITY 413 415 424 428 43 C 431 542 434 4lt5 446 449 451 453 456 458 462 473 477 481 VERIFICATION ANALYSIS 491 U96 508 510 520 523 9C5 526 529 531 577 590 603 625 629 635 641 645 649 VEEMICULITE 653 658 663 670 676 677 109 683 685 692 701 720 747 748 749 752 755 756 764 VEBT3ERATES 767 774 779 781 79 0 796 511 814 838 840 841 842 843 849 862 871 872 884 815 VEFTICAL DISTRIBUTION 886 893 904 909 914 915 652 826 925 33? 939 957 964 979 980 1002 1005 1007 1008 1013 VERTICAL MIGRATION
UPTAKE RATE 310
UETAKE RATES 43
UPTAKE VELOCITY 1002
URACIL HFRBICIDES 3 5 1
URANIUM 464 60?
URANIUM DIOXIDE 890
URANIUM ISOTOPES 464
URBANIZATION 65
UREA 249 338 705 774 806
957
URIN" 10a
UTILIZATION 62 2B3
VANADIUM 156 891
VANADIUM 48 96
VAPOR AERATION SYSTEM 628
VAPOR CONTAMINATION 663
VAPOR DENSITY 160 867
VAPOR FLUX 714
eei VIABIilTY CONCEPT
852 VINYI CHLORIDE
444
VISCCSS 154
VISCOSITY 44
VISIEIE SPECTRA 847
VITAMIN B1 551
VITAMINS = 51
VOLATILITY 159 240 866
302 VOIATILIZATION
139 160
VOLUMCTITROMETRY 507
WASTE 991
WASTE DISPOSAL 171 >44 499
WASTE TREATMENT 317 400
WASTE WATER 468 602
WASTE WATER REUSE 757
WASTE WATER TREATMENT 154
541 867
690 753
VAPOR PRESSURE 866 953
18*
KEYWORD INDEX
WATER WATERFOWL 1 12 13 16 17 25 321 28 62 81 86 94 112 139 142 149 156 157 172 WATERS 173 186 187 193 20 3 216 818 231 244 246 276 28 3 287 288 289 304 309 344 345 WATERSHEDS 349 366 369 384 400 423 78 460 489 499 502 50 4 524 607 530 541 545 546 552 553 579 588 594 608 624 661 WATERWAYS 665 667 690 696 697 700 2e3 703 707 709 722 727 733 737 741 742 753 765 775 WEATHER 788 791 795 805 808 827 725 835 836 837 839 847 855 880 883 900 906 917 923 WEATHERING 940 945 949 974 990 994 145 1014 1015
WATER ANALYSIS 31 393 591
WATER ANIMALS 136
WATER CHEMISTRY 31 68 482 929
WATER COLUMNS 311
WATER CONTENT 335 580
WATER MOVEMENT 264 707 709 710 713 772
WATER POLLUTION 31 54 230 727
WATER POLLUTION DETECTION 287
WATER PROFILES 923
WATER QUALITY 504
WATER RESERVOIRS 1008
WATER RETENTION 207
WATER SUPPLY 343
711 712
277 898
283 968
343 498 566
648
WEATHERING AGENT 524
WEED CONTROL 364 594
WEEDS 975
WEIL IOGS 875
WHEAT 64 904
WHEAT-M 100 158 1007
WHEAT-M PROD1CTS 1017
WHEATS-M 1C17
WIILCS-D 345
WIBTEE 4/4
SCCDCCCKS 879
WOODLANDS 880
WORMS 144 187 662
834 899 908 986
183 207 731 872
2 0 1 436 481 600
WATER TABLE 217 566
WATER TRANSIT TIME 745
X-RAY ABSORPTION EQUATION 94
X-RAY FLUORESCENCE 156
WATER TRANSLOCATION 640
X-RAY FLUORESCENCE SPECTROMETRY 5 39
WATER TRANSMISSION 864
XYIEM 1015
WATER UPTAKE 558
WATER USE 17
YEAST 133
YE1LOW-BELLIED WATER SNAKES 7S8
WATER YIELD 343
YIELD 91 470 558 577
WATER ZINC 136
YIELDS 451 527 531
185
KEY90RD INDEX
YTTRIOH 90 766
ZXRC 31 55 122 127 135 156 172 187 188 227 230 261 267 271 415 457 963 531 548 699 723 799 758 778 943 94a 1001 1017
ZINC ISOTOPES 188
ZINC PHOSPHIDE 385 385
ZINC PHOSPHINE 38'
ZINC 65 42 43 55 188 191 192 193 225 227 228 234 281 339 340 341 349 901 918 510 576 659 720 914 949
ZIBCONION 920
ZiaCONIOH 95 901
ZIPCONIUB 95/NIOBIOB 95 293
ZONAL CENTRIPDGATION 92
ZONES 985
ZOOPLANKTON 173 180 361 909 4«7 599 786 981
ZOOPLANKTON SUCCESSION 761
1-METHOXYCARBONYL-1-PROPEH-2-Y1 DIHETHYL PHOSPHATE 299
1,2r3,4,10,10-HEXACHLORO-6, 7-ENCO, EXO-5,8-DIHETHANONAPHTHALENE
501
2 4-D 376
2-CHLORO-4,6-E1S(ETHYIAHINO) -S-TPIAZINE (SIHAZINE) 357
2-4-DICHLOPHENOXY ACETIC ACID 594
2 , 14 - D 594
2, 4,-DI MTRO PHENOL 456
2,2-BIS-P-CHLOBC-PHENYL 1-1, 1-DICHLORCETHYLENE U
2,4-D 249 495
?,4,5-T 249
2,6-DICHLCROBENZONITRTLE 169
3-(P-CHLOROPHENYL-1)-1, DINETHYIUPEA (NOVURON) 34
3- (3,4-DXCHLOROPHEHTL)-1,1-DIHETHYLDREA (DIDRON) 34 357
3-ISOPROPYL-1H-2,1,3-BESZOTHIADIAZIN-4(3H)-1-2, 2-CICXIDE
95
3"EHEBYL-1,1-DIHETHTLUREA (PENORON) 34
3.3,4,4-TETRA-CHLORO-AZO-BENZENE 98
3,4-DI-CHLORO-ANILINE 98
36CL-AROCLOR 812
4-CHIORO-A NILINE 97
6,7-CIHYDRODIPYRIDO(1,2-At 2',1»-C) PYRAZXDIXNIOH CATION
386