252

References

Adriano, D.C., 1986. Trace elements in the terrestrial environment. Berlin Heidelberg New York, Springer.

Adriano D.C., 2001. Trace Elements in Terrestrial Environments-Biogeochemistry, Bioavailability and Risks of Metals, Springer, New York.

Aghanabati, S.A., 1977. Etude geologique de la region de Kalmard (W.Tabas). Stratigraphie et tectonique. Geological Survey of Iran, Report, 35.

Ahmedali, S.T., 1989. X-Ray Fluorescence Analysis in the Geological Sciences. Advances in methodology. Geological Association of Canada, Short course 7, 308p.

Akarish, A.I.M., El Gohary, A.M., 2008. Petrography and geochemistry of lower Paleozoic sandstones, East Sinai, Egypt: Implications for provenance and tectonic setting, Jour. Afr. Earth Sci. 52, 43-54.

Akcil, A., Koldas, S., 2006. Acid mine drainage (AMD): causes, treatment and case studies, J. Clean. Prod. 14, 1139-1145.

Alavi, M., 1980. Tectonostratigraphic evolution of the Zagrosides of Iran, Geology 8, 144-149.

Alavi, M., 1994. Tectonics of the Zagros Orogenic Belt of Iran: New data and interpretations. Tectonophysics 229, 211-38.

Alavi, M., 1996. Tectanostratigraphic synthesis and structural style of the Alborz Mountain system in northern Iran. Geol. Soc. Am. Bull. 103, 983–992.

Alpay, S., Yavuz, M., 2009. Underground mining method selection by decision making tools, Tunneling and Underground Space Technology 24(2), 173-184.

Alvarez, N.O., Roser, B.P., 2007. Geochemistry of black shales from the Lower Cretaceous Paja Formation, Eastern Cordillera, Colombia: Source weathering, provenance and tectonic setting. Jour. South Amer. Earth Sci. 23(4), 271-289.

Ameri, H., Dastanpour, M., 2010. Stratigraphy and palaeontology of Trilobites in Kuhbanan Formation in the Akbar-Abad section (North of Kerman. Jour.Sciences, Islamic Republic of Iran, 21 (1), 37-42.

Amidi S.M., 1975. Contribution aletude stratigraphique, petrologique et petrographique des roches magmatiques de la region Natanz-Nain-Surk (Iran central), These, Univ.Grenoble France.

APHA .,1995. American Public health Association. Standard methods for the examination of water and waste water, 19th ed., Washington DC, U.S.A. American Public Health Association.

253

Armstrong-Altrin, J.S., Lee, Y.I., Verma, S.P., Ramasamy, S., 2004. Geochemistry of sandstones from the Upper Miocene Kudankulam Formation, southern India: Implications for provenance, weathering, and tectonic Setting. Jour. Sed. Res. 74(2), 285-296.

Armstrong-Altrin, J.S., Verma, S.P., 2005. Critical evaluation of six tectonic setting discrimination diagrams using geochemical data of Neogene sediments from known tectonic settings. Sed. Geol. 166, 115-129.

Arora, V., Jha, U., Bandhopadhyay, P., Kumar, S., 2006. An investigation of the relationship between raw coal characteristics and effluent quality of Kedla and Rajrappa washeries, Jhakhand, India. Jou. Env. Manage. 78, 392-404.

ASTM, 2002. Annual book of ASTM standards: petroleum products, lubricants, and fossil fuels. Gaseous Fuels; Coal and Coke, Sec. 5, vol. 5.06. ASTM International, West Conshohocken, PA. 650 p.

Back, W., 1961. Techniques for mapping of hydrochemical facies. USGS Prof.Paper, 424-D, 380-382.

Back, W., 1966. Hydrochemical facies and ground flow patterns in northern part of Atlantic Coastal Plain, USGS Prof.Paper, 498-A: 42p.

Baghvand, A., Nasrabadi, T., Nabi Bidhendi, G., Vossogh, A., Karbassi, A.,

Mehrdadi, N., 2010. Groundwater quality degradation of an Iran central desert. Desalination 260, 267-275.

Baioumy, H.M., 2009. Mineralogical and geochemical characterization of the Jurassic coal from Egypt. Journal of African Earth Science 54, 75-84.

Bandopadhyay, p., 1987. Emission of water pollutants from coal washeries and water pollution control technology, Seminar on water pollution and land reclamation in mining areas with special refrence to Jharia coalfield, ISM, Dhanbad June 5.

Bandopadhyay, P., 1995. Impact and abatement of pollution in coal and mineral processing, Workshop of mining environment. ENVIS center, CME, ISM, Dhanbad.

Banerjee, N.N., Ghosh, B., Das, A., 2000. Trace metals in Indian coals, CFRI Golden Jubilee Monograph. Allied Publishers Ltd (Chapter 1).

Banks, D., Burke, S.P., Gray, C.G., 1997. Hydrogeochemistry of coal mine drainage and other ferruginous waters in north Derby Shire and South Yorkshire, UK. Quaterly Journal of Engineering Geology 30, 257-280.

Bassir, S. H., 1985. Coal mining in Iran. Mining Magazine,1985, (June), 498–502.

Bathurst, R.G.C., 1975. Carbonate sediments and their diagenesis. Second enlarge edition.Elsevier.Amsterdam, 658p.

Beijer, K., 1986. Sources, transport, and transformation of metals in the environment. In Handbook on the toxicology of metals, eds. L. Friberg, G.F. Nordberg and V.B. Vouk, 68-84. Amsterdam: Elsevier.

254

Berberian, M., King, G.C., 1981. Towards a palaeogeography and tectonics evolution of Iran, Canadian Journal of Earth Sciences 18, 210–265.

Bhat, M.I., Ghosh, S.K., 2001. Geochemistry of the 2.51 Ga old Rampur group pelites, western Himalayas: implications for their provenance and weathering. Precam. Res. 108, 1-16.

Bhatia, M.R., 1983. Plate tectonics and geochemical composition of sandstones. Jour. Geol. 91(4), 611-626.

Bhatia, M.R., Crook, K.A.W., 1986. Trace element characteristics of graywackes and tectonic setting discrimination of sedimentary basins. Contrib. Mineral. Petrol. 92, 181-193.

BIS., 1991. Drinking water specification. Bureau of Indian standards, IS 10500.

Bi, Y., Hu, Z., Liu, J., 2003. pH continuous monitoring on fly ash and coal wastes, Energy Environmental Protection, 17, 20p.

Blatt, H., Middleton, G., Murray, R., 1980. Origin of Sedimentary Rocks. 2nd ed. Prentice-Hall, New York. 782p.

Bondine, M.W., Holland, H.D., Boresik, M., 1965. Co- Precipitation of manganese an strontium with calcite. Symposium on problems of post magnetic ore deposition Praque, 11, 401-406.

Bongers, D., Gurgenci Hal.R., 2008. Fault Detection and Identification for Longwall Machinery Using SCADA Data, Springer Series in Reliability Engineering, Complex System Maintenance Handbook, 611-641.

Bower, H., 1978. Groundwater Hydrology. International students edition.

Boylu, F., Laskowski, S., 2007. Rate of water transfer to flotation froth in the flotation of low-rank coal that also requires the use of oily collector, International journal of Mineral Processing, 83, 12p.

Brauner, G. 1973. Subsidence due to Underground Mining. Part I: Theory and Practice in Predicting Surface Deformation. Bureau of Mines, Department of the Interior, United States Government Printing Office, Washington, DC.

Brown, G.H., Sharp, M.J., Tranter, M., 1996. Subglacial chemical erosion: Seasonal variations in solute provenance, Haunt Glacier d’ Arolla, Valais, Switzerland. Ann.Glaciol 22, 25-31.

Brunet, M.F., Korotaev, M.V., Ershov, A.V., Nikishin, A.M., 2003. The South Caspian Basin: a review of its evolution from subsidence modelling. Sed. Geol. 156, 119–148.

Campos, M.L., Almeida, J.A., Souza, L.S., 2003. Avaliacao de tres areas de solo construdo apos mineracao de carvao a ceu aberto em Lauro Muller, Santa Catarina. Rev. Bras. Cienc Solo. 27, 1123–1137.

255

Cardwell, A., Hawker, D., Greenway, M., 2002. Metal accumulation in aquatic macrophytes from southeast Queensland, Australia. Chemosphere 48, 653-663.

Chapman, D., Kimstach, V., 1992. The selection of water quality variables. In: Water quality assessments (Edited by Chapman, D.). Chapman and Hall, London, 51-119.

Chebotarev, I.I., 1955. Metamorphism of natural waters in the crust of weathering. Geochim. Cosmotim. Acta 8: 22-48, 137-170, 198-212.

Chilingar, G.V., Bissell, H.J., Wolf, K.H., 1979. Diagenesis of carbonate sediments an epigenesis or catagenesis of limestone. In: G.Larsen and G.V. Chilingar (editors), Diagenesis in sediments and sedimentary rocks. Elsevier, Amsterdam, 247-422.

Chou, C.L., 1990. Geochemistry of sulfur in coal. In: Orr, W.L., White, C.M. (Eds.), Geochemistry of Sulfur in Fossil Fuels. Amer. Chem. Soc. Symp., 429, 30– 52.

Chou, C.L., 1997. Geologic factors affecting the abundance, distribution, and speciation of sulfur in coal. In: Qi, Y. (Ed.), Geology of Fossil Fuels-Coal. Proceedings of the 30th International Geological Congress, V.S.P., Utrecht, The Netherland, 18, 45–57.

Christiansen, J.E., Olsen, E.G., Willardson, L.S., 1977. Irrigation Water Quality Evaluation.J.Irrigation and Drainage Div., ASCE 103(2), 155-169.

Cingolani, C.A., Manassero, M., Abre, P., 2003. Composition, provenance and tectonic setting of Ordovician siliciclastic rocks in the San Rafael Block: Southern extension of the Precordillera crustal fragment, Argentina. Jour. South Amer. Earth Sci. Rev.16, 91-106.

Clarke, L.B., Sloss, L.L., 1992. Trace elements—emission from coal combustion and gasification IEA CRr49. IEA Coal Research, London, 111p.

Concas, A., Ardau, C., Cristini, A., 2006. Mobility of heavy metals from tailings to stream watersin a mining activity contaminated site, Chemosphere 63, 244–253.

Condie, K. C., Boryta, M. D., Liu, J., Quian, X., 1992. The origin of khondalites: geochemical evidence from the Archean to Early Proterozoic granulite belt in the North China craton. Precam. Res. 59, 207-223.

Condie, K.C., 1993. Chemical composition and evolution of the upper continental crust: contrasting results from surface samples and shales. Chem. Geol. 104, 1-37.

Cox, R., Lower, D.R., Cullers, R.L., 1995. The influence of sediment recycling and basement composition on evolution of mudrock chemistry in the southwestern United States. Geochim. Cosmochim. Acta. 59, 2919-2940.

Crook, K. A. W., 1974. Lithogenesis and geotectonics: the significance of compositional variation in flysch arenites and graywackes. In : R.H. Dott and R.H. Shaver (Ed.), Modern and ancient geosynclinal sedimentation. Soc. Econ. Paleontal. Mineral., Spec. Pub.19, 304-310.

256

Cullers, R.L., 2000. The geochemistry of shales, siltstones and sandstones of Pennsylvanian–Permian age, Colorado, USA: implications for provenance and metamorphic studies. Lithos 51, 181-203.

Dabard, M.P., 1990. Lower Brioverian formations (Upper Proterozoic) of the Armorican Massif (France): geodynamic evolution of source areas revealed by sandstone petrography and geochemistry. Sed. Geol. 69(2), 45-58.

Dai, S.F., Ren, D.Y., Tang, Y.G., Yue, M., Hao, L.M., 2005. Concentration and distribution of elements in Late Permian coals from western Guizhou Province ,China. International Journal of Coal Geology 61, 119-137.

Davis, N.S., De Wiest, J.M.R., 1967. Hydrology, Jon Wiley & Sons, Inc. New York, London. Sydney, 463p.

Deru, X., Xuexang, G., Pengehun, L., Guanghao, C., Bin, X., Bachinski, R., Zhuanli,

H., Gonggu, F., 2007. Mesoproterozoic-Neoproterozoic transition: geochemistry, provenance and tectonic setting of clastic sedimentary rocks on the SE margin of the Yangtze Block, South China. Jour. Asian Earth Sciences 29, 637–650.

Dey, S., Rai, A.K., Chaki, A., 2009. Palaeoweathering, composition and tectonics of provenance of the Proterozoic intracratonic Kaladgi-Badami basin, Karnataka, southern India: Evidence from sandstone petrography and geochemistry. Jour. South Asian Earth Sci. 34(6), 703-715.

Dhar, B.B., Ratan, S., Jamal, A., 1986. Impact of opencast coal mining on water environment-a case study, J. Mines, Metals Fules. 34, 596-601.

Dickinson, W.R., Suczek, C.A., 1979. Plate tectonics and sandstone composition. Am. Assoc. Petrol. Geol. Bul. 63, 2164-2182.

Dickinson, W.R., Beard, L.S., Brakenridge, G.R., Eerjavec, J.L., Ferguson, R.C.,

Inman, K.F, Knepp, R.A., Lindberg, F.A., Ryberg, P.T., 1983. Provenance of North American Phanerozoic sandstones in relation to tectonic setting. Geol. Soc. Am. Bul. 94, 222-235.

Dickinson, W.R., 1985. Interpreting provenance relations from detrital modes of sandstones. In: Zuffa, G. G. (Ed.) Provenance of sandstones. D.Reidel, Dordrecht 333-361.

Dighton, J., Jones, H. E., 1991. The use of roots to test N, P and K deficiency in Eucalyptus nutrition. IUFRO Symposium on intensive forestry: The role of Eucalyptus. Durban, South Africa 635-643.

Ding,Z.H.,Zheng,B.S.,Long,J.P.,Belkin,H.E.,Finkelman,R.B.,Chen,c.G.,Zhou,D.X.,Zh

ou,Y.S.,2001.Geological and geochemical characteristics of high arsenic coals from endemic arsenosis areas in southwestern Guizhou Province, china. Applied Geochemistry 16, 1353-1360.

Dominik ,J., Stantley, D.J., 1993. Boron ,beryllium and sulfur in Holocene sediments and peats of the Nile Delta ,Egypt _ their use as indicators of salinity and climate. Chemical Geology104, 203-216.

257

Doneen, L.D., 1964. Notes on water Quality in agriculture; Published as a water science and engineering paper 4001, Department of water Science and engineering, Univ. Of California.

Drever, J.I., 1988. The geochemistry of natural waters. Prentice Hall, Englewood cliffs, New Jersey.

Enay, R., Guiraud, R. Et Al., 1993. Callovian (162 to 158 Ma). In: Dercourt, J., Ricou, L. E., Vrielynck, B. (eds) Atlas Tethys Palaeoenvironmental Maps. Gauthier-Villars, Paris, 81–95.

Fedo, C.M., Nesbitt, H.W., Young, G.M., 1995. Unraveling the effects of K-metasomatism in sedimentary rocks and paleosols with implications for palaeoweathering conditions and provenance. Geology 23, 921-924.

Feng, R., Kerrich, R., 1990. Geochemistry of fine-grained clastic sediments in the Archean Abitibi greenstone belt, Canada: implications for provenance and tectonic setting. Geochem. Cosmochim. Acta 54, 1061-1081.

Finkelman, R.B., 1995. Modes of occurrence of environmentally- sensitive trace elements in coal. In: Swaine, D.J., Goodarzi, F. (Eds.), Environmental Aspects of Trace Elements in Coal. Kluwer Academic Publishers, Dordrecht, Netherlands, 24–50.

Finkelman, R.B., 1983. Modes of occurrence of trace elements and minerals in coal: an analytical approach. In: Filby, R.H., Carpenter, B.S., Ragaini, R.C. Eds., Atomic and Nuclear Methods in Fossil Energy Research. Chem. Div. 24, 236–241.

Finkelman, R.B., Gross, P.M.K., 1999. The types of data needed for assessing the environmental and human health impacts of coal. Int. J. Coal. Geol. 40, 91–101.

Finkelman, R.B., Palmer, C.A., Holub, V., 1992. Modes of occurrence of sulfide minerals and chalcophile elements in several high sulfur Czechoslovakina coals.29th Int. Geol. Congr. Abstr. 3, 216p.

Finkelman, R.B., Simons, D.S., Dulong, F.T., Steel, E.B., 1984. Semi-quantitative ion microprobe mass analyses of mineral-rich particles from the Upper Freeport coal. Int. J. Coal Geol. 3, 279– 289.

Finney, K.N., Sharifi, V.N., Swithenbank, J., 2009. Combustion of spent mushroom compost and coal tailing pellets in a fluidised-bed. Renew Energy. 34, 860–868.

Floyd, P.A., Franke, W., Shail, R., Dorr, W., 1989. Geochemistry and tectonic setting of Lewisian clastic metasediments from the Early Proterozoic Loch Maree Group of Gairloch, NW Scotland. Precam. Res. 45, 203-214.

Floyd, P.A., Leveridge, B.E., 1987. Tectonic environment of the Devonian Gramscatho basin, south Cornwall: framework mode and geochemical evidence from turbiditic sandstones. Jour. Geol. Soc. London. 144(4), 531-542.

258

Floyd, P.A., Franke, W., Shail, R., Dorr, W., 1990. Provenance and depositional environment of Rhenohercynian synorogenic greywacke from the Giessen nappe, Germany, Geologische Rundschau 69, 611-626.

Floyd, P. A., Shail, R., Leveveridg, B.E. and Framke, W., 1991. Geochemistry and provenance of Rhenohercynian synorogenic sandstones: implications for tectonic environment discrimination. In: A.C. Morton; S.P. Todd and P. D. W. Haughton (Eds.), Developments in sedimentary provenance. Geol. Soc. London., Spec. publ. 57, 173-188.

Folk, R.L., 1959. Practical petrographic classification of limestone Bull. Amer. Assoc. Petrol Geology 43. 1-38.

Folk, R.L., 1980. Petrology of sedimentary rocks. Hephills, Austin, 170p.

Forstner, U., G.T.W., Wittman., 1979. Metal pollution in the aquatic environment. New York: Springer-Verlag.

Fralick, P.W., Kronberg, B.I., 1997. Geochemical discrimination of clastic sedimentary rock sources. Sed. Geol. 113, 111-124.

Fursich, F. T., Wilmsen, M., Seyed-Emami, K., Majidifard, M. R. 2009. Lithostratigraphy of the Upper Triassic–Middle Jurassic Shemshak Group of Northern Iran. In: Brunet, M.-F., Wilmsen, M., Granath, J. W. (eds) South Caspian to Central Iran Basins. Geological Society, London, Special Publication 312, 129–160.

Fyffe, L.R., Pickerill, R. K., 1993. Geochemistry of Upper Cambrian-Lower Ordovician black shale along a northeastern Appalachian transect. Geol. Soc. Am. Bul. 105, 896-910.

Gentzis,T., Goodarzi, F., 1997. Trace element geochemistry of the Obed Mountain deposit coals, Alberta, Canada. Fuel 76, 1491-1501.

Ghosh, M.K., Chakravorty, S., 1987. Developmental derangements in the labial gland of resultant forms obtained after hydroprene treatment on diapausing larvae of the rice stem borer Chilo auricilius (Dudgn.). Indian J. exp. Biol., 25, 305-310.

Ghose, M.K., 1999. Sustainable supplies of water for coal washeries in India. The Science of the total environment, 229, 217-225.

Gibbs, R.J., 1970. Mechanism controlling world’s water chemistry. Science 170, 1088-1090.

Girty, G.H., Baraber, R. W., 1993. REE, Th, and Sc evidence for the depositional setting and source rock characteristics of the Quartz Hill chert, Sierra Nevada, California. In: M. J. Johnsson and A. Basu (Eds.), Processes controlling the Composition of Clastic Sediments. Geol. Soc. Am. Spec. paper, 284, 109–119.

Gluskoter, H.J., Ruch, R.R., Miller, W.G., Cahill, R.A., Dreher, G.B., Kuhn, J.K.,

1977. Trace Elements in Coal: Occurrence and Distribution. Circular, 499. Illinois State Geological Survey, Urbana, IL, 154 p.

259

Graver, J.I., Scott, T.J., 1995. Trace element in shale as indicators of crustal provenance and terrain accretion of the southern Canadian cordillera. Geol. Soc. Amer. Bull. 107, 440-453.

Goodarzi, F., 1987. Comparison of elemental distribution in fresh and weathered samples of selected coals in Jurassic-Creta-ceous Kootenary Group, British Columbia. Chem. Geol. 63, 21-28.

Goodarzi, F., 1987. Concentration of elements in lacustrine coals from zone A hat creek deposit no.1, British Columbia, Canada. International Journal of Coal Geology 8, 247-268.

Goodarzi, F., 1988. Elemental distribution in coal seams at the Fording coal mine, British Columbia, Canada. Chem. Geol. 68, 129–154.

Goodarzi, F., 1995. Geology of trace elements in coal. In: Swaine, D.J., Goodarzi, F. (Eds.), Environmental Aspects of Trace Elements in Coal. Kluwer Academic Publishers. Dordrecht, 52–55.

Goodarzi, F., Sanei ,H., Stasiuk, L.D., Bagheri-Sadeghi, H., J. Reyes., 2006. A preliminary study of mineralogy and geochemistry of four coal samples from northern Iran, International Journal of Coal Geology 65, 35– 50.

Goodarzi, F., Swaine, D.J., 1994. Paleoenvironmental and environmental implications of the boron content of coals. Geological Survey of Canada, Bull. 471, 76p.

Goodarzi, F., Swaine, D.J., 1994. The influence of geological factors on the concentration of boron in Australian and Canadian coals. Chemical Geology 118, 301–318.

Gu, X.X., Liu, J.M., Zheng, M.H., Tang, I.H. and Qi,L., 2002. Provenance and Tectonic Setting of the Proterozoic Turbidites in Hunan, South China: Geochemical evidence. Jour. Sed. Res. 72(3), 392-407.

Guang-yuang, X., Ling, W., Ze-shena, Yu He-shengb, O., 2009. Research on fine coal classified flotation process and key technology , The 6th International Conference on Mining Science and Technology, Procedia Earth and Planetary Science 1(1), 701–705.

Gupta, Ravi., Gurdeep, Singh., 1993. Water pollution profile of coal washeries, Poll. Research. 14(2), 203-213.

Gurdeep, Singh.,1986. Status of water quality in a mining area-a case study of Jharia coalfield, International symposium on environmental management, Istanbul Turkey June, 5-9.

Hallberg, R.O., 1976. A geochemical method for investigation of palaeoredox conditions in sediments. Ambio, Special Report 4, 139-147.

Harnois, L., 1988. The CIW index: A new chemical index of weathering. Sed. Geol. 55, 319-322.

Hartman, H.L., Mutmansky, J.M., 2002. Introductory Mining Engineering. John Wiley, New Jersey.

260

Hayashi, K.I., Fujisawa, H., Holland, H.D., Ohomoto, H., 1997. Geochemistry of ~ 1.9 Ga sedimentary rocks from northern Labrador, Canada. Geochim. Cosmochim. Acta. 61(19), 4115-4137.

Herman, Bouwer., 1978. Groundwater Hydrology. International students edition

Herreweghe, S. V., Swennen, R., Cappuyns, V., Vandecasteele, C., 2002. Chemical associations of heavy metals and metalloids in contaminated soils near former ore treatment plants: A differentiated approach with emphasis on pHstat-leaching. Journal of Geochemical Exploration 76, 113–138.

Herron, M.M., 1988. Geochemical classification of terrigenous sands and shales from core or log data. Jour. Sed. Pet. 58, 820-829.

Hessler, A.M., Lower, D.M., 2006. Weathering and sediment generation in the Archean : An integrated study of the evolution of siliciclastic sedimentary rocks of the 3.2 Ga Moodies group, Barberton Greenstone Belt, South Africa. Precam. Res. 151, 185-210.

Hindistan, M.A., Tercan, A.E., Unver, B., 2010. Geostatistical Coal Quality Control in Longwall Mining, International Journal of Coal Geology 82(3), 139-150.

Holland, H.D., 1984. The Chemical Evolution of the Atmosphere and Oceans. Princeton University Press, 287p.

Holm, E. B., Brandvik, P. J., Steinnes, E., 2003. Pollution in acid mine drainage from mine tailings in Svalbard, Norwegian Arctic Journal De Physique 107, 625-628.

Hosterman, J.W., Dulong, F.T., 1989. A computer program for semiquantitative mineral analysis by X-ray powder diffraction In:pevear, D.R., Mumpton, F.A.(Eds.), Quantitative Mineral Analysis of Clays. Clay Minerals Society Workshop Lectures.1, 38-50.

Hower, J.C., Rupper, L.F., Williams, D.A., 2002. Cntrols on boron and germanium distribution in the low-sulfur Amos coal bed, Western Kentucky coalfield, USA. International Journal of coal Geology 53, 27-42.

Hu, J., Zheng, B., Wang, B., 2005. Distribution and forming cause of organic sulfur in coals of China, Coal Geology and Exploration 33, 12-15.

Huckriede, R., Kursten, M., Venzlaff, H., 1962. Zur Geologie des Gebietes zwischen Kerman and Sagand (Iran). Geologisches Jahrbuch, Beihefte 51, 197p.

ICCP., 1998. The new vitrinite classification (ICCP system 1994).Fuel 77, 349-358.

ICCP., 2001. The new intertinite classification (ICCP System 1994).Fuel 80, 459-471.

International Center for Diffraction Data, 1997. powder Diffraction File Sets 1-47 CD-ROM.

IS., 1981. Indian standards for industrial effluent. IS, 2490.

261

Jacobson A.D., Blum J. D., Chamberlain C. P., Craw D., Koons, P. O., 2003. Climatic and tectonic controls on chemical weathering in the New Zealand Southern Alps. Geochim. Cosmochim. Acta 37, 29-46.

Jafarzadeh, M., Hosseini–Barzi, M., 2008. Petrography and geochemistry of Ahwaz sandstone member of Asmari Formation, Zagros, Iran: implications on provenance and tectonic setting. Revista Mexicana de Ciencias Geological 25(2), 247-260.

Jalali, M., 2007. Asseeement of the chemical component of Famenin groundwater, Western Iran. Environ. Gechem Health 29, 357-374.

Jalali, M., 2009. Geochemistry characterization of groundwater in an agricultural area of Razan, Hamadan, Iran. Environ. Geol. 56, 1479-1488.

Jenner, G.A., Longerrich, H. P., Jackson, S. E., Fryer, B. J., 1990. ICP-MS: a powerful tool for high precision trace-element analysis in earth sciences: evidence from analysis of selected U.S.G.S. reference samples. Chem. Geol. 83, 133–148.

Jin, Z., Li, F., Cao, J., Wang, S. Yu. J., 2006. Geochemistry of Daihai Lake sediments, Inner Mongolia, north China: implication for provenance, sedimentary sorting and catchment weathering. Geomorphology 88, 147-163.

Jones, B., Manning, D.C., 1994. Comparision of geochemical indices used for the interpretation of Palaeo-redox conditions in Ancient mudstones. Chem. Geol. 111, 111-129.

Jung, M. C., Thornton, I., Chon, H. T., 2002. Arsenic, Sb and Bi contamination of soils, plants, waters and sediments in the vicinity of the Dalsung Cu-W mine in Korea. Science of the Total Environment, 295, 81–89.

Kahraman, S., Ipek, M., Guleryuz, U., Gunaydin, O. 2006. Performance prediction of a jumbo drill in Pozanti–Ankara Motorway Tunnel (Turkey), Tunneling and Underground Space Technology 21, 265p.

Kalsbeek, F., Frei, R., 2010. Geochemistry of Precambrian sedimentary rocks used to solve stratigraphical problems: An example from the Neoproterozoic Volta basin, Ghana: Precam. Res. 176, 66-75.

Kamall, R., 2001. Coal Preparation, Cleaner Coal Technology Program, Technology Status Report 15, Department of Trade and Industry, London.

Kampunzu, A.B., Cailteux, J. L. H., Moine, B., Loris, H. N. B. T., 2005. Geochemical characterization, provenance, source and depositional environment of ‘Roches Argilo-Talqueuses’ (TAR) and Mines Subgroups sedimentary rocks in the Neoproterozoic Katangan Belt (Congo): lithostratigraphic implications. Journal of African Earth Sciences 42, 119–133.

Karr, Jr., Clarence. M., 1978. Analytical methods for coal and coal products, 1. Academic Press, New York (Chapter 15).

262

Kawatra, S.K., Eisele, T.C., 1997. Pyrite recovery mechanisms in coal flotation, International Journal of Mineral Processing, 50, 187-201.

Kecojevic, V., Md Nor, Z., 2009. Hazard identification for equipment-related fatal incidents in the U.S. underground coal mining, Journal of coal science and engineering, 15(1), 1-6.

Kelley, W.P., 1951. Alkali soils-their formation properties and reclamation. Reinold publ. Corp, New York.

Kelley, W.P., Broun, S.M., Leibig, G.I.Jr., 1940. Chemical effects of saline Irrigation water on soils. Soil Sci. 49, 95-107.

Khoury, D.l. 1981. Coal cleaning technology. New Tessey, USA: Park Ridge.

Kluyver, H. M., Griffis, R., Tirrul, R., Chance, P. N., Meixner, H. M., 1983. Explanatory Text of the Lakar Kuh Quadrangle Map 1:250 000. Geological Survey of Iran, Geological Quadrangle Map, 19.

Komnitsas, K., Paspaliaris, I., Zilberchmidt, M., Groudev, S., 2001. Environmental impacts at coal waste disposal sites: efficiency of desulphurization technologies, The International Journal 3, 135–142.

Kroonenberg, S.B., 1994. Effects of provenance, sorting and weathering on the geochemistry of fluvial sands from different tectonic and climatic environments: Proceedings of the 29th International geological congress, Part A, 69-81.

Kumar Gupta, A., Banerjee ,P.K., Mishra ,A., Satish P., 2007. Effect of alcohol and polyglycol ether frothers on foam stability bubble size and coal flotation, International journal of Mineral Processing, 82, 126-137.

Laird, M.G., 1982. Sedimentology of the Greenland Group in the Paparoa Range, West Coast, South Island, N.Z. J.Geol.Geophys. 15, 372-393.

Leonard, Joseph. W. (Ed.)., 1979. Coal preparation, fourth ed. The American Institute of Mining Metallurgical and Petroleum Engineers Inc., Baltimore, MD (Chapter 17).

Lindsey, D.A., 1999. An evaluation of alternative chemical classifications of sandstones. U.S.G.S. Open File Report 99-34, 23p.

Liu, D.M., Yang, Q., Tang, D.Z., Kang, X.D., Huang, W.H., 2001. Geochemistry of sulfur and elements in coals from the Antaibao surface mine, Pingshuo, Shanxi Province, China. International Journal of Coal Geology 46, 51-64.

Liu, G.J., Yang, P.Y., Peng, Z.C., Chou, C.L., 2004. Petrographic and geochemical contrasts and environmentally significant trace elements in marine-influenced coal seams, Yanzhou mining area, China. Journal of Asian Earth Science 23, 491–506.

Liu, G.J., Zheng, L.G., Duzgoren-Aydin, N.S., Gao, L.F., Liu, J.H., Peng, Z.C., 2007. Health effects of arsenic, fluorine, and selenium from indoor burning of Chinese coal. Review of Environmental Contaminate and Toxicology 189, 89–106.

263

Li, X., 2002. Factors and preventive measures of waste spontaneous combustion, Coal Technology 21, 16p.

Luscuyer J.L., Rio R., 1976. Geologie de la region de Mianeh (Azarbaijan), contribution aletude du volcanisme Tertiaire de lIran, Theses, Univ. Grenoble, France.

MacFarlane, G.R., Burchett, M.D., 2000. Cellular distribution of Cu, Pb, and Zn in the Grey Mangrove Avicennia marina (Forsk.), Vierh. Aquat. Bot. 68, 45–59.

Madejon, P., Murillo, J.M., Maranon, T., Cabrera, F.R., Lopez, R., 2002. Bioaccumulation of As, Cd, Cu, Fe and Pb in wild grasses affected by the Aznalcollar mine spill (SW Spain), Sci. Total. Environ. 290, 105–120.

Mandel, S., Shiftan, Z.L., 1981. Groundwater. 3rd ed. New age International (p) limited, 504p.

Manikyamba, C., Kerrich, R., Gonzalez-Alvarez, I., Mathur, M., Khanna, C.T., 2008. Geochemistry of Paleoproterozoic black shales from the Intracontinental Cuddapah basin, India: implications for provenance, tectonic setting, and weathering intensity. Precam. Res. 162, 424-440.

Maynard, J.B., Valloni, R., Yu, H.S., 1982. Composition of modern deep-sea sands from arc-related basins. Geolo. Soc. London, Spec. Publ. 10, 551-561.

McCann, T., 1991. Petrological and geochemical determination of provenance in the southern Welsh Basin. Developments in Sedimentary Provenance Studies In: A.C. Morton; S.P. Todd., Haughton, P.D.W (Eds.), Geol. Soc. London., Spec. Publ. 57, 215-230.

McLennan, S.M., 1993. Weathering and global denudation. Jour. Geol. 101, 295-303.

McLennan, S.M., Nance, W.B., Taylor, S.R., 1980. Rare earth element-thorium correlation in sedimentary rocks and the composition of the continental crust. Geochim. Cosmochim. Acta 44, 1833-1839.

McLennan, S.M., Taylor, S.R., Eriksson, K.A., 1983. Geochemistry of Archaean shales from the Pilbara supergroup, Western Australia. Geochim. Cosmochim. Acta 47, 1211-1222.

McLennan, S.M., Taylor, S.R., MCCulloch, M.T., Maynard, J.B., 1990. Geochemical and Nd-Sr isotopic composition of deep-sea turbidites: Crustal evolution and plate tectonic associations. Geochim. Cosmochim. Acta 54, 2015-2050.

McLennan, S.M., Taylor, S.R., 1991. Sedimentary rocks and crustal evolution: tectonic setting and secular trends. Jour. Geol. 99, 1–21.

McLennan, S.M., Hemming, S., Mcdaniel, D.K., Hanson, G.N., 1993. Geochemical approaches to sedimentation, provenance and tectonics, In: Johnsson, J.M. and Basu, A.(Eds.), Processes controlling the composition of clastic sediments. Geol. Soc. Am., Spec. Paper 284, 21-40.

264

McCulloch, M.T., Wasserburg, G. J., 1978. Sm-Nd and Rb-Sn chronology of continental crust formation. Science 200, 1003- 1011.

Meier,Allen L, Frederick E., Briggs, Paul H., Buullock Jr,john H., 1996. Coal ash by inductively coupled plasma-mass spectrometry. In: Arbogast, Belinda F.(Ed.),Analytical Methods for the Mineral Surveys Program: US Geology Survey open File Report 96-525, 109-125.

Meisler, H., Knobel, L.L., 1994. Documentation of hydrochemical facies data and ranges of dissolved solids concentrations for the north Atlantic coastal plain aquifer system: New Jersey, Delaware, Maryland, Virginia and North Carolina. USGS open file report 94, 492p.

Meybeck, M., 1987. Global chemical weathering of surfacial rocks estimated from dissolved salts. Am.J.Sci. 287, 401-428.

Miadokova, E., Duhova, V., Vlckova, V., Sladkova, L., Sucha, V., Vlcek, D., 1999. Genetic risk assessment of acid waste water containing heavy metals. Gen. Physiol. Biophys. 18, 92–98.

Miretzky, P., Saralegui, A., Fernandez Cirelli, A., 2004. Aquatic macrophytes potential for the simultaneous removal of heavy metals (Buenos Aires, Argentina). Chemosphere 57, 997-1005.

Mishra, M., Sen, S., 2010. Geological signatures of Mesoproterozoic siliciclastic rocks of the Kaimur Group of the Vindhyan Supergroup, Central India. Chin. J. Geochem. 20, 21-32.

Misra, V., Jaffery, F. N., Viswanathan, P. N., 1994. Risk assessment of water pollutants. Environmental Monitoring and Assessment 29, 29–40.

Mitchell, R.,1956. Coal preparation. Report, New York.

Mohajjel, M., Fergusson, B.C.L., Sahandi, M.R., 2003. Cretaceous–Tertiary convergence and continental collision, Sanandaj–Sirjan Zone, western Iran, Journal of Asian Earth Sciences 21, 397-412.

Morgan, C.O., Winner-Jn, M.D., 1962. Hydrochemical facies in the 400 foot and 600 foot sands of the Baton Rouge area. Louisana. USGS Prof. Paper, 450-B, 120-121.

Murray, R.W., Jpnes, D.L., Buchholtz, T.B., 1992. Diagenetic formation of bedded chert: evidence from chemistry of the chert-shale couplet. Geology 20, 271– 274.

Nabavi, M.H., 1976. An introduction to geology of Iran. (in Persian), Geological Survey of Iran, Tehran.

Nagarajan, R., Madhavaraju, J., Nagendra, R., Armstrong–Altrin, J.S., Moutte, J.,

2007. Geochemistry of Neoproterozoic shales of the Rabanpalli Formation Bhima Basin, Northern Karnataka, southern India: implications for provenance and paleoredox conditions. Revista Mexicana de Ciencias Geologicas 24 (2), 150-160.

265

Nagendra, R., Nagarajan, R., 2003. Geochemical studies of shahabad limestone (younger proterozoic), Bhima Basin, Karnataka Indian mineralogist 36 (3), 13-23.

Nathan, S., 1976. Geochemistry of the Grenland Group (early Ordovician), New Zealand. N.Z.J.Geol.Geophys. 19, 683-706.

Nesbitt, H.W., Young, G.M., 1982. Early Proterozoic climates and plate motions inferred from major element chemistry of lutites. Nature 299, 715-717.

Nesbitt, H.W., Young, G.M., 1984. Prediction of some weathering trends of plutonic and volcanic rocks based on thermodynamic and kinetic considerations. Geochim. Cosmochim. Acta 48, 1523-1534.

Nesbitt, H.W., Young, G.M., 1989. Formation and diagenesis of weathering profiles. Jour. Geol. 97, 129-147.

Nesbitt, H.W., Young, G.M., 2004. Ancient climatic and tectonic settings inferred from paleosols developed on igneous rocks. In : Eriksson, P. G., Alternan, W., Nelson, D. R., Mueller, W.u., Catuneanu, O. (Eds.), The precamberian Earth : Tempos and Events. Elsevier, Amesterdam, 482-493.

Nesbitt, H. W., Young, G.M., McLennan, S.M., Keays, R.R., 1996. Effects of chemical weathering and sorting on the petrogenesis of siliclastic sediments, with implications for provenance studies. Jour. Geol. 104, 525-542.

Nesbitt, H. W., Fedo, C.M., Young, G.M., 1997. Quartz and feldspar stability, steady and non-steady state weathering, and petrogenesis of siliciclastic sands and muds. Jour. Geol. 105, 173-191.

Nezafati, N., 2006. Au-Sn-W-Cu-Mineralization in the Astaneh-Sarband Area, West Central Iran, including a comparison of the ores with ancient bronze artifacts from Western Asia. PhD thesis, University of Tubingen.

Nicholls, G.D., 1968. The geochemistry of coal bearing strata in coal and coal bearing strata. In: D. Murchison and T.S. Westoll (Eds.),Oliver and Boyd, Edinburgh and London,418p.

Okada, H., 1971. Classification of sandstones: analysis and proposals. J. Geol. 79, 509–525.

O’Leary., Richard M., 1994. mercury in whole coal and biological tissue by continuous flow-cold vapor-atomic absorption spectrometry.Arbogast,Belinda F. (Ed.), Analytical Methods of the Mineral Survey Program:US Geological Survey Open-File Report 96-525, 51-55.

Oparin,V. N., Tapsiev, A. P., Freidin, A. M., 2008. Classification of methods for ore mining at Alarge depth, Journal of Mining Science 44(6), 569-577.

Orhan, E.d.Kural., 1994. Coal, Resources, Properties, Utilization, Pollution, 115–125.

266

Osae, S., Asiedu, D.K., Banoeng–Yakubo, B., Koeberl, C., Dampare, S.B., 2000. Provenance and tectonic setting of Late Proterozoic Buem sandstones of southeastern Ghana: Evidence from geochemistry and detrital modes. Jour. African Earth Sci. 44, 85-96.

Osborne, D.G., 1988. Coal preparation technology, vol. 2 Graham and Irotman Limited, London/Boston (Chapter 19).

Paikaray, S., Banerjee, S., Mukherji, S., 2008. Geochemistry of shales from Palaeoproterozoic to Neoproterozoic Vindhyan Supergroup: implications on provenance, tectonics and paleoweathering. Jour. Asian Earth Sci. 32, 34-48.

Pamela, R.R., Macintyre, I.G., 1998. Carbonate recrystallizatoin in shallow marine environment: A widespred diagenitic process forming micritised grains. Jour. sed. Research. 68 (5), 928-946.

Pang, S.S., Goldsmith, W., 1989. Momentum and energy processes during jackhammer operation. Rock mechanics and rock engineering 22(3), 205-229.

Pettijohn, F.J., 1975. Sedimentary rocks. Harper and Row, New york, 3rd ed., 628p.

Pettijohn, F.J., Potter, P.E., Siever, R., 1987. Sand and sandstone. Springer-Verlag. New York, 618p.

Pike, S., Dewison, M.G., Spears, D.A., 1989. Sources of error in low temperature plasma ashing processes for quantitative mineral analysis of coal ash. Journal of the Institute of Fuel 68, 664-669.

Piper, AM., 1944. A graphical procedure in the chemical interpretation of groundwater analysis. Trans. Amer. Geophys. Union Trans 25, 914-928.

Piper, A.M., 1953. A graphical procedure in the geochemical interpretation of water analyses. USGS Ground water Note 12, 63p.

Poldervaart, A., 1955. Chemistry of the earth's crust. Geol. Soc. Am. Special paper 62, 119-144.

Pontolillo,J., Stanton, R.W., 1994. Coal petrographic laboratory procedures and safety manual II.U.S.Geological Survey Open-File Report 94-36, 69 p.

Pool, I., Mirzaeie Ataabadi, M., 2005. Conifer woods of the Middle Jurassic Hojedk formation (Kerman basin) Central Iran. IAWA Journal 26 (4), 489-505.

Raask, E., 1985. The mode of occurrence and concentration of trace elements in coal. Proc. Energy Combustion Sci. 11, 97–118.

Raghunath, H.M., 2007. Groundwater. New Age International (p) Limited, Publications, 504p.

Raju, N.J., Prahalad, R., Dey, S., 2009. Groundwater Quality in the lower Varuna River River Pradesh. Jour. Geol.Soc.India 73, 178-192.

267

Raverkar, K. P., Ramana, S., Singh, A. B., Biswas, A. K., and Kundu, S., 2000. Impact of post-methanation spentwash (PMS) application on the nursery raising, biochemical parameters of Gliricidia sepium and biological activity of soil. Annuals of plant and soil research 2, 161-168.

Raymahashay B.C., 1986. Geochemistry of bicarbonate in river water. J. Geol. Soc. India 27, 114-119.

Ray, R.K., 2008. Hydrochemical Evolution of Groundwater in the Phreatic Aquifers of Chhaltisgarh. J.Geol.Soc.India 72, 405-414.

Razavi-Armagani,M.B., Moinosadat,S.H., 1994. Treatise on the Geology Geological Survey of Iran, 286p.( in Persian).

Richards, L.A., 1954. Diagnosis and improvement of saline and alkali soils. U.S. Department of agriculture handbook 60, 160p.

Roser, B.P., Korsch, R.J., 1986. Determination of tectonic setting of sandstone-mudstone suites using SiO2 content and K2O/Na2O ratio. Jour. Geol. 94, 635-650.

Roser, B.P., Korsch, R.J., 1988. Provenance signatures of sandstone-mudstone suites determined using discriminant function analysis of major-element data. Chem. Geol. 67, 119-139.

Roser, B.P., Cooper, R.A., Nathan, S., Tulloch, A. J., 1996. Reconnaissance sandstone geochemistry, provenance, and tectonic setting of the lower Paleozoic terrains of the West Coast and Nelson, New Zealand. Newzealand. Jour. Geol. and Geoph. 39, 1-16.

Sabzehie M., 1974. Les melanges ophiolitiques de la region desfandagheh (Iran meridional), Etude petrologique et structurale Interpretation dans le cadre iranien, These Univ. Grenoble, 306p.

Saidi, A., Brunet, M.F., Ricou L.E., 1997. Continental accretion of the Iran Block to Eurasia as seen from Late Paleozoic to Early Cretaceous subsidence curves. Geodin Acta 10, 189–208.

Saleh A, Al-Ruwaih F, Shehata M., 1999. Hydrogeochemical process operating within the main aquifers of Kuwait. Jour. Arid. Environ. 42, 195-209.

Sarin, M.M., Krishnaswamy, S., Dilli, K., Somayajulu, B.L.K., Moore, W.S., 1989. Major ion chemistry of the Ganga-Brahmaputra river system: weathering processes and fluxes to the Bay of Bengal. Geochim. Cosmochim. Acta 53: 997-1009.

Savoie, D.L., Prospero, J.M., 1989. Comparison of oceanic and continental sources of non-sea-salt sulphate over the Pacific Ocean. Nature 339: 685-687.

Schieber, J., 1992. A combined petrographical-geochemical provenance study of the Newland Formation, Mid-Proterozoic of Montana. Geol. Mag. 129, 223-237.

Schoeller, H., 1977. Geochemistry of groundwater. In: Groundwater studies-An international Guide for research and practice. UNESCO, Paris, Ch.15, 1-18.

268

Scott. B , Ranjtih , P. G., Choi, S. K., Khandelwal, M., 2009. Geological and geotechnical aspects of underground, coal mining methods within Australia, Environ Earth Sci. 60(5), 1007-1019.

Seaber, P.R., 1962. Cation hydrochemical facies of groundwater in the English town formation, New Jersey. USGS Prof. Paper, 450-B, 124-126.

Sengor, A.M.C., 1990. A new model for the Paleozoic–Mesozoic tectonic evolution of Iran and implications for Oman. In: A.H.F. Robertson; M.P. Sarle and A.C. Ries (Eds.), The geology and tectonics of the Oman region. Geol. Soc. London Spec. Publ. 37, 119–181.

Sengor, A.M.C., Altiner, D., Cin, A., Ustaomer, T., Hsu, K.J., 1988. Origin and assembly of the Tethysides orogenic collage at the expense of Gondwana Land. In: Audley-Charles, M. G., Hallam, A. (eds) Gondwana and Tethys. Geological Society London, Special Publications 37, 119–181.

Seyed-Emami, K., 1988. Jurassic and Cretaceous ammonite faunas of Iran and their palaeobiogeographic significance. In: Wiedmann, J., Kullmann, J. (eds) Cephalopods – Present and Past. Schweizerbart, Stuttgart, 599–606.

Seye-Emami, K., Fursich, F.T., Schairer, G., 2001. Lithostratigraphy, ammonite faunas and palaeoenvironments of Middle Jurassic strata in North and Central Iran. Newsletters on Stratigraphy, 38(2/3), 163–184.

Seyed-Emami, K., Fursich, F. T., Willmsen, M, Schairer, G., Majidifard, M. R., 2004. Jurassic (Toarcian to Bajocian) ammonites from the Lut Block, east-central Iran. Acta Geologica Polonica 54(1), 77–94.

Shadbolt, C.H., 1978. Mining subsidence. Proceedings of the First International Conference on Large Ground Movements and Structures, Cardiff, Geddes, J.D. (ed.), Pentech Press, London, 705–748.

Shariat Nia,H., 1994. Geological characteristics of Parvedeh Region of Tabs coal-bearing basin,central Iran.In: Embry ,A.F., Beauchamp,B., Glass,D.J.(Eds.) , Pangea, Global Environments and Resources,Memoir. 17. Canadian society of Petroleum Geologists, Calgary, Alberta,Canada , 497-510.

Shao,L., Jones,T., Gayer , R.,Dai, S., Li,S., Jian,Y., Zhang,P., 2004. Petrology and geochemistry of the high-sulfur coals from the upper Permian carbonate coal measures in the Heshan coalfield, south china. Int. J. Coal Geol. 55, 1-26.

Silva, L.F.O., Oliveira, M.L.S., da Boit, K.M., Finkelman, R.B., 2008. Characterization of Santa Catarina (Brazil) coal with respect to human health and environmental concerns. Environ. Geochem. Health. 31, 475–485.

Singh, A.K., 2002. Quality assessment of surface and subsurface water of Damodar river basin. Indian. J.Environ.Health 44, 41-49.

269

Singh, A.Kr., Mondal S., Singh S., Singh P.K., Singh T.B., Tewary B.K., Sinha A.,

2007. Aquatic geochemistry of Dhanbad, Jharkhand: Source, Evaluation and quality Assessment. Jour.Geol.Soc.India 69, 1088-1102.

Singh, M.P., Singh, G.P., 1996. Petrological evolution of the Paleogene coal deposits of Jammu, Jammu and Kashmir, India. Int. Jour. Coal Geol. 27, 171-199.

Sovie, D.L., Prospero, J.M., 1989. Comparision of oceanic and continental source of non-sea-salt rerfate over the Pacific Grean. Nature 339, 685-687.

Spalletti, L.A., Queralt, I., Matheos, S.D., Colombo, F., Maggi, J., 2008. Sedimentary petrology and geochemistry of siliciclastic rocks from the upper Jurassic Tordillo Formation (Neuquén Basin, western Argentina): Implications for provenance and tectonic setting. Jour. South American Earth Sci. 25, 440-463.

Spears,D.A., Manzanares-Papayanopoulos, L.I., Booth, C.A., 1999. The distribution and origin of trace elements in a UK coal; the importance of pyrite. Fuel 78, 1671-1677.

Spears, D.A., Zheng ,y., 1999. Geochemistry and origin of elements in some UK coals. International Journal of Coal Geology 38, 161-179.

Stallard, R.F., Edmond, J.M., 1983. Geochemistry of the Amazon.2: the influence of the geology and weathering environment on the dissolved load. Jour. Geophys. Res. 88, 9671-9688.

Stampfli, G.M., 1978. Etude geologique generale de l Elburz oriental au S de Gonbad-e-Qabus, Iran N-E. Fac. Sci. Univ. Geneve. Thesis No. 1868, 329p.

Stampfli, G., Marcoux, J., Baud, A., 1991. Tethyan margins in space and time. Palaeogeogr Palaeoclimatol Palaeoecol 87, 373–409.

Stampfli, G. M., Borel, G.D., 2002. A plate tectonic model for the Paleozoic and Mesozoic constrained by dynamic plate boundaries and restored synthetic oceanic isochrons. Earth and Planetary Science Letters 196, 17–33.

Stasiuk,V., Bagheri-Sadeghi, H., Goodarzi, F., 2003. Petrology, rank and liquid petroleum potential of Jurassic coals from the Central Alborz Region, Northern Iran. Proceeding of 12th International Conference on Coal Sciences, 2nd-6th November 2003, Cairns, Australia. Paper , 12-18.

Stimson, J., Frape, S., Drimmie, R., Rudolph, D., 2001. Isotopic and geochemical evidence of regional-scale anisotropy and interconnectivity of an alluvial fan system, Cochabamba Valey, Bolivia. Applied Geoch. 16, 1097-1114.

Stocklin, J., 1968. Structural history and tectonics of Iran. Amer Association Petroleum, Geol. Bull. 52, 1229-1258.

Strickland, Ted., Logan, S. D., Wickstrom, L., 2008. Coal in State of Ohio, Ohio Geological Survey, Revised Edition, Educational Lealet No.8.

270

Stumm, W., Morgan, J.J., 1981. Aquatic chemistry: A prologue emphasizing chemical equilibria in natural waters. John Wiley and sons, New York, 780 p.

Sugitani, K., Horiuchi, Y., Adachi, M., Sugisaki, R., 1996. Anomalously low Al2O3/TiO2 values for Archean cherts from the Pilbara Block, Western Australia-possible evidence for extensive chemical weathering on the early earth. Precam. Res. 80, 49-76.

Suttner., L.J., Dutta, P.K., 1986. Alluvial sandstone composition and palaeoclimate-1: Framework mineralogy. Jour. Sed. Pet. 56 (3), 329-345.

Swaine, D.J.,1990. Trace elements in coal. Butterworth, London (Chapter 9).

Tahiri, M., Benyaich, F., Bounakhla, M., Bilal, E., Gruffat, J. J., Moutte, J., 2005. Multivariate analysis of heavy metal contents in soils, sediments and water in the region of Meknes (central Morocco). Environmental Monitoring Assessment 102, 405–417.

Takahashi, H., Morikawa, Y., Tateyama, K., Fukagawa, R., 2004. Study on the mechanism of over-head-type load-haul-dump with a vessel, Journal of Terramechanics 41, 175–185.

Takin, M., 1972. Iranian geology and continental drift in the Middle East. Nature 235, 147–150.

Taylor, S.R., McLennan, S.M., 1985. The continental crust: its composition and evolution. Blackwell, Oxford, 312p.

Teichmuller,M., 1982. Origin of the petrographic constituents of coal.In:Stach,E.,Mackowsky,M.-Th., Teichmuller, M., Taylor,G.H., Chandra,D., Teichmuller,R. (Eds.), Stach’s Textbook of coal petrology.Gebruder Borntraeger, Berlin, 262-263.

Thierry, J., 2000. Middle Callovian (157–155 Ma). In: Dercourt, J., Gaetani, M. Et Al. (eds) Atlas Peri- Tethys Palaeogeographical Maps, CCGM/CGMW, Paris, 71–97.

Turekian, K.K., 1972. Chemistry of the earth, Holf, Rinechart and Winston, New-York, NY, 131p.

US EPA., 2002. Methods for Chemical Analysis of Water and Waste. EPA-600/4-79-020. U.S. Environmental Protection Agency, Cincinnati, Ohio.

U S Salinity laboratory., 1954. siagenesis and improvement of saline and alkali soils, U.S Dept. Agriculture Hand book 60, Washigton, DC. 160p.

Van De Kam, P.C. and Leake, B.E., 1985. Petrography and geochemistry of feldspathic and mafic sediments of the northeastern Pacific margin. Tran .R.

Vassilev, S.V., Vassileva, C.G., 2009. A new approach for the combined chemical and mineral classification of the inorganic matter in coal. 1. Chemical and mineral classification systems. Fuel. 88, 235–245.

271

Vetrivel, A., Selvi., Prajapati, N., Reginald, E., Masto., Lal, C., Ram and Banerjee, R.,

Nishant, K., Srivastava, K., 2008. Environmental impact of coal washery and Damodar River water on the morphometry and biochemical changes of maize (Zea mays L.) and soil health, Environ. Monit. Assess. 145, 251-256.

Vlado, V., 1983. Trace elements in Coal, vol. 1. CRC Press Inc., Boca Raton, FL (Chapters 1and 2).

Ward, C.R., Spears ,D.A., Booth, C.A., Staton, I., Gurba,L.W., 1999. Mineral matter and trace elements in coals of the Gunnedah Basin ,New South Wales , Australia. International Journal of Coal Geology 40, 281-308.

WHO., 1993. Guidelines for drinking water quality, v.1, Recommendations.World Health Organisation, Geneva, WHO, 1-4.

Wilcox, L.V., 1948. The quality of water for irrigation use. US department of Agriculture. Tech.Bull., 1962 Washington DC, 19p.

Wilcox L.V., 1955. Classification and use of irrigation waters. U.S. Department of Agriculture. Circular 969, Washington, D.C, U.S.A.

Wilmsen, M., Fursich, F. T., Seyed-Emami, K., Majidifard, M. R., 2009. An overview of the stratigraphy and facies development of the Jurassic System on the Tabas Block, east-central Iran, South Caspian to Central Iran Basins. The Geological Society of London, Special Publications 312, 323–343.

Wilmsen, M., Fursich, F.T., Seye-Emami, K., 2003. Revised lithostratigraphy of the Middle and Upper Jurassic Magu Group of the northern Tabas Block, east-central Iran. Newsletters on Stratigraphy, 39(2), 143–156.

Wong, M.H., 2003. Ecological restoration of mine degraded soils, with emphasis on metal

contaminated soils, Chemosphere 50, 775–780.

Wronkiewicz, D.J., Condie. K.C., 1987. Geochemistry of Archean shales from the Witwatersrand Supergroup, South Africa: Source-area weathering and provenance. Geochim. Cosmochim. Acta 51, 2401-2416.

Yamamoto, K., Sugisaki, R., Arai. F., 1986. Chemical aspects of alteration of acidic tuffs and their application to siliceous deposits. Chem. Geol. 55, 61-76.

Yazdi, M., Esmaeilnia, S.A., 2003. Dual-energy gamma-ray technique for quantitative measurement of coal ash in the Shahroud mine, Iran. International Journal of Coal Geology 55, 151– 156.

Yazdi, M., Shiravani, A.E., 2004. Geochemical properties of coals in the Lushan coal field of Iran. International Journal of Coal Geology 60, 73-79.

Zadeh Kabir, A., 1991. A national project to study coals for developing of Iranian steel plans, National Iranian Steel Company, Internal report,745p ( in Persian).

Zevenhoven, R., Kilpinen, P., 2001. Control of pollutants in flue gases (Chapter 8).

272

Zhang, J., Ren, D., Zheng, C., Zeng, R., Chou, C.L., Liu, J., 2002. Trace element abundances of major minerals of Late Permian coal from southwestern Guizhou province, China. Int. J. Coal Geol. 53, 55–64.

Zhao, Y., Cui, P., Wang, C., 2005. Cause of coal wastes landslide and flow of Wansheng, Chongqing, J. Mountain Research 23, 169-173.

Zheng, B.S.,Ding, Z.H.,Huang, R.G., Zhu, J.M., Yu, X.Y.,Wang, A.M., Zhou, D.X.,

Mao, D.J., Su, H.C., 1999. Issues of health and disease relation to coal use in southwestern China. International Journal of Coal Geology 40, 119–132.

Zheng, L.G., Liu, G.J., Chou, C.L., 2008. Abundance and modes of occurrence of mercury in some low-sulfur coals from China. International Journal of Coal Geology 73, 19–26.