full thesis neelu botany - inflibnetshodhganga.inflibnet.ac.in/bitstream/10603/21076/12/13... ·...

�

�

�

�

�

�

�

�

��

�

�

�

�

�

�

�

�

��

�

REFERENCES

Aalten, P.M., Vitour, D., Blanvillain, D., Gowen, S.R. and Sutra, L. (1998) Effect of

rhizosphere fluorescent Pseudomonas strains on plant parasitic nematodes

Radopholus similis and Meloidogyne spp. Lett. Appl. Microbiol. 27: 357-361.

Abd El-Ghafar, N.Y. (2004) Application of Ralstonia solanacearum phage in

controlling potato bacterial wilt in Egypt. Arab Univ. J. Agric. Sci. 12: 437-

446.

Abd-Alla, M.H. (1994) Phosphatases and the utilization of organic phosphorus by

Rhizobium Leguminosarum biovar viceae. Lett. Appl. Microbiol. 18: 294-296.

Abd-Alla, M.H. and Bashandy, S.R. (2008) Bacterial wilt and spot of tomato caused

by Xanthomonas vesicatoria and Ralstonia solanacearum in Egypt. World J.

Microb. Biot. 24: 291-292.

Abd-El-Khair, H. and Seif El-Nasr, H.I. (2012) Applications of Bacillus subtilis and

Trichoderma spp. for controlling the potato brown rot in field. Arch.

Phytopathol. Plant Protect. 45: 1-15.

Abd-El-Sayed, W.M., Bayoumi, R.A. and Abd-El-Ghafar, N.Y. (2003) Biological

control of potato bacterial wilt disease under Egyptian conditions. Ann. Agric.

Sci. (Cario.) 48: 353- 364.

Aboud, H.M., Fattah, F.A., Al-Heeti, A.A. and Saleh, H.M. (2002) Efficiency of

chitosan in inducing systemic acquired resistance against the root-knot

nematode (Meloidogyne javanica (Treub) Chitwood) on tomato. Arab J. Pl.

Prot. 20: 93-98

Aider, M. (2010) Chitosan application for active bio-based films production and

potential in the food industry: Review. LWT-Food Sci. Technol. 43: 837-842.

Akhtar, A., Hisamuddin, Abbasi and Sharf R. (2012) Antagonistic effects of

Pseudomonas fluorescens and Bacillus subtilis on Meloidogyne incognita

infecting Vigna mungo L. In. J. Pl. Ani. Environ. Sci. 2: 55-63.

Akhtar, M.S. (2007) Evaluation of AM fungi and other phosphate solubilizing

microorganisms for the management of root-rot disease complex of chickpea.

Ph.D. thesis, submitted to Aligarh Muslim University, Aligarh. 156 pp.

Akhtar, M.S. and Siddiqui, Z.A. (2008a) Arbuscular mycorrhizal fungi as potential

bioprotectants against plant pathogens. In: Mycorrhizae: Sustainable

��

�

Agriculture and Forestry. Z.A. Siddiqui, M.S. Akhtar, and K. Futai. (Eds.) pp.

61-97. Springer, Dordrecht, Netherlands. 359 pp.

Akhtar, M.S. and Siddiqui, Z.A. (2008b) Glomus intraradices, Pseudomonas

alcaligenes and Bacillus pumilus: effective agents for the control of root-rot

disease complex of chickpea (Cicer arietinum L.). J. Gen. Plant Pathol. 74:

53-60.

Akhtar, M.S. and Siddiqui, Z.A. (2007) Biocontrol of a chickpea root rot disease

complex with Glomus intraradices, Pseudomonas putida and Paenibacillus

polymyxa. Austral. Plant Pathol. 36: 175-180.

Akhtar, M.S. and Siddiqui, Z.A. (2009) Use of plant growth promoting rhizobacteria

for the biocontrol of root-rot disease complex of chickpea. Austral. Plant

Pathol. 38: 44-50.

Akiew, E., Trevorrow, P.R. and Waite, C.A. (1991) Tobacco bacterial wilt

investigation in North Queensland. ACIAR Bacterial Wilt Newsletter 8: 11-12.

Akköprü, A. and Demir, S. (2005) Biological control of Fusarium wilt in tomato

caused by Fusarium oxysporum f. sp. lycopersici by AMF Glomus

intraradices and some rhizobacteria. J. Phytopathol. 153: 544-550.

Alcalá de y Lara, B. (1998) Estudio de la marchitez bacteriana de la papa en tres

localidades del estado Lara. Agronomía Trop. 48: 275-289.

Algam, S.A.E., Xie, G.L., Li, B., Yu, S., Su, T. and Larsen, J. (2010) Effects of

Paenibacillus strains and chitosan on plant growth promotion and control of

Ralstonia wilt in tomato. J. Plant Pathol. 92: 593-600.

Allen, C., Prior, P. and Hayward, A.C. (2005) Bacterial wilt disease and the Ralstonia

solanacearum Species Complex. Allen, C, Prior, P. and Hayward, A.C. (Eds.)

APS Press, St. Paul, MN, USA. 528 pp.

Allen, M.F. (1996) The ecology of arbuscular mycorrhizas: a look back into 20th

century and a peak into the 21st century: Mycorrhizal Res. 100: 769-782.

Almeida, A.M., Souza, R.M., Gomes, V.M. and Miranda, G.B. (2012) Greenhouse

and field assessment of different organic compounds against guava-parasitic

Meloidogyne enterolobii. Bragantia 71: 67-74.

Al-Raddad, A.M. (1995) Interaction of Glomus mosseae and Paecilomyces lilacinus

on Meloidogyne javanica on tomato. Mycorrhiza 5: 233-236.

Álvarez, A.M. (2004) Integrated approaches for detection of plant pathogenic bacteria

and diagnosis of bacterial diseases. Annu. Rev. Phytopathol. 42: 339-366.

��

�

Álvarez, B. (2009) Biology of Ralstonia solanacearum phylotype II in host and non-

host environments. Ph.D thesis, submitted to Universidad Politécnica de

Valencia.

Álvarez, B., Vasse, J., Le-Courtois, V., Trigalet-Démery, D., López, M.M., and

Trigalet, A. (2008) Comparative behaviour of Ralstonia solanacearum biovar

2 in diverse plant species. Phytopathology 98: 59-68.

Ambardar, V.K. (2011) Potential of endomycorrhizae and bacterial antagonist on the

growth performance of tomato cultivars against bacterial wilt. J. Res. Dev. 11:

1-12.

Anandaraj, M., Ramana, K.V. and Sharma, Y.R. (1990) Interaction between

vesicular-arbuscular mycorrhizal fungi and Meloidogyne incognita in black

peeper. In: Mycorrhizal symbiosis and plant growth. D.J. Bagyaraj and A.

Manjunath (Eds.) pp. 110-112. Proceedings of the Second National

Conference on Mycorrhiza, Banglore, India, 21-23 November.

Anith, K.N., Momol, M.T., Kloepper, J.W., Marois, J.J. , Olson, S.M. and Jones, J.B.

(2004) Efficacy of plant growth promoting rhizobacteria, acibenzolar-S-

methyl and soil amendment for integrated management of bacterial wilt on

tomato. Plant Dis. 88: 669-673.

Anjos �.C.T.D., Cavalcante U.M.T., Gonçalves, D.M.C., Pedrosa, E.M.R., Santos,

V.F. and Maia, L.C. (2010) Interactions between an arbuscular mycorrhizal

fungus (Scutellospora heterogama) and the root-knot nematode (Meloidogyne

incognita) on sweet passion fruit (Passiflora alata). Braz. Arch. Biol. Techn.

53: 801-809.

Anuratha, C.S. and Gnanamanickam, S.S. (1990) Biological control of bacterial wilt

caused by Pseudomonas solanacearum in India with antagonistic bacteria.

Plant Soil 124: 109-116.

Arnon, D.I. (1949) Copper enzymes in isolated chloroplasts. Polyphenoloxidase in

Beta vulgaris. Plant Physiol. 24: 1-15.

Arwiyanto T., Maryudani, Y.S. and Nurcahyanti, S.D. (2010) Protection of eggplant

and chilli from bacterial wilt (Ralstonia solanacearum) with antagonistic

bacteria. ISHS Acta Horticulturae 933: XXVIII International Horticultural

Congress on Science and Horticulture for people (IHC 2010).

Ashoub, A.H. and Amara, M.T. (2010) Biocontrol activity of some bacterial genera

against root-knot nematode, Meloidogyne incognita. J. Am. Sci. 6: 321-328.

��

�

Aspiras, R.B. and de la Cruz, A.R. (1985) Potential biological control of bacterial wilt

in tomato and potato with Bacillus polymyxa FU6 and Pseudomonas

fluorescens. In: Bacterial Wilt Disease in Asia and the South Pacific. G.J.

Persley (Ed.) 89-92 pp. (ACIAR Proceedings No. 13). Australian Centre for

International Agricultural Research, Canberra.

Ateka, E.M., Mwang’ombe, A.W. and Kimenju, J.W. (2001) Studies on the

interaction between Ralstonia solanacearum (Smith) and Meloidogyne spp. in

potato. Afr. Crop Sci. J. 9: 527-535.

Atkinson, G.F. (1892) Some diseases of cotton. Ala. Agr. Exp. Stat. Bull. 41: 1-65.

Badawy, M.E.I (2008) Chemical modification of chitosan: Synthesis and biological

activity of new heterocyclic chitosan derivatives. Polym. Int. 57: 254-261.

Badawy, M.E.I. (2010) Structure and antimicrobial activity relationship of quaternary

N-alkyl chitosan derivatives against some plant pathogens. J. Appl. Polym.

Sci. 117: 960-969.

Badawy, M.E.I. and Rabea, E.I. (2009) Potential of the biopolymer chitosan with

di�erent molecular weights to control postharvest gray mold of tomato fruit.

Postharvest Biol. Tec. 51: 110-117.

Badawy, M.E.I. and Rabea, E.I. (2013) Preparation and antimicrobial activity of O-

(benzoyl) chitosan derivatives against some plant pathogens. Afr. J. Microbiol.

Res. 7: 2259-2268.

Badawy, M.E.I., Rabea, E.I., Rogge, T.M., Stevens, C.V., Smagghe, G., Steurbaut,

W. and Höfte, M. (2004) Synthesis and fungicidal activity of new N,O-acyl

chitosan derivatives. Biomacromolecules 5: 589-595.

Badawy, M.E.I., Rabea, E.I., Rogge, T.M., Stevens, C.V., Steurbaut, W., Höfte, M.,

and Smagghe, G. (2005) Fungicidal and insecticidal activity of O-acyl

chitosan derivatives. Polym. Bull. 54: 279-289.

Bagyaraj, D.J. (1991) Ecology of vesicular arbuscular mycorrhizae. In: Hand Book of

Applied Mycology. D.K. Arora, B. Rai, K.G. Mukerji and G.R. Knudsen (Eds.)

3-34 pp. New York, Marcel Dekker. 1114 pp.

Bagyaraj, D.J. (1992) Mycorrhizal associations in plants. In: Manual of Mycorrhiza

Technology. D.J. Bagyaraj and A. Manjunath (Eds), University of Agricultural

Science, Banglore, India.

��

�

Bagyaraj, D.J., Manjunath, A. and Reddy, D.D.R. (1979) Interaction of vesicular

arbuscular mycorrhiza with root-knot nematodes in tomato. Plant Soil 51:

397-403.

Bailey, K.L. and Lazarovits, G. (2003) Suppressing soil-borne diseases with residue

management and organic amendments. Soil Till. Res. 72: 169-180.

Bais, H.P., Fall, R. and Vivanco, J.M. (2004) Biocontrol of Bacillus subtilis against

infection of Arabidopsis roots by Pseudomonas syringae is facilitated by

biofilm formation and surfactin production. Plant Physiol. 134: 307-319.

Bakker, P.A.H.M., Bakker, A.W., Marugg, J.D., Weisbeek, P.J. and Schippers, B.

(1987) Bioassay for studying the role of siderophores in potato growth

stimulation by Pseudomonas spp. in short potato rotations. Soil Biol. Biochem.

19: 443-449.

Bakker, P.A.H.M., Lamers, J.G., Bakker, A.W., Marugg, J.D., Weisbeek, P.J. and

Schippers, B. (1986) The role of siderophores in potato tuber yield increase by

Pseudomonas putida in a short rotation of potato. Neth. J. Plant Pathol. 92:

249-256.

Bakker, P.A.H.M., Ran, L.X., Pieterse, C.M.J. and Van Loon, L.C. (2003)

Understanding the involvement of rhizosphere-mediated induction of systemic

resistance in biocontrol of plant diseases. Can. J. Plant Pathol. 25: 5-9.

Bangera, M.G. and Thomashow, L.S. (1996) Characterization of a genomic locus

required for synthesis of the antibiotic 2,4-diacetylphloroglucinol by the

biological control agent Pseudomonas fluorescens Q2-87. Mol. Plant-Microbe

Interact. 9: 83-90.

Barber, M.S., Bertram, R.E. and Ride, J.P. (1989) Chitin oligosaccharides elicit

lignification in wounded wheat leaves. Physiol. Mol. Plant Pathol. 34: 3-12.

Barea, J.M., Pozo, M.J., Azcón, R. and Azócn-Aguilar, C. (2005) Microbial co-

operation in the rhizosphere. J. Exp. Bot. 56: 1761-1778.

Bautista-Baños, S., Hernández-Lauzardo, A.N., Velázquez-Del Valle, M.G.,

Hernández-López, M., Ait Barka, E., Bosquez-Molina, E. and Wilson, C.L.

(2006) Chitosan as a potential natural compound to control pre and

postharvest diseases of horticultural commodities. Crop Prot. 25: 108-118.

Becker, J.O. and Cook, R.J. (1988) Role of siderophores in suppression of Pythium

species and production of increased-growth response of wheat by fluorescent

pseudomonads. Phytopathology 78: 778-782.

��

�

Beckman, C.H. (1987) The Nature of Wilt Diseases of Plants. C.H. Beckman (Ed.)

APS Press, St. Paul, MN, USA. 175 pp.

Bell, N.I., Watson, R.N. and Sarathchandra, S.U. (2000) Suppression of plant

parasitic nematodes in pastoral soils amended with chitin. N. Z. Plant Prot. 53:

44-47.

Beniziri, E., Baudoin, E. and Guckert, A. (2001) Root colonization by inoculated

plant growth promoting rhizobacteria. Biocontrol Sci. Technol. 11: 557-574.

Berlinger, M.J. (1986) Pest. In: The Tomato Crop: A scientific basis for improvement.

J.G. Atherton and J. Rudich. (Eds.) pp. 391-432. Chapman and Hall, London.

684 pp.

Bhagawati, B., Gogoi, R. and Phukan, P.N. (1996) Interaction of Meloidogyne

incognita and Pseudomonas solanacearum on jute. Indian J. Nematol. 26:

259-261.

Bhagawati, B., Goswami, B.K. and Singh, S. (2000) Management of disease complex

of tomato caused by Meloidogyne incognita and Fusarium oxysporum f. sp.

lycopersici through bioagent. Indian J. Nematol. 30: 16-22.

Bhat, M.S. and Mahmood, I. (2000) Role of Glomus mosseae and Paecilomyces

lilacinus in the management of root knot nematode on tomato. Arch.


Bhatti, D.S. and Jain, R.K. (1977) Estimation of losses in okra, tomato and brinjal

yield due to Meloidogyne incognita. Indian J. Nematol. 7: 37-41.

Biswas, S. and Singh, N.P. (2008) Integrated management of wilt of tomato caused by

Ralstonia solanacearum. Indian J. Mycol. Pl. Pathol. 38: 182-184.

Blancard, D. (1997) A Colour Atlas of Tomato Diseases: Observations, Identification

and Control. D. Blancard (Ed.) John Wiley and Sons, New York. 212 pp.

Bloemberg, G.V. and Lugtenberg, B.J.J. (2001) Molecular basis of plant growth

promotion and biocontrol by rhizobacteria. Curr. Opin. Plant Biol. 4: 343-

350.

Bodker, L., Kjoller, R. and Rosendahl, S. (1998) Effect of phosphate and arbuscular

mycorrhizal fungus Glomus intraradices on disease severity of root rot of peas

(Pisum sativum) caused by Aphanomyces euteiches. Mycorrhiza 8: 169-174.

Bookbinder, M.G., Bloom, J.R. and Lukezic, F.L. (1982) Interactions among selected

endoparasitic nematodes and three Pseudomonads on alfalfa. J. Nematol. 14:

105-109.

��

�

Borah, A. and Phukan, P.N. (2003) Effect of interaction of Glomus fasiculatum and

Meloidogyne incognita on growth of brinjal. Ann. Plant Protec. Sci. 11: 352-

354.

Brown, M.B., Luis E.M. and de Castro, A.M. (1996) Vesicular-arbuscular

mycorrhizal fungus as a biological control agent of bacterial wilt caused by

Pseudomonas solanacearum. 3 Asia-Pacific Biotechnology Congress, Makati

City (Phillippines) 22-24 May.

Brumbley, S.M. and Denny, T.P. (1990) Cloning of wild-type Pseudomonas

solanacearum phcA, a gene that when mutated alters expression of multiple

traits that contribute to virulence. J. Bacteriol. 172: 5677-5685.

Buddenhagen, I.W. and Kelman, A. (1964) Biological and physiological aspects of

bacterial wilt caused by Pseudomonas solanacearum. Annu. Rev. Phytopathol.

2: 203-230.

Buddenhagen, I.W., Sequeira, L. and Kelman, A. (1962) Designation of races in

Pseudomonas solanacearum. Phytopathology 52: 726.

Bull, C.T., Weller, D.M. and Thomashow, L.S. (1991) Relationship between root

colonization and suppression of Gaeumannomyces graminis var. tritici by

Pseudomonas fluorescens strain 2-79. Phytopathology 81: 954-959.

Burr, T.J., Schroth, M.N. and Suslow, T. (1978) Increased potato yields by treatment

of seed pieces with specific strains of Pseudomonas fluorescens and P. putida.

Phytopathology 68: 1377-1383.

Buysens, S., Heungens, K., Poppe, J. and Hofte, M. (1996) Involvement of pyochelin

and pyoverdin in suppression of Pythium induced damping-off of tomato by

Pseudomonas aeruginosa 7NSK2. Appl. Environ. Microbiol. 62: 865-871.

Caillaud, M., Dubreuil, G., Quentin, M., Perfus-Barbeoch, L., Lecomte, P., Engler,

J.A., Abad, P., Rosso, M. and Favery, B. (2008) Root-knot nematodes

manipulate plant cell functions during a compatible interaction. J. Plant

Physiol. 165: 104-113.

Calvet, C., Pinochet, J., Hernandez-Dorrego, A., Estaun, V. and Camprubi, A. (2001)

Field microplot performance of the peach-almond GF-677 after inoculation

with arbuscular mycorrhizal fungi in a replant soil infested with root-knot

nematode. Mycorrhiza 10: 295-300.

��

�

Carling, D.E., Roncadori, R.W. and Hussey, R.S. (1996) Interactions of arbuscular

mycorrhizae, Meloidogyne arenaria, and phosphorus ferlilization on peanut.

Mycorrhiza 6: 9-13.

Carne, W.M. (1926) Earcockle (Tylenchulus tritici) and bacterial disease

(Pseudomonas tritici) of wheat. J. Agric. West Aust. 3: 508-512.

Castillo, J.A. and Greenberg, J.T. (2007) Evolutionary dynamics of Ralstonia

solanacearum. Appl. Environ. Microbiol. 73: 1225-1238.

Caubel, G. and Samson, R. (1984) Effect of stem nematode (Ditylenchus dipsaci) on

the development of a bacterial disease of garlic (Allium sativum L.) caused by

a biovar of Pseudomonas fluorescens. Agronomie 4: 311-313.

Chakravarty, G. and Kalita, M.C. (2011) Management of Bacterial wilt of brinjal by

P. fluorescens based formulation. ARPN J. Agric. Biol. Sci. 6: 1-11.

Chapman, R.A. (1959) Development of Pratylenchus penetrans and

Tylenchorhynchus martini on red clover and alfalfa. Phytopathology 49: 357-

359.

Charchar, J.M., Lopes, C.A., Oliveira, V.R. and Moita, A.W. (2007) Effects of

fumigants nematicides and genotype resistance on the damages of

Meloidogyne spp. and Ralstonia solanacearum in potato. Nematol. Brasil. 31:

20-26.

Chen, W.Y. (1984) Influence of the root-knot nematode on wilt resistance of the flue-

cured tobacco infested by Pseudomonas solanacearum. Bull. Tobacco Res.

Institute, Taiwan 21: 44-48.

Chen, X.H., Koumoutsi, A., Scholz, R., Schneider, K., Vater, J., Sussmuth, R., Piel, J.

and Borriss, R. (2009a) Genome analysis of Bacillus amyloliquefaciens

FZB42 reveals its potential for biocontrol of plant pathogens. J. Biotechnol.

140: 27-37.

Chen, X.H., Scholz, R., Borriss, M., Junge, H., Mögel, G., Kunz, S. and Borriss, R.

(2009b) Difficidin and bacilysin produced by plant-associated Bacillus

amyloliquefaciens are efficient in controlling fire blight disease. J. Biotechnol.

140: 38-44.

Chen, Y., Yan, F., Chai, Y., Liu, H., Kolter, R., Losick, R. and Guo, J.H. (2013)

Biocontrol of tomato wilt disease by Bacillus subtilis isolates from natural

environments depends on conserved genes mediating biofilm formation.

Environ. Microbiol. 15: 848-864.

��

�

Chindo, P.S. and Khan, F.A. (1988) Relationship between initial population densities

of Meloidogyne incognita race-1 and growth and yield of tomato. Pak. J.

Nematol. 6: 93-100.

Chindo, P.S., Khan, F.A. and Erinle, I.D. (1991) Reaction of three tomato cultivars to

two vascular diseases in presence of the root-knot nematode, Meloidogyne

incognita race-1. Crop Prot. 10: 62-64.

Ciampi, L., Burzio, L.O. and Burzio, L.A. (1997) Carriers for Pseudomonas

fluorescens, antagonistic to Pseudomonas (Ralstonia) solanacearum, causal

agent of bacterial wilt. Fitopathologia 32: 64-70.

Ciampi-Panno, L., Fernandez, C., Bustamante, P., Andrade, N., Ojeda, S. and

Contreras, A. (1989) Biological control of bacterial wilt of potatoes caused

by Pseudomonas solanacearum. Am. Potato J. 66: 315-332.

Cissé, M., Kouakou, A.C., Montet, D., Loiseau, G., Ducamp-Collin, M.N. (2013)

Antimicrobial and physical properties of edible chitosan films enhanced by

lactoperoxidase system. Food Hydrocolloids 30: 576-580.

Cladera-Olivera, F., Caron, G.R., Motta, A.S., Souto, A.A. and Brandelli, A. (2006)

Bacteriocin like substance inhibits potato soft rot caused by Erwinia

carotovora. Can. J. Microbiol. 52: 533.

Clough, S.J., Flavier, A.B., Schell, M.A. and Denny, T.P. (1997) Differential

expression of virulence genes and motility in Ralstonia (Pseudomonas)

solanacearum during exponential growth. Appl. Environ. Microbiol. 63: 844-

850.

Collins, K. (2007) Benefits of eating tomatoes. www.msnbc.msn.comretrieved

06/06/09.

Colyer, P. and Mount, M.S. (1984) Bacterization of potatoes with Pseudomonas

putida and its influence on post harvest soft rot diseases. Plant Dis. 68: 703-

706.

Conn, E.E. and Stumpf, P.K. (1972) Outlines of Biochemistry (3rd ed.) E.E. Conn and

P.K. Stumpf (Eds.). John Wiley and Sons, New York. xii+535 pp.

Conrath, U., Domard, A. and Kauss, H. (1989) Chitosan-elicited synthesis of callose

and of coumarin derivatives in parsley cell suspension cultures. Plant Cell

Rep. 8: 152–155.

Cook, D., Barlow, E. and Sequeira, L. (1989) Genetic diversity of Pseudomonas

solanacearum: Detection of restriction fragment length polymorphisms with

��

�

DNA probes that specify virulence and the hypersensitive response. Mol.

Plant-Microbe Interact. 2: 113-121.

Cook, D., Barlow, E. and Sequeira, L. (1991) DNA probes as tools for the study of

host-pathogen evolution: The example of Pseudomonas solanacearum. In:

Advances in Molecular Genetics of Plant-microbe Interactions. H. Henneke

and D.P.S. Verma (Eds.) 103-108 pp. Kluwer Academic Publishers,

Dordrecht, Netherlands. 482 pp.

Coqueiro, D.S.O., Maraschin, M. and Di Piero, R.M. (2011) Chitosan reduces

bacterial spot severity and acts in phenylpropanoid metabolism in tomato

plants. J. Phytopathol. 159: 488-494.

Cronin, D., Moënne-Loccoz, Y., Fenton, A., Dunne, C., Dowling, D.N. and O’Gara,

F. (1997) Ecological interaction of a biocontrol Pseudomonas fluorescens

strain producing 2,4-diacetylphloroglucinol with the soft rot potato pathogen

Erwinia carotovora subsp. atroseptica. FEMS Microbiol. Ecol. 23: 95-106.

Crosse, J.E. and Pitcher, R.S. (1952) Studies in the relationship of eelworms and

bacteria to certain plant diseases I. The etiology of strawberry cauliflower

disease. Ann. Appl. Biol. 39: 475-486.

Da Silveira, E.B., de Mariano, R.L.R., Michereff, S.J. and Menezes, M. (1995)

Antagonism of Bacillus spp. against Pseudomonas solanacearum and effect

on tomato seedling growth. Fitopathol. Bras. 20: 605-615.

Daiber, K.C. (1990) Effects of egg density on the population dynamics of

Meloidogyne incognita and M. javanica and on growth and yield of tomatoes.

Phytophylactica 22: 303-306.

Danks, C. and Barker, I. (2000) On-site detection of plant pathogens using lateral-

flow devices. Bull. OEPP 30: 421-426.

Das, P.K. and Sukul, N.C. (1984) The influence of inoculum density of root-knot

nematodes, soil type and irrigation on the growth and root gall formation of

tomato plants. Visva-Bharati J. Res. 5: 158-192.

Davey, C.B. (1996) Nursery soil management-organic amendments. In: National

proceedings, forest and conservation nursery associations. T.D. Landis and

D.B. Douth, (Tech. Coordinators). General Technical Report PNW-GTR-389.

USDA Forest Service PNWRS, pp. 6-18.

��

�

De Lannoy, G. (2001) Vegetables. In: Crop Production in Tropical Africa. R.H.

Raemaekers (Ed.) pp. 403-511. DGIC, Brussels, Belgium. 1540 pp.

De Meyer, G., Capieau, K., Audenaert, K., Buchala, A., Métraux, J.P. and Höfte, M.

(1999) Nanogram amounts of SA produced by the rhizobacterium P.

aeruginosa 7NSK2 activate the SAR pathway in bean. Mol. Plant-Microbe

Interact. 12: 450-458.

De Moura, R.M., Echandi, E. and Powell, N.T. (1975) Interaction of

Corynebacterium michiganense and Meloidogyne incognita on tomato.


De Weger, L.A., van Arendonk, J.J., Recourt, K., van der Hofstad, G.A., Weisbeek,

P.J. and Lugtenberg, B. (1988) Siderophore-mediated uptake of Fe3+ by the

plant growth-stimulating Pseudomonas putida strain WCS358 and by other

rhizosphere microorganisms. J. Bacteriol. 170: 4693-4698.

Deberdt, P., Quénéhervé, P., Darrasse, A. and Prior, P. (1999) Increased susceptibility

to bacterial wilt in tomatoes by nematode galling and the role of the Mi gene

in resistance to nematodes and bacterial wilt. Plant Pathol. 48: 408-414.

Demir, S. and Akköprü, A. (2005) Using of arbuscular mycorrhizal fungi (AMF) for

biocontrol of soil-borne fungal pathogens. In: Biological control of plant

diseases. S.B. Chincholkar and K.G. Mukerji (Eds.) Howarth Press, NY, USA.

426 pp.

Denny, T. (2006) Plant Pathogenic Ralstonia species. In: Plant-associated Bacteria.

S.S. Gnanamanickam (Ed.) pp. 1-62. Dordrecht, Springer, The Netherlands.

721 pp.

Denny, T.P. and Hayward, A.C. (2001) Ralstonia. In: Laboratory Guide for

Identification of Plant Pathogenic Bacteria. N.W. Schaad, J.B. Jones and W.

Chun, (Eds.) 165-189 pp. APS Press, St. Paul, MN, USA. 373 pp.

Denny, T.P., Brumbley, S.M., Carney, B.F., Clough, S.J. and Schell, M.A. (1994)

Phenotype conversion of Pseudomonas solanacearum: its molecular basis and

potential function. In: Bacterial Wilt: the disease and its causative agent,

Pseudomonas solanacearum. A.C. Hayward and G.L. Hartman (Eds.) 137-143

pp. CAB International, Wallingford, UK. 259 pp.

Devi, S.L. and Dutta, U. (2002) Effect of Pseudomonas fluorescens on root-knot

nematode (Meloidogyne incognita) of okra plant. Indian J. Nematol. 32: 215-

216.

��

�

Devi, T.P. and Goswami, B.K. (1992) Effect of VA-mycorrhiza on the disease

incidence due to Macrophomina phaseolina and Meloidogyne incognita on

cowpea. Ann. Agric. Res. 13: 253-256.

Dhawan, S.C. and Sethi, C.L. (1976) Observations on the pathogenicity of

Meloidogyne incognita to eggplant and on relative susceptibility of some

varieties to the nematode. Indian J. Nematol. 6: 39-46.

Dhruj, I. and Vaishnav, M.U. (1981) Pathogenicity of root-knot nematode on

groundnut. Indian J. Nematol. 11: 217-218.

Di Vito, M., Greco, N. and Carella, A. (1986) Effect of Meloidogyne incognita and

importance of the inoculum on the yield of eggplant. J. Nematol. 18: 487-490.

Di Vito, M., Vovlas, N. and Castillo, P. (2004) Host-parasite relationships of

Meloidogyne incognita on spinach. Plant Pathol. 53: 508-514.

Diab, S., Bashan, Y., Okon, Y. and Henis, Y. (1982) Effects of relative humidity on

bacterial scab caused by Xanthomonas campestris pv. vesicatoria on pepper.


Diedhiou, P.M., Hallmann, J., Oerke, E.C. and Dehne, H.W. (2003) Effects of

arbuscular mycorrhizal fungi and non-pathogenic Fusarium oxysporum on

Meloidogyne incognita infestation of tomato. Mycorrhiza 13: 199-204.

Domsch, K.K.H, Gams, W. and Anderson, T.H. (1980) Beauveria Vuill. 1912. In:

Compendium of Soil Fungi. K.K.H Domsch, W. Gams and T.H. Anderson

(Eds.) 136-140 pp. Academic Press, London, UK. 1264 pp.

Dospekhov, B.A. (1984) Field experimentation. Moscow Russia Mir Publishers 352

pp.

Dougherty, D.E. (1978) Yield reduction in tomato caused by bacterial spot, and

disease control with copper sprays. Proc. Florida State Horticulture Soc. 91:

291-293.

Duffy, B.K. and Defago, G. (1999) Environmental factors modulating antibiotic and

siderophore biosynthesis by Pseudomonas fluorescens biocontrol strains.

Appl. Environ. Microbiol. 65: 2429-2438.

Duijff, B.J., Meijer, J.W., Bakker, P.A.H.M. and Schippers, B. (1993) Siderophore-

mediated competition for iron and induced resistance in the suppression of

Fusarium wilt of carnation by fluorescent Pseudomonas spp. Neth. J. Plant

Pathol. 99: 277-289.

��

�

Duponnois, R. and Cadet, P. (1994) Interactions of Meloidogyne javanica and Glomus

sp. on growth and N2 fixation of Acacia seyal. Afro-Asian J. Nematol. 4: 228-

233.

Dutta, P.K., Tripathi, S., Mehrotra, G.K. and Dutta, J. (2009) Perspectives for

chitosan based antimicrobial films in food applications. Food Chem. 114:

1173-1182.

Eapen, S.J., Beena, B. and Ramana, K.V. (2005) Tropical soil microflora of spice-

based cropping systems as potential antagonists of root-knot nematodes. J.

Invertebrate Pathol. 88: 218-225.

Ehteshamul-Haque, S., Sultana, V., Ara, J., Qasim, R. and Ghaffar, A. (1997) Use of

crustacean chitin and plant growth promoting bacteria for the control of

Meloidogyne javanica root-knot nematode in chickpea. Pak. J. Nematol. 15:

89-93.

El Hadrami, A., Adam, L.R., El Hadrami, I. and Daayf, F. (2010) Chitosan in plant

protection. Mar. Drugs. 8: 968–987.

El-Goorani, M.A., Abo-El-Dahab, M.K. and Mehiar, F.F. (1974) Interaction between

root-knot nematode and Pseudomonas marginata on gladiolus corms.


Elphinstone, J.G. (2005) The current bacterial wilt situation: a global overview. In:

Bacterial Wilt Disease and the Ralstonia solanacearum Species Complex. C.

Allen, P. Prior, and A.C. Hayward (Eds.) 9-28 pp. APS Press, St. Paul, MN,

USA. 528 pp.

Elphinstone, J.G., Stanford, H.M. and Stead, D.E. (1998) Survival and transmission of

Ralstonia solanacearum in aquatic plants of Solanum dulcamara and

associated surface water in England. OEPP Bull. 28: 93-94.

Elsen, A., Declerck, S. and De Wasele, D. (2002) Effects of three arbuscular

mycorrhizal fungi on root-knot nematode (Meloidogyne spp.) infection of

Musa. Infomusa 11: 21-23.

El-Shanshoury, A.R., Abu El-Sououd, S.M., Awadella, O.A. and El-Bandy, N.B.

(1996) Effects of Streptomyces corchorusii, Streptomyces mutabilis,

pendimethalin and metribuzin on the control of bacterial and Fusarium wilt of

tomato. Can. J. Bot. 74: 1016-1022.

��

�

El-Sherif, A.G. and Elwakil, M.A. (1991) Interaction between Meloidogyne incognita

and Agrobacterium tumefaciens or Fusarium oxysporum f. sp. lycopersici on

tomato. J. Nematol. 23: 239-242.

El-Sherif, A.G., Refaei, A.R., El-Nagar, M.E., Hagar and Salem, M.M. (2007) The

role of eggs inoculum level of Meloidogyne incognita on their reproduction

and host reaction. Afr. J. Agric. Res. 2: 159-163.

EPPO (2004) EPPO Standards PM 7/21. Diagnostic protocols for regulated pests:

Ralstonia solanacearum. EPPO Bull. 34: 173-178.

Fegan, M. and Prior, P. (2005) How complex is the "Ralstonia solanacearum species

complex"? In: Bacterial Wilt Disease and the Ralstonia solanacearum Species

Complex. C. Allen, P. Prior and A.C. Hayward (Eds.) 449-462 pp. APS press,

St. Paul, MN, USA. 528 pp.

Felix, G., Baureithel, K. and Boller, T. (1998) Desensitization of the perception

system for chitin fragments in tomato cells. Plant Physiol. 117: 643-650.

Felix, G., Regenass, M. and Boller, T. (1993) Specific perception of subnanomolar

concentrations of chitin fragments by tomato cells: Induction of extracellular

alkalinization, changes in protein phosphorylation, and establishment of a

refractory state. Plant J. 4: 307-316.

Fortnum, B.A., Decoteau, D.R. and Kasperbauer, M.J. (1997) Colored mulches affect

yield of fresh tomato infected with Meloidogyne incognita. J. Nematol. 29:

538-546.

Foster, R.C. (1986) The ultrastructure of the rhizoplane and rhizosphere. Annu. Rev.

Phytopathol. 24: 211-234.

Fourie, H. and McDonald, A.H. (2000) Nematodes. ARCLNR Leaflet. Crop Prot.

Ser. 18: 4-8.

Frank, A.B. (1885) Über die auf Würzelsymbiose beruhende Ehrnährung gewisser

Bäum durch unterirdische Pilze. Ber. Deut. Bot. Ges. 3: 128-145.

French, E.R., Gutarra, L., Aley, P. and Elphinstone, J. (1995) Culture media for

Pseudomonas solanacearum isolation, identification and maintenance.

Fitopatologia 30: 126-130.

Furaya, N., Yamasaki, S., Nishioka, M., Shirasshi, I., Ityama, K. and Matsuyama, N.

(1997) Antibacterial activities of pseudomonads against plant pathogenic

��

�

organisms and efficacy of Pseudomonas aeruginosa ATCC7700 against

bacterial wilt of tomato. Ann. Phytopathol. Soc. Japan 63: 417-424.

Furaya, N., Kushima, Y., Tsuchiya, K., Matsuyama, N. and Wakimoto S. (1991)

Protection of tomato seedlings by pre-treatment with Pseudomonas glumae

from infection with Pseudomonas solanacearum and its mechanisms. Ann.

Phytopathol. Soc. Japan 57: 363-370.

Garcia-Garrido, J.M. and Ocampo J.A. (1989) Effect of VA mycorrhizal infection of

tomato on damage caused by Pseudomonas syringae. Soil Biol. Biochem. 21:

165-167.

Garcia-Garrido, J.M. and Ocampo, J.A. (1988) Interaction between Glomus mosseae

and Erwinia carotovora and its effect on the growth of tomato plants. New

Phytol. 110: 551-555.

Gaur, A.C. (1985) Phosphate solubilizing microorganisms and their role in plant

growth and crop yield. Proc. Soil Biol. Symp. Hassar, India, pp. 125-138.

Gautam, A., Siddiqui, Z.A. and Mahmood, I. (1995) Integrated management of

Meloidogyne incognita on tomato. Nematol. Medit. 23: 245-247.

Genin, S. and Denny, T.P. (2012) Pathogenomics of the Ralstonia solanacearum

species complex. Annu. Rev. Phytopathol. 50: 67-89.

Gerdemann, J.W. and Nicolson, T.H. (1963) Spores of mycorrhizal endogone species

extracted from soil by wet sieving and decanting. Trans. Br. Mycol. Soc. 46:

235-244.

Gianinazzi, S., Schüepp, H., Barea, J.M. and Haselwandter, K. (2002) Mycorrhizal

Technology in Agriculture: From Genes to Bioproducts. S. Gianinazzi, H.

Schüepp, J.M. Barea and K. Haselwandter (Eds.) Birkhäuser Verlag, Basel-

Boston-Berlin, Switzerland. 296 pp.

Giovannetti, M. and Mosse, B. (1980) An evaluation of techniques for measuring

vesicular arbuscular mycorrhizal infection in roots. New Phytol. 84: 489-500.

Goldstein, A.H. (1986) Bacterial solubilization of mineral phosphates: Historical

perspectives and future prospects. Am. J. Altern. Agric. 1: 51-57.

Golzary, H., Ahmadzadeh, M., Panjehkeh, N., Salari, M. and Sedaghati-Khoravi, E.

(2011) The effects of some biocontrol agents and their combination on root-

knot disease on tomato. In. Plant Dis. 1: 1-11.

Goode, M.J. and Sasser, M. (1980) Prevention - the key to controlling bacterial spot

and bacterial speck of tomato. Plant Dis. 64: 831-834.

��

�

Goodman, R.N., Király, Z. and Zaitlin, M. (1967) The Biochemistry and Physiology

of Infectious Plant Disease. Z. Király and M. Zaitlin (Eds.) Van Nostrand,

Princeton, New Jersey. 354 pp.

Goy, R.C., De Britto, D. and Assis, O.B.G. (2009) A review of the antimicrobial

activity of chitosan. Polimeros 19: 241-247.

Griffin, G.D., Anderson, J.L. and Jorgenson, E.C. (1968) Interaction of Meloidogyne

hapla and Agrobacterium tumefasciens in relation to raspberry cultivars. Plant

Dis. Rep. 52: 492-493.

Guidot A., Prior P., Schoenfeld J., Carrére, S., Genin S. and Boucher, C. (2007)

Genomic structure and phylogeny of the plant pathogen Ralstonia

solanacearum inferred from gene distribution analysis. J. Bacteriol. 189:

377-387.

Guo, J-H, Qi, H-Y, Guo, Y-H, Ge, H-L, Gong, L-Y, Zhang, L-X, and Sun, P-H

(2004) Biocontrol of tomato wilt by plant growth-promoting rhizobacteria.

Biol. Control 29: 66-72.

Guo, Z., Chen, R., Xing, R., Liu, S., Yu, H., Wang, P., Li, C. and Li, P. (2006) Novel

derivatives of chitosan and their antifungal activities in vitro. Carbohydr. Res.

34: 351-354.

Gupta, C.P., Sharma, A., Dubey, R.C. and Maheshwari, D.K. (1999) Pseudomonas

aeruginosa (GRC1) as a strong antagonist of Macrophomina phaseolina and

Fusarium oxysporum. Cytobios 99: 183-189.

Gupta, D.C. and Yadav, B.S. (1979) Studies on the pathogenicity of reniform

nematode Rotylenchulus reniformis to urd Vigna mungo (L.) Wilczek. Indian

J. Nematol. 9: 48-50.

Gupta, P. and Swarup, G. (1972) Ear-Cockle and yellow ear-rot diseases of wheat: I

Nematode bacterial association. Nematologica 18: 320-324.

Gupta, S.C. and Namdeo, S.L. (1997) Effect of Rhizobium, phosphate solubilizing

bacteria and FYM on nodulation, grain yield and quality of chickpea. Indian

J. Pulse Res. 10: 171-174.

Hadwiger, L.A. and Beckman, J.M. (1980) Chitosan as a component of pea-Fusarium

solani interactions. Plant Physiol. 66: 205-211.

Hajra, N., Shahina, F. and Firoza, K. (2013) Biocontrol of root-knot nematode by

arbuscular mycorrhizal fungi in Luffa cylindrica. Pak. J. Nematol. 31: 77-84.

��

�

Halder, A.K., Mishra, A.K. and Chakarbarthy, P.K. (1991) Solubilization of inorganic

phosphate by Bradyrhizobium. Ind. J. Exp. Biol. 29: 28-31.

Hallmann, J., Quadt-Hallmann, A., Mahaffee, W.F. and Kloepper, J.W. (1997)

Bacterial endophytes in agricultural crops. Can. J. Microbiol. 43: 895-914.

Hallmann, J., Rodriguez-Kabana, R. and Kloepper, J.W. (1999) Chitin-mediated

changes in bacterial communities of the soil rhizosphere and within roots of

cotton in relation to nematode control. Soil Biol. Biochem. 31: 551-560

Halos, P.M. and Zorilla, Z.A. (1979) Vesicular arbuscular mycorrhizae increase

growth and yield of tomatoes and reduce infection by Pseudomonas

solanacearum. Phillippines Agric. 62: 309-315.

Hamid, M., Siddiqui, I.A. and Shaukat, S.S. (2003) Improvement of Pseudomonas

fluorescens CHAO biocontrol activity against root-knot nematode by the

addition of ammonium molybdate. Lett. Appl. Microbiol. 36: 239-244.

Handelsman, J. and Stabb, E.V. (1996) Biocontrol of soilborne plant pathogens. Plant

Cell 8: 1855-1869.

Hashmi, G., Huettel, R.N., Hammerschlag, F.A. and Krusberg, L.R. (1994) Optimal

levels of Meloidogyne incognita inoculum for infection of tomato and peach in

vitro. J. Nematol. 26: 531-534.

Hawn, E.J. (1963) Transmission of bacterial wilt of alfalfa by Ditylenchus dipsaci.

Nematologica 9: 65-68.

Hawn, E.J. (1965) Influence of stem nematode infestation on the development of

bacterial wilt in irrigated alfalfa. Nematologica 11: 39.

Hayward, A.C. (1964) Characteristics of Pseudomonas solanacearum. J. Appl.

Bacteriol. 27: 265-277.

Hayward, A.C. (1994) The hosts of Pseudomonas solanacearum. In: Bacterial Wilt:

The Disease and its Causative Agent, Pseudomonas solanacearum. A.C.

Hayward and G.L. Hartman (Eds.) 9-24 pp. CAB International, Wallingford,

UK. 259 pp.

Hayward, A.C. (1991) Biology and epidemiology of bacterial wilt caused by

Pseudomonas solanacearum. Annu. Rev. Phytopathol. 29: 65-87.

Hayward, A.C. and Hartman, G.L. (1994) Bacterial Wilt: The Disease and its

Causative Agent, Pseudomonas solanacearum. A.C. Hayward and G.L.

Hartman (Eds.) CAB International, Wallingford, UK. 259 pp.

��

�

Hazarika, K. (2003) Interrelationship of Meloidogyne incognita and Pseudomonas

solanacearum on jute and management of the disease complex caused by

them. Ph.D. (Nematology) thesis, submitted to Assam Agricultural University

Johrat-13.

He, L.Y., Sequeira, L. and Kelman, A. (1983) Characteristics of strains of

Pseudomonas solanacearum from China. Plant Dis. 67: 1357-1361.

Hepper, C.M. and Mosse, B. (1980) Vesicular-arbuscular mycorrhiza in root organ

cultures. In : Tissue Culture Methods for Plant Pathologists. D.S. Ingram and

J.P. Helgeson (Eds.) 161-171 pp. Blackwell Scientific Publications, Oxford.

272 pp.

Hikichi, Y., Yoshimochi, T., Tsujimoto, S., Shinohara, R., Nakaho, K., Kanda, A.,

Kiba, A. and Ohnishi, K. (2007) Global regulation of pathogenicity

mechanism of Ralstonia solanacearum. Plant Biotechnol. 24: 149-154.

Hock, B. and Verma, A. (1995) Mycorrhiza: Structure, Function, Molecular Biology

and Biotechnology. Springer, Berlin, Germany. 704 pp.

Horita, M. and Tsuchiya, K. (2001) Genetic diversity of Japanese strains of Ralstonia

solanacearum. Phytopathology 91: 399-407.

Hort, J.G., Krieg, N.R., Sneath, P.H.A., Staley, J.T., and Williams, S.T. (1994)

Bergey’s Manual of Determinative Bacteriology, 9th ed, Baltimore, Williams

and Wilkins. 787 pp.

Hu, J., Jiang, Y-M and Yin, S-X (2000) Inhibition of chitosan-oligosaccharides on

some phytopathogens. J. Yangzhou Univ. Nat. Sci. Ed. 3: 42-44.

Hunger, F.W.T. (1901) Een bacterie-ziekte der tomaat. G. Kolff and Company,

Batavia, in Dutch. 57 pp.

Hussain, Z. and Bora, B.C. (2009) Interrelationship of Meloidogyne incognita and

Ralstonia solanacearum complex in brinjal. Indian J. Nematol. 39: 41-45.

Hussey, R.S. and Roncadori, R.W. (1982) Vesicular arbuscular mycorrhizae may

limit nematode activity and improve plant growth. Plant Dis. 66: 9-14.

Illmer, P. and Schinner F. (1992) Solubilization of hardly-soluble AIPO4 with P-

solubilizing microorganisms. Soil Biol. and Biochem. 24: 389-395.

Jagadeesh, K.S. (2000) Selection of rhizobacteria antagonistic to Ralstonia

solanacearum causing bacterial wilt in tomato and their biocontrol

mechanisms. Ph.D. thesis, submitted to University of Agricultural Sciences,

Dharwad, Karnataka, India.

��

�

Jagadeesh, K.S., Kulkarni, J.H. and Krisharaj, P.U. (2001) Evaluation of role of

fluorescent siderophore in the biological control of bacterial wilt in tomato

using Tn5 mutants of fluorescent Pseudomonas sp. Curr. Sci. 81: 882-883.

Jain, C. and Trivedi, P.C. (2003) Effect of vesicular arbuscular mycorrhiza (VAM) on

root-knot infested Cicer arietinum. In: Proceedings of National Symposium on

Biodiversity and Management of Nematodes in Cropping Systems for

Sustainable Agriculture. R.V. Singh S.C. Dhawan and H.S. Gaur (Eds.)

Jaipur, India. 170-176 pp.

Jain, R.K., Hasan, N., Singh, R.K. and Pandey, P.N. (1998) Influence of the

endomycorrhizal fungus, Glomus fasciculatum on Meloidogyne incognita and

Tylenchorhynchus vulgaris infecting barseem. Indian J. Nematol. 28: 48-51.

Jaizme-Vega, M.C., Rodriguez-Romero, A. and Nunez, A.B.L. (2006) Effect of the

combined inoculation of arbuscular mycorrhizal fungi and plant growth

promoting rhizobacteria on papaya (Carica papaya L.) infected with root-knot

nematode Meloidogyne incognita. Fruits 61: 151-162.

Jaizme-Vega, M.C., Tenoury, P., Pinochet, J. and Jaumot, M. (1997) Interactions

between the root-knot nematode Meloidogyne incognita and Glomus

mosseae in banana. Plant Soil 196: 27-35.

Janse, J.D. (1991) Infra and intraspecific classification of Pseudomonas solanacearum

strains, using whole cell fatty acid analysis. Syst. Appl. Microbiol. 14: 335-

345.

Janse, J.D., Arulappan, F.A.X., Schans, J., Wenneker, M. and Westerhuis, W. (1998)

Experiences with bacterial brown rot R. solanacearum biovar 2, Race 3 in the

Netherlands. In: Bacterial Wilt Disease: Molecular and Ecological Aspects. P.

Prior, C. Allen and J. Elphinstone (Eds.) 146-152 pp. Springer Verlag, Berlin,

Germany. 447 pp.

Jatala, J. and Martin, C. (1977a) Interactions of Meloidogyne incognita acrita and

Pseudomonas solanacearum on field grown potatoes. Proc. Am. Phytopath.

Soc. 4: 177-178.

Jatala, P. and Martin, C. (1977b) Interactions of Meloidogyne incognita acrita and

Pseudomonas solanacearum on Solanum chacoense and Solanum

sparsipilum. Proc. Am. Phytopath. Soc. 4: 178.

��

�

Jaunet, T.X. and Wang, J.F. (1999) Variation in genotype and aggressiveness of R.

solanacearum race-1 isolated from tomato in Taiwan. Phytopathology 89:

320-327.

Jayakumar J., Ramakrishnan, S. and Rajendran, G. (2004) Management of root-knot

nematode, Meloidogyne incognita using marine waste materials in tomato. J.

Ecobiol. 16: 69-70.

Jeffries, P., Gianinazzi, S., Perotto, S., Turnau, K. and Barea, J.M. (2003) The

contribution of arbuscular mycorrhizal fungi in sustainable maintenance of

plant health and soil fertility. Biol. Fertil. Soils 37: 1-16.

Jetiyanon, K. and Kloepper, J.W. (2002) Mixtures of plant growth-promoting

rhizobacteria for induction of systemic resistance against multiple plant

diseases. Biol. Control. 24: 285-291.

Ji, X.L., Lu, G.B., Gai, Y.P., Zheng, C.C. and Mu, Z.M. (2008) Biological control

against bacterial wilt and colonization of mulberry by an endophytic Bacillus

subtilis strain. FEMS Microbiol. Ecol. 65: 565–573.

Jinnah, M.A., Khalequzzaman, K.M., Islam, M.S., Siddiqui, M.A.K.S. and

Ashrafuzzaman, M. (2002) Control of bacterial wilt of tomato by

Pseudomonas fluorescens in the field. Pak. J. Biol. Sci. 5: 1167-1169.

Johnson, H.A. and Powell, N.T. (1969) Influence of root-knot nematodes on bacterial

wilt development in flue-cured tobacco. Phytopathology 59: 486-491.

Jones, J.B., Jones, J.P., Stall R.E. and Zitter, T.A. (1991) Compendium of Tomato

Diseases. J.B. Jones, J.P. Jones, R.E. Stall and T.A. Zitter (Eds.) APS Press,

St.Paul MN, USA. viii + 73 pp. ISBN 0-89054-120-5.

Jones, J.B., Lacy, G.H., Bouzar, H., Stall, R.E. and Schaad, N.W. (2004)

Reclassification of the Xanthomonads associated with bacterial spot disease of

tomato and pepper. Syst. Appl. Microbiol. 27: 755-762.

Jones, J.B., Pohronezny, K.L., Stall, R.E., and Jones, J.P. (1986) Survival of

Xanthomonas campestris pv. vesicatoria in Florida on tomato crop residue,

weeds, seeds, and volunteer tomato plants. Phytopathology 76: 430-434.

Jones, J.B., Stall, R.E. and Bouzar, H. (1998) Diversity among Xanthomonads

pathogenic on pepper and tomato. Annu. Rev. Phytopathol. 36: 41-58.

Jothi, G. and Sundarababu, R. (2000) Interaction of four Glomus spp. with

Meloidogyne incognita on brinjal (Solanum melongena L.). Int. J. Trop.

Plant Dis. 18: 147-156.

��

�

Jothi, G. and Sundarababu, R. (2001) Management of root knot nematode in brinjal

by using VAM and crop rotation with green gram and pearl millet. J. Biol.

Contr. 15: 77-80.

Jothi, G. and Sundarababu, R. (2002) Nursery management of Meloidogyne incognita

by Glomus mosseae in eggplant. Nematol. Medit. 30: 153-154.

Jothi, G., Mani, M.P. and Sundarababu, R. (2000) Management of Meloidogyne

incognita on okra by integrating non-host and endomycorrhiza. Curr.

Nematol. 11: 25-28.

Jurkevitch, E., Hadar, Y. and Chen. Y. (1992) Differential siderophore utilization and

iron uptake by soil and rhizosphere bacteria. Appl. Environ. Microbiol. 58:

119-124.

Kaku, H., Shibuya, N., Xu, P., Aryan, A.P. and Fincher, G.B. (1997) N-

acetylchitooligosaccharide elicitor expression of a single 1,3-�-glucanase gene

in suspension-cultured cells from barley (Hordeum vulgare). Physiol. Plant.

100: 111-118.

Kalaiarasan, P., Lakshmanan, P., Rajendran, G. and Samiyappan, R. (2006) Chitin

and chitinolytic biocontrol agents for the management of root-knot nematode,

Meloidogyne arenaria in groundnut (Arachis hypogaea L.) cv. Co3. Indian J.

Nematol. 36: 181-186.

Kantharaju, V., Krishnappa, K., Ravichandra, N.G. and Karuna, K. (2005)

Management of root- knot nematode, Meloidogyne incognita on tomato by

using indigenous isolates of AM fungus, Glomus fasciculatum. Indian J.

Nematol. 35: 32-36.

Kaul, R.K. and Sethi, C.L. (1982) Interaction amongst Heterodera zeae, Meloidogyne

incognita and Tylenchorhynchus vulgaris on Zea mays. Indian J. Nematol. 12:

91-98.

Keel, C., Schnider, U., Maurhofer, M., Voisard, C., Laville. J, Burger, U., Wirthner,

P., Haas, D. and Défago, G. (1992) Suppression of root diseases by

Pseudomonas fluorescens CHA0: importance of the bacterial secondary

metabolite 2,4-diacetylphloroglucinol. Mol. Plant-Microbe Interact. 5: 4-13.

Kelman, A. (1953) The bacterial wilt caused by Pseudomonas solanacearum. A

literature review and bibliography. North Carolina Agric. Exp. Sta. Tech. Bull.

No. 99, 194 pp.

��

�

Kelman, A. (1954) The relationship of pathogenicity in Pseudomonas solanacearum

to colony appearance on a tetrazolium medium. Phytopathology 44: 693-695.

Kelman, A. (1998) One hundred and one years of research on bacterial wilt. In:

Bacterial Wilt Disease: Molecular and Ecological Aspects. P. Prior, C. Allen

and J. Elphinstone (Eds.) 1-5 pp. Springer Verlag, Berlin, Germany. 447 pp.

Kelman, A. and Hruschka, J. (1973) The Role of motility and aerotaxis in the

selective increase of avirulent bacteria in still broth cultures of Pseudomonas

solanacearum. J. Gen. Microbiol. 76: 177-188.

Kelman, A. and Sequeira, L. (1965) Root-to-root spread of Pseudomonas

solanacearum. Phytopathology 55: 304-309.

Kempe, J. and Sequeira L. (1983) Biological control of bacterial wilt of potatoes:

Attempts to induce resistance by treating tubers with bacteria. Plant Dis. 67:

499-503.

Kendra, D.F. and Hadwiger, L.A. (1984) Characterization of the smallest chitosan

oligomer that is maximally antifungal to Fusarium solani and elicits pisatin

formation in Pisum sativum. Exp. Mycol. 8: 276-281.

Khalil, M.S. and Badawy, M.E.I. (2012) Nematicidal activity of a biopolymer

chitosan at different molecular weights against root-knot nematode,

Meloidogyne incognita. Plant Protect. Sci. 48: 170-178.

Khan, M.R. and Akram, M. (2000) Effects of certain antagonistic fungi and

rhizobacteria on wilt disease complex of tomato caused by Meloidogyne

incognita and Fusarium oxysporum f. sp. lycopersici. Nematol. Medit. 28:

139-144.

Khan, M.R. and Kounsar, K. (2000) Effect of seed treatment with certain bacteria on

the growth of mungbean and reproduction of Meloidogyne incognita. Nematol.

Medit. 28: 221-226.

Khan, M.W., Khan, M.R. and Khan, A.A. (1984) Identity of root-knot nematodes on

certain vegetables of Aligarh district in northern India. Internat. Nematol.

Network Newsl. pp. 6-7

Khan, T.A., Nasir, S. and Ashraf, M.S. (2004) Effect of population levels of

Meloidogyne javanica on plant growth and nematode multiplication on

cucurbits. Pak. J. Nematol. 22: 83-87.

��

�

Khan, Z., Kim, S.G., Jeon, Y.H., Khan, H.U., Son, S.H. and Kim, Y.H. (2008) A plant

growth promoting rhizobacterium, Paenibacillus polymyxa strain GBR-1,

suppresses root-knot nematode. Bioresource Technol. 99: 3016-3023.

Kikuyama, M., Kuchitsu, K. and Shibuya, N. (1997) Membrane depolarization

induced by N- acetylchitooligosaccharide elicitor in suspension-cultured rice

cells. Plant Cell Physiol. 38: 902-909.

Kishun, R. (1985) Effect of bacterial wilt on yield of tomato. Indian Phytopath. 38:

606.

Kishun, R. (1987) Loss in yield of tomato due to bacterial wilt caused by

Pseudomonas solanacearum. Indian Phytopath. 40: 152-155.

Kloepper, J.W., Leong, J., Teintze, M. and Schroth, M.N. (1980) Enhanced plant

growth by plant growth promoting rhizobacteria. Nature 286: 885-886.

Köhle, H., Jeblick, W., Poten, F., Blaschek, W. and Kauss, H. (1985) Chitosan-

elicited callose synthesis in soybean cells as a Ca2+-dependent process. Plant

Physiol. 77: 544-551.

Kokalis-Burelle, N., Martinez-Ochoa, N., Rodríguez-Kábana, R. and Kloepper, J.W.

(2002) Development of multi-component transplant mixes for suppression of

Meloidogyne incognita on tomato (Lycopersicon esculentum). J. Nematol.

34: 362-369

Konda, (2008) Organic nematicide. www.kondalab.com/organic-nematocide.html

Kong, M., Chen, X.G., Xing, K. and Park, H.Y. (2010) Antimicrobial properties of

chitosan and mode of action: a state of the art review. Int. J. Food Microbiol.

144: 51-63.

Korayem, A.M., Youssef, M.M.A. and Mohamed, M.M.M. (2008) Effect of chitin

and abamectin on Meloidogyne incognita infecting rapeseed. J. Plant Protect.

Res. 48: 365- 370.

Koske, R.E. and Tessier, B. (1983) A convenient, permanent slide mounting medium.

Newslett. Mycol. Soc. Am. 34: 59.

Krause, M.S., De Ceuster, T.J.J., Tiquia, S.M., Michel, F.C., Madden, L.V. and

Hoitnik, H.A.J. (2003) Isolation and characterization of rhizobacteria from

composts that suppress the severity of bacterial leaf spot of radish.


��

�

Kuarabachew, H., Assefa, F. and Hiskias, Y. (2007) Evaluation of Ethiopian isolates

of Psedomonas fluorescens as biocontrol agent against potato bacterial wilt

caused by Ralstonia (Pseudomonas) solanacearum. Acta Agric. Slov. 90: 125-

135.

Kuchitsu, K., Kosaka, H., Shiga, T. and Shibuya, N. (1995) EPR evidence for

generation of hydroxyl radical triggered by N-acetylchitooligosaccharide

elicitor and a protein phosphatase inhibitor in suspension-cultured rice cells.

Protoplasma 188: 138-142.

Kuchitsu, K., Yazaki, Y., Sakano, K. and Shibuya, N. (1997) Transient cytoplasmic

pH change and ion fluxes through the plasma membrane in suspension-

cultured rice cells triggered by N-acetylchitooligosaccharide elicitor. Plant

Cell Physiol. 38: 1012-1018.

Kumar A., Sarma, Y.R. and Anandaraj, M. (2004) Evaluation of genetic diversity of

R. solanacearum causing bacterial wilt of ginger using REP-PCR and PCR-

RFLP. Curr. Sci. 87: 1555-1561.

Kumar, P. and Sood, A.K. (2001) Integration of antagonistic rhizobacteria and soil

solarization for the management of bacterial wilt of tomato caused by

Ralstonia solanacearum. Indian Phytopath. 54: 12-15.

Kumar, P. and Sood, A.K. (2002) Management of bacterial wilt of tomato with VAM

and bacterial antagonists. Indian Phytopath. 55: 513-515.

Kurppa, S. and Vrain, T.C. (1985) Penetration and feeding behavior of Pratylenchus

penetrans in strawberry roots. Rev. Nematol. 8: 273-276.

Labeena, P., Sreenivasa, M.N. and Lingaraju, S. (2002) Interaction effects between

arbuscular mycorrhizal fungi and root-knot nematode Meloidogyne incognita

on tomato. Indian J. Nematol. 32: 118-120.

Ladner, D.C., Tchounwou, P.B. and Lawrence, G.W. (2008) Evaluation of the effect

of ecologic on root knot nematode, Meloidogyne incognita, and tomato plant,

Lycopersicon esculentum. In. J. Environ. Res. Public Health 5: 104-110

Lavie, M., Seunes B., Prior P., Boucher C. (2004) Distribution and sequence analysis

of a family of type III-dependent effectors correlate with the phylogeny of

Ralstonia solanacearum strains. Mol. Plant- Microbe Interact. 17: 931-940.

Lele, V.C., Durgapal, J.C., Agrawal, D.K. and Sethi, C.L. (1978) Crown and root gall

of grape (Vitis vinifera L.) in Andhra Pradesh. Curr. Sci. 47: 280.

��

�

Lemessa, F. and Zeller, W. (2007) Screening rhizobacteria for biological control of

Ralstonia solanacearum in Ethiopia. Biol. Control 42: 336-344.

Leong, J. (1986) Siderophores: their biochemistry and possible role in the biocontrol

of plant pathogens. Annu. Rev. Phytopathol. 24: 187-209.

Li, B., Liu, B., Shan, C., Ibrahim, M., Lou, Y., Wang, Y., Xie, G., Li, H. and Sun. G.

(2013) Antibacterial activity of two chitosan solutions and their effect on rice

bacterial leaf blight and leaf streak. Pest Manag. Sci. 69: 312-320.

Li, B., Su, T., Yu, R., Tao, Z., Wu, Z., Algam, S.A.E., Xie, G.L., Wang, Y. and Sun,

G. (2010a) Inhibitory activity of Paenibacillus macerans and Paenibacillus

polymyxa against Ralstonia solanacearum. Afr. J. Microbiol. Res. 4: 2048-

2054.

Li, B., Liu, B., Su, T., Fang, Y., Xie, G., Wang, G., Wang, Y. and Sun, G. (2010b)

Effect of chitosan solution on the inhibition of Pseudomonas fluorescens

causing bacterial head rot of broccoli. Plant Pathol. J. 26: 189-193.

Li, B., Wang, X., Chen, R., Huangfu, W.G. and Xie, G.L. (2008) Antibacterial

activity of chitosan solution against Xanthomonas pathogenic bacteria isolated

from Euphorbia pulcherrima. Carbohydr. Polym. 72: 287-292.

Li, B., Xie, G.L., Soad, A. and Coosemans, J. (2005) Suppression of Meloidogyne

javanica by antagonistic and plant growth promoting rhizobacteria. J.

Zhejiang Uni. Sci. B 6: 496- 501.

Libman, G., Leach, J.G. and Adams, R.E. (1964) Role of certain plant-parasitic

nematodes in infection of tomatoes by Pseudomonas solanacearum.


Lin, D., Qu, L.J., Gu, H. and Chen, Z. (2001) A 3 center dot 1-Kb genomic fragment

of Bacillus subtilis encodes the protein inhibiting growth of Xanthomonas

oryzae pv. oryzae. J. Appl. Microbiol. 91: 1044-1050.

Linden, J.C. and Stoner, R.J. (2007) Pre-harvest application of proprietary elicitor

delays fruit senescence. Advances in plant ethylene research: Proceedings of

the 7th International Symposium on the Plant Hormone Ethylene. Springer,

Dordrecht, Netherlands, 301-302 pp.

Linderman, R.G. (1994) Role of VAM fungi in biocontrol. In: Mycorrhizae and Plant

Health. F.L. Pfleger and R.G. Linderman (Eds.) 1-26 pp. APS Press, St Paul,

MN, USA. 344 pp.

��

�

Liu, N., Chen, Xi-G, Park, H-J, Liu, C-G, Liu, C-S, Meng, X-H and Yu, Le-J (2006)

Effect of MW and concentration of chitosan on antibacterial activity of

Escherichia coli. Carbohydr. Polym. 64: 60-65.

Liu, Q.G., Li, Z., Tang, Z. and Zeng, X.M. (1999) Control of tobacco bacterial wilt

with antagonistic bacteria and soil amendment. Chinese J. Biol. Control 15:

94-95.

Liu, R., Dai, M., Wu, X., Li, M. and Liu. X. (2012) Suppression of the root-knot

nematode Meloidogyne incognita (Kofoid and White) Chitwood on tomato by

dual inoculation with arbuscular mycorrhizal fungi and plant growth

promoting rhizobacteria. Mycorrhiza 22: 289-296.

Loper, J.E. (1988) Role of fluorescent siderophore production in biological control of

Pythium ultimum by a Pseudomonas fluorescens strain. Phytopathology 78:

166-172.

Loper, J.E. and Buyer, L.S. (1991) Siderophores in microbial interactions on plant

surfaces. Mol. Plant- Microbe Interact. 4: 5-13.

Lopez-Perez, J.A., Le Strange, M., Kaloshian, I. and Ploeg, A.T. (2006) Differential

response of Mi gene-resistant tomato rootstocks to root knot nematodes

(Meloidogyne incognita) Crop Prot. 25: 382-388.

Lozano, J.C. and Sequeira, L. (1970) Differentiation of races of Pseudomonas

solanacearum by a leaf infiltration technique. Phytopathology 60: 833-838.

Lu, K-T, Kuo, C-W and Liu, C-T (2007) Inhibition efficiency of a mixed solution of

bamboo vinegar and chitosan against Ralstonia solanacearum. Taiwan J.

Forest Sci. 22: 329-338.

Lucas, G.B., Sasser, J.N. and Kelman A. (1955) The relationship of root-knot

nematodes to Granville wilt resistance in tobacco. Phytopathology 45: 537-

540.

Lugtenberg, B.J.J., Dekkers, L. and Bloemberg, G.V. (2001) Molecular determinants

of rhizosphere colonization by Pseudomonas. Annu. Rev. Phytopathol. 39:

461-490.

Lwin, M. and Ranamukhaarachchi, S.L. (2006) Development of biological control of

Ralstonia solanacearum through antagonistic microbial populations. Int. J.

Agr. Biol. 8: 657-660.

Mai, W.F. and Abawi, G.S. (1987) Interactions among root knot nematodes and

fusarium wilt fungi on host plants. Annu. Rev. Phytopathol. 25: 317-338.

��

�

Mallesh, S.B., Lingraju, S., Byadgi, A.S., Hegde, Y.R., Mokashi, A.N. and

Krishnaraj, P.U. (2009) Bioefficacy of rhizobacteria on root-knot/wilt disease

complex in coleus and ashwganda. Karnataka J. Agric. Sci. 22: 1116-1120.

Mani, A. and Sethi, C.L. (1984) Plant growth of chickpea as influenced by initial

inoculum levels of Meloidogyne incognita. Indian J. Nematol. 14: 41-44.

Manmeet, M. and Thind, B.S. (2002) Management of bacterial blight of rice with

bioagents. Plant Dis. Res. 17: 21-28.

Masadeh, B., von Alten, H., Grunewaldt-Stoecker, G. and Sikora, R.A. (2004)

Biocontrol of root-knot nematodes using the arbuscular mycorrhizal fungus

Glomus intraradices and the antagonist Trichoderma viride in two tomato

cultivars differing in their suitability as hosts for the nematodes. J. Plant Dis.

Protec. 111: 322-333.

Mayol, P.S. and Bergeson, G.B. (1969) The role of secondary invaders in premature

breakdown of plant roots infected with Meloidogyne incognita. J. Nematol. 1:

17.

McCarter, S.M. (1991) Bacterial Wilt. In: Compendium of Tomato Diseases. J.B.

Jones, J.P. Jones, R.E. Stall and T.A. Zitter (Eds.) 28-29 pp. APS Press, St.

Paul, MN, USA. 73 pp.

McClure, M.A. and Spiegel, Y. (1991) Role of the nematode surface coat in the

adhesion of Clavibacter sp. to Anguina funesta and Anguina tritici.

Parasitology 103: 421-427.

McElroy, F.D. (1977) Effect of two nematode species on establishment, growth and

yield of raspberry. Plant Dis. Rep. 61: 277-279.

McGuire, R.G., Jones, J.B. and Sasser, M. (1986) Tween media for semiselective

isolation of Xanthomonas campestris pv. vesicatoria from soil and plant

material. Plant Dis. 70: 887- 891.

Meenakumari, K.S., Sivaprasad, P., Sulochana, K.K. and Liza, E. (2003) Suppression

of bacterial wilt of chilli and tomato using native isolates of fluorescent

pseudomonads. 6th International PGPR Workshop, Indian Institute of Spices

Research, India, 5-10 October pp. 169-175.

Meziane, H., van der Sluis, I., van Loon, L.C., Höfte, M. and Bakker, P.A.H.M.

(2005) Determinants of Pseudomonas putida WCS358 involved in inducing

systemic resistance in plants. Mol. Plant Pathol. 6: 177-185.

��

�

Miller, R.L. and Higgins, V.J. (1970) Association of cyanide with infection of

birdsfoot trefoil by Stemphylium loti. Phytopathology 60: 104-110.

Minami, E., Kuchitsu, K., He, D.Y., Kouchi, H., Midoh, N., Ohtsuki, Y. and Shibuya,

N. (1996) Two novel genes rapidly and transiently activated in suspension-

cultured rice cells by treatment with N-acetylchitoheptaose, a biotic elicitor

for phytoalexin production. Plant Cell Physiol. 37: 563-567.

MiRiK, M., Aysan, Y. and Cinar, O. (2008) Biological control of bacterial spot

disease of pepper with Bacillus strains. Turk. J. Agric. For. 32: 381-390.

Mishra, A. and Shukla, B.N. (1996) Interaction between Glomus fasciculatum,

Meloidogyne incognita and fungicide on tomato. Indian J. Mycol. Plant

Pathol. 26: 38-44.

Mishra, A. and Shukla, B.N. (1997) Interaction between Glomus fasciculatum and

Meloidogyne incognita on tomato. J. Mycol. Plant Pathol. 27: 199-202.

Mishra, S.D. and Gaur, H.S. (1981) Pathogenicity of Meloidogyne incognita and

Rotylenchulus reniformis to moth bean, Vigna sinensis. Indian J. Nematol. 11:

228-230.

Mojtahedi, H., Lownsbery, B.F. and Moody, E.H. (1975) Ring nematodes increase

development of bacterial cankers in plums. Phytopathology 65: 556-559.

Mokbel, A.A. (2013) Impact of some antagonistic organisms in controlling

Meloidogyne arenaria infecting tomato plants. J. life Sci. Tech. 1: 69-74.

Mukherjee, A. and Sinha Babu, S.P. (2013) Pseudomonas fluorescens mediated

suppression of Meloidogyne incognita infection of cowpea and tomato. Arch.


Mulawarman, J., Hallmann, D., Bell, B., Kopp-Holtwiesche, B. and Sikora, R.A.

(2001) Effects of natural products on soil organisms and plant health

enhancement. Meded Rijksuniv Gent Fak Landbouwkd Toegep Biol Wet. 66:

609-617.

Mulya, K., Watanabe, M., Goto, M., Takikawa, Y. and Tsuyumu S. (1996)

Suppression of bacterial wilt disease of tomato by root dipping with

Pseudomonas fluorescens PfG32- The role of antibiotic substances and

siderophore production. Ann. Phytopathol. Soc. Japan 62: 134-140.

Munnecke, D.E., Chandler, P.A. and Starr, M.P. (1963) Hairy root (Agrobacterium

rhizogenes) of field roses. Phytopathology 53: 788-799.

��

�

Muzzarelli, R.A.A. (1997) Some modified chitosans and their niche applications. In:

Chitin Handbook. R.A.A. Muzzarelli and M.G. peter (Eds.) 47-52 pp.

European Chitin Society, Italy. 528 pp.

Myers, V.C. and Croll, H.M. (1921) The determination of carbohydrates in vegetable

food. J. Biochem. 46: 537-551.

Nagesh, M. and Reddy, P.P. (1997) Management of Meloidogyne incognita on

Crossandra undulaefolia using vesicular arbuscular mycorrhiza, Glomus

mosseae and oil cakes. Mycorrh. News 9: 12-14.

Nagesh, M., Reddy, P.P. and Rao, M.S. (1999a) Comparative efficacy of VAM fungi

in combination with neem cake against Meloidogyne incognita on Crossandra

undulaefolia. Mycorrh. News 11: 11-13.

Nagesh, M., Reddy, P.P., Kumar, M.V.V. and Nagaraju, B.M. (1999b) Studies on

correlation between Glomus fasciculatum spore density, root colonization and

Meloidogyne incognita infection on Lycopersicon esculentum. J. Plant Dis.

Protect. 106: 82-87.

Nagorska, K., Bikowski, M. and Obuchowskji, M. (2007) Multicellular behaviour and

production of a wide variety of toxic substances support usage of Bacillus

subtilis as a powerful biocontrol agent. Acta Biochim. Pol. 54: 495-508.

Naika, S., De-Jeude, J.L., De-Goffau, M., Hilmi, M. and van Dam, B. (2005)

Cultivation of Tomato: Production, Processing and Marketing. B. van Dam

(Ed.) Agromisa Foundation CTA, Wageningen, Netherlands. 92 pp.

Nair, M.G. and Burke, B.A. (1988) A new fatty acid, methyl ester and other

biologically active compounds from Aspergillus niger. Phytochemistry 27:

3169-3173.

Napiere, C.M. and Quinio, A.J. (1980) Influence of root-knot nematode on bacterial

wilt severity in tomato. Ann. Trop. Res. 2: 29-39.

Nassar, S.H. and Mustafa, S.S. (1981) Evaluation of some tomato varieties to the

infection of root-knot nematode. Agri. Res. Rev. 59: 183-190.

Nehra, S. (2004) VAM fungi and organic amendments in the management of

Meloidogyne incognita infected ginger. J. Indian Bot. Soc. 83: 90-97.

Neilands, J.B. (1995) Siderophores: structure and function of microbial iron transport

compounds. J. Biol. Chem. 270: 26723-26726.

��

�

Nelson, L.M. (2004) Plant growth promoting rhizobacteria (PGPR): Prospects for

new inoculants. Crop Manag., doi: 101094/Cm-2004-0301-05-RV.

Nguyen, M.T., Ranamukhaarachchi, S.L. and Hannaway, D.B. (2011) Efficacy of

Antagonist strains of Bacillus megaterium, Enterobacter cloacae, Pichia

guilliermondii and Candida ethanolica against bacterial wilt disease of

tomato. J. Phytol. 3: 1-10.

Nicol, S. (1991) Life after death for empty shells: Crustacean fisheries create a

mountain of waste shells, made of a strong natural polymer, chitin. Now

chemists are helping to put this waste to some surprising uses. New Scientist

1755: 36-38.

Nigh, E.L. Jr (1966) Incidence of crown gall infection in peach as affected by

Javenese root-knot nematode. Phytopathology 56: 150, abstr

Nishizawa, Y., Kawakami, A., Hibi, T., He, D.Y., Shibuya, N. and Minami, E. (1999)

Regulation of the chitinase gene expression in suspension-cultured rice cells

by N-acetylchitooligosaccharides: Differences in the signal transduction

pathways leading to the activation of elicitor-responsive genes. Plant Mol.

Biol. 39: 907-914.

Nojiri, H., Sugimori, M., Yamane, H., Nishimura, Y., Yamada, A., Shibuya, N.,

Kodama, O., Murofushi, N. and Ohmori, T. (1996) Involvement of jasmonic

acid in elicitor-induced phytoalexin production in suspension-cultured rice

cells. Plant Physiol. 110: 387-392.

Norman, J.C. (1992) Tropical vegetable crops. J.C. Norman (Ed.) Arthur H.

Stockwell Ltd Ilfracombe, Great Britain. 244 pp.

Nur, F. (2012) Effectiveness of four plants extracts and chitosan against Xanthomonas

campestris pv. campestris the causal agent of black rot disease on cabbage.

Master thesis submitted to IPB Bogor, Agricultural University.

Odeyemi, I.S., Afolami, S.O. and Sosanya, O.S. (2010) Effect of Glomus mosseae

(arbuscular mycorrhizal fungus) on host-parasite relationship of Meloidogyne

incognita (sourthern root-knot nematode) on four improved cowpea

varieties. J. Plant Prot. Res. 50: 320-325.

OEPP/EPPO (2004) Diagnostic protocols for regulated pests/Protocoles de diagnostic

pour les organismes réglementés Ralstonia solanacearum. EPPO Bull. 34:

173-178.

��

�

Ogunfowora, A.O. (1977) The effects of different population levels of Meloidogyne

incognita on the yield of tomato (Lycopersicon esculentum) in Southwestern

Nigeria. Nigerian J. Pl. Prot. 3: 61-67.

Oka, Y., Chet, I. and Spiegel, I. (1993) Control of root-knot nematode Meloidogyne

javanica by Bacillus cereus. Biocontrol Sci. Technol. 3: 115-126.

Olabiyi, T.I. (2008) Pathogenicity study and nematoxic properties of some plant

extracts on the root-knot nematode pest of tomato, Lycopersicon esculentum

(L.) Mill. Plant Pathol. J. 7: 45-49.

Ongena, M. and Jacques, P. (2008) Bacillus lipopeptides: versatile weapons for plant

disease biocontrol. Trends Microbiol. 16: 115-125.

Ongena, M., Jourdan, E., Adam, A., Paquot, M., Brans, A., Joris, B., Arpigny, J-L and

Thonart, P. (2007) Surfactin and fengycin lipopeptides of Bacillus subtilis as

elicitors of induced systemic resistance in plants. Environ. Microbiol. 9: 1084-

1090.

Oostenbrink, M. (1966) Major characteristics of relation between nematodes and

plants. Meded. Landbouwhogeschool Wageningen 66: 3-46.

Orion, D. and Zutra, D. (1971) Effect of root-knot nematode on the penetration of

crown gall bacteria into almond roots. Israel J. Agric. Res. 21: 27-29.

Ortega-Ortiz, H., Gutiérrez-Rodríguez, Cadenas-Pliego, G. and Luis, I.J. (2010)

Antibacterial activity of chitosan and the interpolyelectrolyte complexes of

poly (acrylic acid)- chitosan. Braz. Arch. Biol. Techn. 53: 623-628.

Osei, K., Osei, M.K., Mochiah, M.B., Lamptey, J.N.L., Bolfrey-Arku, G. and Berchie,

J.N. (2012) Plant parasitic nematodes associated with tomato in Ghana.

Nematol. Medit. 40: 33-37.

Ozgonen, H., Bicici, M. and Erkili, A. (1999) The effect of salicylic acid and

endomycorrhizal fungus G. intraradices on plant development of tomato and

fusarium wilt caused by Fusarium oxysporum f. sp. lycopersici. Turk. J. Agric.

For. 25: 25-29.

Palakshappa, M.G., Kulkarni, S. and Hedge, R.K. (1989) Effect of organic

amendment on the survival activity of Sclerotium rolfsii Sacc., a causal agent

of the foot-rot of betelvine. Mysore J. Agric. Sci. 23: 332-336.

Pandey, A., Trivedi, P., Kumar, B. and Palni, L.M.S. (2006) Characteristics of a

phosphate solubilizing and antagonistic strain of Pseudomonas putida (BO)

��

�

isolated from a sub-alpine location in the Indian Central Himalaya. Curr.

Microbiol. 53: 102-107.

Pandey, R. (2005) Field application of bio-organics in the management of

Meloidogyne incognita in Mentha arvensis. Nematol. Medit. 33: 51-54.

Pandey, R., Gupta, M.L., Singh, S.B. and Kumar, S. (1999) The influence of vesicular

arbuscular mycorrhizal fungi alone or in combination with Meloidogyne

incognita on Hyoscyamus niger L., Bioresource Technol. 69: 275-278.

Pant, V., Hakim, S. and Saxena, S.K. (1983) Effect of different levels of N, P, K on

the growth of tomato Marglobe and on the morphometrics of root-knot

nematode Meloidogyne incognita. Indian J. Nematol. 13: 110-113

Park, K.S. and Kloepper, J.W. (2000) Activation of PR-1a promoter by rhizobacteria

that induce systemic resistance in tobacco against Pseudomonas syringae pv.

tabaci. Biol. Control 18: 2-9.

Parke, J.L. (1990) Population dynamics of Pseudomonas cepacia in the pea

spermosphere in relation to biocontrol of Pythium. Phytopathology 80: 1307-

1311.

Parke, J.L. (1991) Root colonization by indigenous and introduced microorganisms.

In: The Rhizosphere and Plant Growth. D.L. Keister and P.B. Cregan (Eds.)

33-42 pp . Kluwer Academic Publishers, Boston. 386 pp.

Partridge, J.E. (2008) Bacterial wilt of alfalfa. Department of plant pathology.

University of Nebraska-Lincoln. http://

nudistance.unl.edu/homer/disease/agron/alfalfa/AlfBac Wi.html

Pathak, K.N., Roy, S., Ojha, K.L. and Jha, M.M. (1999) Influence of Meloidogyne

incognita on fungal and bacterial wilt complex of banana. Indian J. Nematol.

29: 39-43.

Pattison, T. (2007) Tomato Root-Knot Nematode: Biology, and Control. Department

of Primary Industry and Fishries. Queensland, Australia.

Peeters, N., Guidot, A., Vailleau, F. and Valls, M. (2013) Ralstonia solanacearum, a

widespread bacterial plant pathogen in the post-genomic era. Mol. Plant

Pathol. 14: 651-662.

Pegg, K.G. and Moffett, M.L. (1971) Host range of the ginger strain of Pseudomonas

solanacearum in Queensland. Aust. J. Exp. Agric. Anim. Husb. 11: 696-698.

��

�

Penyalver, R., Oger, P., Lopez, M.M. and Farrand, S.K. (2001) Iron binding

compounds from Agrobacterium spp: Biological control strains

Agrobacterium rhizogenes K84 produce a hydroxamate siderophore. Appl.


Phae, C.G., Shoda, M., Kita, N., Nakano, M. and Ushiyama, K. (1992) Biological

control of crown and root rot and bacterial wilt of tomato by Bacillus subtilis

NB22. Ann. Phytopath. Soc. Japan 58: 329-339.

Pierson, E.A. and Weller, D.M. (1994) Use of mixtures of fluorescent pseudomonads

to suppress take-all and improve the growth of wheat. Phytopathology 84:

940-947.

Pikovskaya, R.E. (1948) Mobilization of phosphorus in soil connection with the vital

activity of some microbial species. Microbiologiya 17: 362-370.

Pinochet, J., Fernandez, C., De Jaimez, M. and Tenoury, P. (1997) Micropropagated

banana infected with Meloidogyne javanica responds to Glomus intraradices

and phosphorus. Hort. Sci. 32: 35-49.

Pitcher, R.S. (1963) Role of plant parasitic nematodes in bacterial diseases.


Pitcher, R.S. (1965) Interrelationships of nematodes and other pathogens of plants.

Helm Abstr 34: 1-17.

Pitcher, R.S. and Crosse, J.E. (1958) Studies in the relationship of eelworm and

bacteria to certain plant disease. I. Further analysis of the strawberry

cauliflower disease complex. Nematologica 3: 244-256.

Pohronezny, K. and Volin, R.B. (1983) The effect of bacterial spot on yield and

quality of fresh market tomatoes. Hort. Science 18: 69-70.

Porter, W.M. (1979) The “most probable number” method for enumerating infective

propagules of vesicular-arbuscular mycorrhizal fungi in soil. Aust. J. Soil Res.

17: 515-519.

Poussier, S., Thoquet, P., Trigalet-Demery, D., Barthet, S., Meyer, D., Arlat, M. and

Trigalet, A. (2003) Host plant-dependent phenotypic reversion of Ralstonia

solanacearum from nonpathogenic to pathogenic forms via alterations in the

phcA gene. Mol. Microbiol. 49: 991-1003.

Poussier, S., Trigalet-Demery, D., Vandewalle, P., Goffinet, B., Luisetti, J. and

Trigalet, A. (2000) Genetic diversity of R. solanacearum as assessed by PCR-

��

�

RFLP of the hrp gene region, AFLP and 16S rRNA sequence analysis, and

identification of an African subdivision. Microbiology 146: 1679-1692.

Pradhan, A., Ganguly, A.K. and Singh, C.S. (2003) Influence of Glomus fasciculatum

on Meloidogyne incognita infected tomato. Ann. Plant Protec. Sci. 11: 346-

348.

Pradhanang, P.M., Elphinstone, J.G. and Fox, R.T.V. (2000) Identification of crop

and weed hosts of Ralstonia solanacearum biovar 2 in the hills of Nepal. Plant

Pathol. 49: 403-413.

Press, C.M., Loper, J.E. and Kloepper, J.W. (2001) Role of iron in rhizobacteria-

mediated induced systemic resistance of cucumber. Phytopathology 91: 593-

598.

Prior, P. and Fegan, M. (2005) Recent developments in the phylogeny and

classification of Ralstonia solanacearum. Acta Horticulturae (ISHS) 695:

127-136.

Priou, S., Marquez, M. and Gutarra, L. (2005) Biological control of bacterial wilt of

potato (Ralstonia solanacearum) using antagonistic Pseudomonas putida

strains. Phytopathology 95 (Supplement) S85.

Rabea, E.I., Badawy, M.E.I., Steurbaut, W. and Stevens, C.V. (2009) In vitro

assessment of N- (benzyl) chitosan derivatives against some plant pathogenic

bacteria and fungi. Eur. Polym. J. 45: 237-245.

Rabea, E.I., Badawy, M.E.I., Stevens, C.V. Smagghe, G. and Steurbaut, W. (2003)

Chitosan as antimicrobial agent: Applications and mode of action.

Biomacromolecules 4: 1457-1465.

Radwan, M.A., Farrag, S.A.A., Abu-Elamayem, M.M., and Ahmed, N.S. (2012)

Extraction, characterization and nematicidal activity of chitin and chitosan

derived from shrimp shell wastes. Biol. Fertil. Soils 48: 463-468.

Ramana, K.V., Eapen, S.J. and Sarma Y.R. (1998) Effect of Meloidogyne incognita,

Pythium aphanidermatum and Ralstonia solanacearum alone and in

combinations in ginger. Proceedings of the Third International Symposium of

Afro Asian Society of Nematologists, April 16-19 ’98, Coimbatore.

Ramesh, R., Joshi, A.A. and Ghanekar, M.P. (2009) Pseudomonads: major

antagonistic endophytic bacteria to suppress bacterial wilt pathogen, Ralstonia

��

�

solanacearum in the eggplant (Solanum melongena L.) World J. Microbiol.

Biotechnol. 25: 47-55.

Ran, L.X., Liu, C.Y., Wu, G.J., van Loon, L.C. and Bakker, P.A.H.M. (2005)

Suppression of bacterial wilt in Eucalyptus urophylla by fluorescent

Pseudomonas spp. in China. Biol. Control. 32: 111-120.

Rane, M.R., Sarode, P.D., Chaudhari, B.L. and Chincholkar, S.B. (2008) Exploring

antagonistic metabolites of estabilished biocontrol agents of marine origin.

Appl. Biochem. Biotechnol. 151: 665-675.

Rao, K.V. and Krishnappa, K. (1995) Integrated management of Meloidogyne

incognita, Fusarium oxysporum f. sp. ciceri wilt disease complex in chickpea.

Int. J. Pest Manag. 41: 234-237.

Rao, M.S. and Gowen, S.R. (1998) Bio-management of Meloidogyne incognita on

tomato by integrating Glomus deserticola and Pasteuria penetrans. J. Plant

Dis. Protec. 105: 49-52.

Rao, M.S., Kerry, B.R., Gowen, S.R., Bourne, J.M. and Reddy, P.P. (1997)

Management of Meloidogyne incognita in tomato nurseries by integration of

Glomus deserticola with Verticillium chlamydosporium. J. Plant Dis. Protect.

104: 419-422.

Rao, M.S., Reddy, P.P. and Mohandas, M.S. (1996) Effect of integration of

Calotropis procera leaf and Glomus fasciculatum on the management of

Meloidogyne incognita infesting tomato. Nematol. Medit. 24: 59-61.

Rao, M.S., Reddy, P.P. and Mohandas, M.S. (1998a) Bio-intensive management of

Meloidogyne incognita on eggplant by integrating Paecilomyces lilacinus

and Glomus mosseae. Nematol. Medit. 26: 213-216.

Rao, M.S., Reddy, P.P. and Nagesh, M. (1999) Bio-management of Meloidogyne

incognita on tomato by integrating Glomus mosseae with Pasteuria

penetrans. Indian J. Nematol. 29: 171-173.

Rao, M.S., Reddy, P.P., Mohandas, M.S., Nagesh, M., and Pankaj (1998b)

Management of root- knot nematode on eggplant by integrating

endomycorrhiza (Glomus fasciculatum) and castor (Ricinus communis) cake.

Nematol. Medit. 26: 217-219.

Ray, S. and Dalei, B.K. (1998) VAM for root-knot nematode management and

increased productivity of grain legumes in Orissa. Indian J. Nematol. 28: 41-

47.

��

�

Reddy, D.D.R. (1985) Analysis of crop losses in tomato due to Meloidogyne

incognita. Indian J. Nematol. 15: 55-59.

Reddy, M.V., Asselin, A. and Arul, J. (1997) Effect of chitosan on tissue maceration

and enzyme production by Erwinia carotovora in potato. Hort. Science 32:

511 (abstr.). SAS Inst., Inc. 1988. SAS users guide: Statistics. Version 6.03.

SAS Inst., Inc., Cary, N.C.

Reddy, P.P. (1974) Studies on the action of amino acids on the root-knot nematode

Meloidogyne incognita. Ph.D. thesis, submitted to University of Agricultural

Sciences Bangalore, India, pp. 276.

Reddy, P.P., Nagesh, M., Devappa, V. and Kumar, M.V.V. (1998) Management of

Meloidogyne incognita on tomato by integrating endomycorrhiza, Glomus

mosseae with oil cakes under nursery and field condition. J. Plant Dis.

Protect. 105: 53-57.

Reddy, P.P., Singh, D.B. and Ramakishun, M. (1979) Effect of root-knot nematodes

on the susceptibility of Pusa Purple Cluster brinjal to bacterial wilt. Curr. Sci.

48: 915-916.

Redecker, D., Morton, J.B. and Bruns, T.D. (2000) Ancestral lineages of arbuscular

mycorrhizal fungi (Glomales). Mol. Phylogen. Evol. 14: 276-284.

Ren, Y.Y. and West, C.A. (1992) Elicitation of diterpene biosynthesis in rice (Oyza

sativa L.) by chitin. Plant Physiol. 99: 1169-1178.

Riker, A.J. and Riker, R.S. (1936) Introduction to Research on Plant Diseases: A

Guide to the Principles and Practice for Studying Various Plant-disease

Promblems. A.J. Riker and R.S. Riker (Eds.) John’s Swift Co. Inc., St. Louis,

Chicago, New York, India. 117 pp.

Ritchie, D.F. (2000) Bacterial spot of pepper and tomato. The Plant Health Instructor.

DOI: 10.1094/PHI-I-2000-1027-01 Updated 2007.��

Robels, J.L. and de Aymerich, V.B. (2005) Improvement of soil health and quality by

reducing plant parasitic nematodes through selected organic amendments. In:

Advances in geoecology. International Symposium: Sustainable use and

Management of Soils in Arid and Semiarid Regions. 36: 421-426 pp.

Roberts, G.A.F. (1992) Chitin Chemistry, Macmillan, Indianapolis, Ind, USA.

Roby, D., Gadelle, A. and Toppan, A. (1987) Chitin oligosaccharides as elicitors of

chitinase activity in melon plants. Biochem. Biophys. Res. Comm. 143: 885-

892.

��

�

Romantschuk, M. (1992) Attachment of plant pathogenic bacteria to plant-surfaces.

Annu. Rev. Phytopathol. 30: 225-243.

Rovira, A.D. (1991) Rhizosphere research-85 years of progress and frustration. In:

The Rhizosphere and Plant Growth. D.L. Keister and P.B. Cregan (Eds.) 3-13

pp. Kluwer Academic Publishers, Boston. 386 pp.

Rubio-Cabetas M., Minot J., Voisin R. and Esmenjaud D. (2001) Interaction of root-

knot nematodes (RKN) and the bacterium Agrobacterium tumefaciens in roots

of Prunus cerasifera: evidence of the protective effect of the Ma RKN

resistance genes against expression of crown gall symptoms. Eur. J. Plant

Pathol. 107: 433-441.

Ryu, C-M, Farag, M.A., Hu, C-H, Reddy, M.S., Kloepper, J.W. and Pare, P.W.

(2004) Bacterial volatiles induce systemic resistance in Arabidopsis. Plant

Physiol. 134: 1017-1026.

Ryu, C-M, Hu, C-H, Reddy, M.S. and Kloepper, J.W. (2003) Different signaling

pathways of induced resistance by rhizobacteria in Arabidopsis thaliana

against two pathovars of Pseudomonas syringae. New Phytol. 160: 413-420.

Safiuddin, Shahab, S., Mazid, M. and Ahmed, D. (2012) Comparative study of

Fusarium oxysporum f sp. lycopersici and Meloidogyne incognita race-2 on

plant growth parameters of tomato. Agric. Sci. 3: 844-847.

Safiyazov, J.S., Mannanov, R.N. and Sattarova, R.K. (1995) The use of bacterial

antagonists for the control of cotton diseases. Field Crop Res. 43: 51-54.

Saikia, S.K., Tiwari, S. and Pandey, R. (2013) Rhizospheric biological weapons for

growth enhancement and Meloidogyne incognita management in Withania

somifera cv. Poshita. Biol. Control 65: 225-234.

Saile, E., McGarvey, J.A., Schell, M.A. and Denny, T.P. (1997) Role of extracellular

polysaccharide and endoglucanase in root invasion and colonization of tomato

plants by Ralstonia solanacearum. Phytopathology 87: 1264-1271.

Salanoubat, M., Genin, S., Artiguenave, F., Gouzy, J., Mangenot, S., Arlat, M.,

Billautt, A., Brottier, P., Camus, J.C., Cattolico, L., Chandler, M., Choisne,

N., Claudel-Renard, C., Cunnac, S., Demange, N., Gaspin, C., Lavie, M.,

Moisan, A., Robert, C., Saurin, W., Schiex, T., Siguier, P., Thébault, P.,

Whalen, M., Wincker, P., Levy, M., Weissenbach, J. and Boucher, C.A.

��

�

(2002) Genome sequence of the plant pathogen Ralstonia solanacearum.

Nature 415: 497-502.

Salem, A.A. and Eissa, M.F.M. (1981) Inoculum potential of the javanese root-knot

nematode, Meloidogyne javanica (Treub, 1885), Chitwood, 1949 in relation to

early growth of squash Cucurbita pepo var. Melopepo. L. Res. Bull. Faculty of

Agri. Zagazing Uni. Egypt. 408: 8.

Salowi, A. (2010) Towards biological control of pistachio dieback. Thesis submitted

for the degree of Master in Agricultural Science, School of Agriculture, Food

and Wine, Faculty of Sciences, University of Adelaide, Waite Campus.

Sankaranarayanan, C. and Sundarababu, R. (1994) Interaction of Glomus

fasciculatum with Meloidogyne incognita inoculated at different timings on

blackgram (Vigna mungo). Nematol. Medit. 22: 35-36.

Sankaranarayanan, C. and Sundarababu, R. (1997a) Effect of oil cakes and

nematicides on the growth of blackgram (Vigna mungo) inoculate with VAM

fungus (Glomus fasciculatum) and root-knot nematode (Meloidogyne

incognita). Indian J. Nematol. 27: 128-130.

Sankaranarayanan, C. and Sundarababu, R. (1997b) Role of phosphobacteria on the

interaction of vesicular arbuscular mycorrhiza (Glomus mosseae) and root

knot nematode (Meloidogyne incognita) on blackgram (Vigna mungo). Int. J.

Trop. Plant Dis. 15: 93-98.

Sankaranarayanan, C. and Sundarababu, R. (1998) Effect of Rhizobium on the

interaction of vesicular arbuscular mycorrhizae and root-knot nematode on

blackgram (Vigna mungo). Nematol. Medit. 26: 195-198.

Sankaranarayanan, C. and Sundarababu, R. (1999) Role of phosphorus on the

interaction of vesicular-arbuscular mycorrhiza (Glomus mosseae) and root-

knot nematode (Meloidogyne incognita) on blackgram. Indian J. Nematol. 29:

105-108.

Santhi, A. and Sundarababu, R. (1998) Effect of chopped leaves and nematicides on

the interaction of Glomus fasciculatum with Meloidogyne incognita on

cowpea. Indian J. Nematol. 28: 114-117.

Sasser, J.N. (1979) Economic importance of Meloidogyne in tropical countries. In:

Root-knot nematode (Meloidogyne species): Systematics, Biology and Control.

��

�

F. Lamberti and C.E. Taylor (Eds.) 359-374 pp. Academic Press, London. 477

pp.

Sasser, J.N. (1980) Root-knot nematode: a global menace to crop production. Plant

Dis. 64: 36-41.

Sasser, J.N. (1989) Plant-parasitic Nematodes: The farmer’s Hidden Enemy. J.N.

Sasser (Ed.) Raleigh, NC, State University, USA. 115 pp.

Sasser, J.N. and Carter, C.C. (1982) Root-knot nematodes (Meloidogyne spp.):

Identification, morphological and physiological variation, host range, ecology

and control. In: Nematology in the Southern Region of the United State. R.D.

Riggs (Ed.) pp. 21-32. South. Coop. Ser. Bull. 276. Arkanass Agri. Exp. Stn.,

Fayetteville. 206 pp.

Saxena, A.K., Lata and Annapurna, K. (2002) Training Manual on Plant Growth

Promoting Rhizobacteria. Division of Microbiology, Indian Agricultural

Research Institute. New Delhi, India. 38 pp.

Saywell, L.G. and Lane E.W. (1933) Comparative effect of tomato and orange juice

on urinary acidity. J. Nutr. 6: 263-270.

Schaad, N.W., Jones, J.B. and Lacy, G.H. (2001) Gram negative bacteria,

Xanthomonas. In: Laboratory Guide for Identification of Plant Pathogenic

Bacteria. N.W. Schaad, J.B. Jones and W. Chun, (Eds.) 165-189 pp. APS

Press, St. Paul, MN, USA. 373 pp.

Schell, M.A. (2000) Control of virulence and pathogenicity genes of Ralstonia

solanacearum by an elaborate sensory network. Annu. Rev. Phytopathol. 38:

263-292.

Schenck, N.C. and Pervez, Y. (1990) A Manual of Vesicular-arbuscular Mycorrhizal

Fungi INVAM 3rd edn., University of Florida, Gaineaville, Florida, 286 pp.

Schroth, M.N. and Hancock, J.G. (1982) Disease suppressive soil and root colonizing

bacteria. Science 216: 1376-1381.

Schussler, A., Schwarzott, D. and Walker, C. (2001) A new fungal phylum, the

Glomeromycota: phylogeny and evolution. Mycol. Res. 105: 1413-1421.

Schussler, A. (2005) www.tudarmstadt.de/fb/bio/bot/schuessler/amphylo/amphylogeny.html.

Scott, J.W., Jones, J.B. and Somodi, G.C. (1989). Genetic resistance to bacterial spot

in tomato. In: Tomato and pepper production in the tropics. Proceedings of the

International Symposium on Integrated Management Practices. 21-26 March,

1988 AVRDC, Taipei, Taiwan.

��

�

Secilia, J. and Bagyaraj, D.J. (1987) Bacteria and actinomycetes associated with pot

cultures of vesicular-arbuscular mycorrhizas. Can. J. Microbiol. 33: 1069-

1073.

Seinhorst, J.W. (1960) Overhet Fepalen von door Saltz veroozaakte

opfrenstvermindering bij culturoge wassen. Meded. Landb. Hooges. Ch. Gent.

25: 1026-1039.

Sekiguchi, S., Miura, Y., Kaneko, H., Nishimura, S-I, Nishi, N., Iwase, M. and

Tokura, S. (1994) Molecular weight dependency of antimicrobial activity by

chitosan oligomers. In: Food Hydrocolloids: Structures, Properties, and

Functions. K. Nishinari and E. Doi (Eds.) 71-76 pp. Plenum, New York, USA.

524 pp.

Seleim, M.A.A., Saead, F.A., Abd-El-Moneem, K.M.H. and Abo-Elyousr, K.A.M.

(2011) Biological control of bacterial wilt of tomato by plant growth

promoting rhizobacteria. Plant Pathol. J. 10: 146-153.

Sequeira, L. (1985) Surface components involved in bacterial pathogen-plant host

recognition. J. Cell Sci. Suppl. 2: 301-316.

Shafi, A., Mahmood, I. and Siddiqui, Z.A. (2002) Integrated management of root-knot

nematode Meloidogyne incognita on chickpea. Thai. J. Agric. Sci. 35: 273-

280.

Shahidi, F. and Synowiecki, J. (1991) Isolation and characterization of nutrients and

value-added products from snow crab (Chinoecetes opilio) and shrimp

(Pandalus borealis) processing discards. J. Agric. Food Chem. 39: 1527-1532.

Sharga, B.M. and Lyon, G.D. (1998) Bacillus subtilis BS 107 as an antagonist of

potato blackleg and soft rot bacteria. Can. J. Microbiol. 44: 777-783.

Sharma, H.K.P. and Mishra, S.D. (2003) Effect of plant growth promoter microbes on

root-knot nematode Meloidogyne incognita on okra. Curr. Nematol. 14: 57-

60.

Sharma, P.D. (2001) Microbiology, Rastogi and Company, Meerut, India, 359 pp.

Sharma, R. and Trivedi, P.C. (1994) Interaction of root-knot nematode, Meloidogyne

incognita and VA mycorrhizae, Glomus fasciculatum and Glomus mosseae on

brinjal (Solanum melongena L.). J. Indian Bot. Soc. 73: 221-224.

Sharma, W. and Trivedi, P.C. (1997) Concomitant effect of Paecilomyces lilacinus

and vesicular arbuscular mycorrhizal fungi on root-knot nematode infested

okra. Ann. Plant Protec. Sci. 5: 70-74.

��

�

Shekhawat, G.S., Singh, R. and Chakrabarti, S.K. (1993) Possibility of biological

management of potato bacterial wilt with microbial antagonists and latent

potato viruses. J. Ind. Potato Asso. 20: 219-222.

Siddiqui, I.A. and Haque, S.E. (2001) Suppression of the root rot-root knot disease

complex by Pseudomonas aeruginosa in tomato: The influence of inoculum

density, nematode population, moisture and other plant associated bacteria.

Plant Soil 237: 81-89.

Siddiqui, I.A. and Shaukat, S.S. (2002) Rhizobacteria-mediated induction of systemic

resistance (ISR) in tomato against Meloidogyne javanica. J. Phytopathol. 150:

469-473.

Siddiqui, I.A., Qureshi, S.A., Sultana, V., Haque, S.E. and Ghaffar, A. (2000)

Biological control of root rot-root knot disease complex in tomato. Plant Soil

227: 163-169.

Siddiqui, I.A., Shaukat, S.S. and Khan, A. (2004) Differential impact of some

Aspergillus species on Meloidogyne javanica biocontrol by Pseudomonas

fluorescens strain CHA0. Lett. Appl. Microbiol. 39: 74-83.

Siddiqui, S., Siddiqui, Z.A. and Iqbal, A. (2005) Evaluation of fluorescent

pseudomonads and Bacillus isolates for the biocontrol of wilt disease complex

of pigeonpea. World J. Microbiol. Biotechnol. 21: 729-732.

Siddiqui, Z.A. (2004) Effects of plant growth promoting bacteria and composted

organic fertilizers on the reproduction of Meloidogyne incognita and tomato

growth. Bioresource Technol. 95: 223-227.

Siddiqui, Z.A. (2006) PGPR: Prospective biocontrol agents of plant pathogens. In:

PGPR Biocontrol and Biofertilization. Z.A. Siddiqui (Ed.) 111-142 pp.

Springer, The Netherlands. 318 pp.

Siddiqui, Z.A. and Akhtar, M.S. (2007a) Effects of AM fungi and organic fertilizers

on the reproduction of the nematode Meloidogyne incognita and on the

growth and water loss of tomato. Biol. Fertil. Soils 43: 603-609.

Siddiqui, Z.A. and Akhtar, M.S. (2007b) Biocontrol of a chickpea root-rot disease

complex with phosphate solubilizing microorganisms. J. Plant Pathol. 89:

67-77.

Siddiqui, Z.A. and Akhtar, M.S. (2008a) Effects of fertilizers, AM fungus and plant

growth promoting rhizobacterium on the growth of tomato and on the

��

�

reproduction of root-knot nematode Meloidogyne incognita. J. Plant Interact.

3: 263-271.

Siddiqui, Z.A. and Akhtar, M.S. (2008b) Synergistic effects of antagonistic fungi and

a plant growth promoting rhizobacterium, an arbuscular mycorrhizal fungus,

or composted cow manure on the populations of Meloidogyne incognita and

growth of tomato. Biocontrol. Sci. Technol. 18: 279-290.

Siddiqui, Z.A. and Akhtar, M.S. (2008c) Effects of organic wastes, Glomus

intraradices and Pseudomonas putida on the growth of tomato and on the

reproduction of root-knot nematode Meloidogyne incognita. Phytoparasitica

36: 460-471.

Siddiqui, Z.A. and Akhtar, M.S. (2009a) Effects of antagonistic fungi and plant

growth promoting rhizobacteria on growth of tomato and reproduction of root-

knot nematode Meloidogyne incognita. Austral. Plant Pathol. 38: 22-28.

Siddiqui, Z.A. and Akhtar, M.S. (2009b) Effects of antagonistic fungi, plant growth

promoting rhizobacteria and arbuscular mycorrhizal fungi alone and in

combination on the reproduction of Meloidogyne incognita and growth of

tomato. J. Gen. Plant Pathol. 75: 144-153.

Siddiqui, Z.A. and Akhtar, M.S. (2009c) Effect of plant growth promoting

rhizobacteria, nematode parasitic fungi and root-nodule bacterium on root-

knot nematodes Meloidogyne javanica and growth of chickpea. Biocontrol.

Sci. Technol. 19: 511-521.

Siddiqui, Z.A. and Hussain, S.I. (1991) Studies on the biological control of root-knot

nematode. Curr. Nematol. 2: 5-6.

Siddiqui, Z.A. and Mahmood, I. (1992) Biological control of root-rot disease complex

of chickpea caused by Meloidogyne incognita race-3 and Macrophomina

phaseolina. Nematol. Medit. 20: 199-202.

Siddiqui, Z.A. and Mahmood, I. (1993) Biological control of Meloidogyne incognita

race 3 and Macrophomina phaseolina by Paecilomyces lilacinus and Bacillus

subtilis alone and in combination of chickpea. Fundam. Appl. Nematol. 16:

215-218.

Siddiqui, Z.A. and Mahmood, I. (1995) Management of Meloidogyne incognita race-3

and Macrophomina phaseolina by fungus culture filtrates and Bacillus subtilis

on chickpea. Fundam. Appl. Nematol. 18: 71-76.

��

�

Siddiqui, Z.A. and Mahmood, I. (1996) Biological control of plant parasitic

nematodes by fungi. A Review. Bioresource Technol. 58: 229-239.

Siddiqui, Z.A. and Mahmood, I. (1997) Interaction of Meloidogyne javanica,

Fusarium solani and plant symbionts on chickpea. Thai. J. Agric. Sci. 30: 379-

388.

Siddiqui, Z.A. and Mahmood, I. (1998) Effect of a plant growth promoting bacterium,

an AM fungus and soil types on the morphometrics and reproduction of

Meloidogyne javanica on tomato. Appl. Soil. Ecol. 8: 77-84.

Siddiqui, Z.A. and Mahmood, I. (1999) Role of bacteria in the management of plant

parasitic nematodes: A Review. Bioresource Technol. 69: 167-179.

Siddiqui, Z.A. and Mahmood, I. (2000) Effects of Bacillus subtilis, Glomus mosseae

and ammonium sulphate on the development of Meloidogyne javanica, and on

growth of tomato. Thai J. Agri. Sci. 33: 29-35.

Siddiqui, Z.A. and Mahmood, I. (2001) Effects of rhizobacteria and root symbionts on

the reproduction of Meloidogyne javanica and growth of chickpea.

Bioresource Technol. 79: 41-45.

Siddiqui, Z.A. and Mahmood, I. (2003) Effects of plant straws and plant growth

promoting bacteria on the reproduction of Meloidogyne incognita and growth

of tomato. Biol. Agri. Horti. 21: 53-62.

Siddiqui, Z.A. and Shakeel, U. (2006) Use of fluorescent pseudomonads isolates for

the biocontrol of wilt disease complex in pigeonpea in greenhouse and under

pot condition. Plant Pathol. J. 5: 99-105.

Siddiqui, Z.A. and Singh, L.P. (2005) Effects of fly ash, Pseudomonas straita and

Rhizobium sp. on the reproduction of nematode Meloidogyne incognita and on

the growth and transpiration of pea. J. Environ. Biol. 26: 117-122.

Siddiqui, Z.A., Akhtar, M.S. and Futai, K. (2008) Mycorrhizae: Sustainable

Agriculture and Forestry. Z.A. Siddiqui, M.S. Akhtar, and K. Futai. (Eds.)

Springer, Dordrecht, Netherlands. 359 pp.

Siddiqui, Z.A., Baghel, G. and Akhtar, M.S. (2007) Biolcontrol of Meloidogyne

javanica by Rhizobium and plant growth promoting rhizobacteria on lentil.

World J. Microbiol. Biotechnol. 23: 435-441.

Siddiqui, Z.A., Iqbal, A. and Mahmood, I. (2001) Effects of Pseudomonas fluorescens

and fertilizers on the reproduction of Meloidogyne incognita and growth of

tomato. Appl. Soil Ecol. 16: 179-185.

��

�

Siddiqui, Z.A., Khan, S. and Mahmood, I. (2002) Use of rhizobacteria for the

management of Meloidogyne incognita on Solanum melongena. Thai. J. Agric.

Sci. 35: 1-8.

Siddiqui, Z.A., Qureshi, A. and Akhtar, M.S. (2009) Biocontrol of root-knot

nematode Meloidogyne incognita by Pseudomonas and Bacillus isolates on

Pisum sativum. Arch. Phytopathol. Plant Protec. 42: 1154-1164.

Sikora, R.A. (1992) Management of the antagonistic potential in agricultural

ecosystems for the biological control of plant parasitic nematodes. Annu. Rev.

Phytopathol. 30: 245-270.

Silveira, E.B., Da, R., De Mariano, L.R. and Micjereff, S.J. (1995) Antagonism of

Bacillus spp. against Pseudomonas solanacearum and effect on tomato

seedling growth. Fitopathol Bras. 20: 605-612.

Simeoni, L.A., Lindsay, W.L. and Baker, R. (1987) Critical iron levels associated

with biological control of Fusarium wilt. Phytopathology 77: 1057-1061.

Singh, R., Soni S.K. and Kalra A. (2013) Synergy between Glomus fasciculatum and

a beneficial Pseudomonas in reducing root diseases and improving yield and

forskolin content in Coleus forskohlii Briq. under organic field conditions.

Mycorrhiza 23: 35-44.

Sitaramaiah, K. and Pathak, K.N. (1993) Nematode bacterial disease interactions. In:

Nematode Interactions. M.W. Khan (Ed.) 232-250 pp. Chapman and Hall,

New York. 377 pp.

Sitaramaiah, K. and Sinha, S.K. (1984a) Histological aspects of Pseudomonas and

root-knot nematode wilt complex in brinjal. Indian J. Nematol. 14: 175-178.

Sitaramaiah, K. and Sinha, S.K. (1984b) Interaction between Meloidogyne javanica

and Pseudomonas solanacearum on brinjal. Indian J. Nematol. 14: 1-5.

Sivaprasad, P., Jacob, A., Nair, S.K. and George, B. (1990) Influence of VA

mycorrhizal colonization on root-knot nematode infestation in Piper nigrum L.

In: Current Trends in Mycorrhizal Research. Proceedings of the National

Conference on Mycorrhiza. B.S. Jalali and H. Chand (Eds.) 100-101 pp.

Haryana Agriculture University. Hissar. 210 pp.

Slack, D.A. (1963) Introduction. Symposium of interrelationships between nematodes

and other agents causing plant diseases. Phytopathology 53: 27-47.

��

�

Smith, E.F. (1920) The brown rot of solanaceae. In: Bacterial Diseases of Plants. E.F.

Smith (Ed.) 177-291 pp. W.B. Saunders Company, London. 725 pp.

Smith, S.E. and Read, D.J. (1997) Mycorrhizal symbiosis. 2nd Edn. S.E. Smith and

D.J. Read (Eds.) Academic press, London. 605 pp.

Sood, A.K., Kalha, C.S. and Prarashar, A. (1997) Managing bacterial wilt of tomato

through host resistance and vesicular arbuscular mycorrhizae. Second

International Bacterial Wilt Symposium, 22-27 June. Gosier, Guadeloupe,

France.

Southey, J.F. (1978) Plant Nematology. J.F. Southey (Ed.) Ministry of Agriculture,

Fisheries and Food. Her Majesty’s Stationery Office, London. 440 pp.

Southey, J.F. (1986) Laboratory Methods for Work with Plant and Soil Nematodes.

6th Edn. J.F. Southey (Ed.) Ministry of Agriculture Fisheries and Food.

Reference book No. 402, HMSO, London, U.K. 202 pp.

Stansbury, C., MCKirdy, S., Mackie, A. and Power, G. (2001) Bacterial wilt

Ralstonia solanacearum race-3, exotic threat to Western Australia. Fact Sheet

ISSN 1443-7783 No. 7.

Stein, T. (2005) Bacillus subtilis antibiotics: structures, syntheses and specific

functions. Mol. Microbiol. 56: 845–857.

Stephan, Z.A. (1983) The effect of different densities of Meloidogyne ardenensis and

of three population of M. hapla on the growth of tomato at four soil

temperatures. Nematol. Medeit. 11: 93-100.

Stevenson, W.R. (2001) Compendium of Potato Diseases. 2nd Edn. W.R. Stevenson,

R. Loria, G.D. Franc and D.P. Weingartner (Eds.) APS press, St. Paul, MN,

USA. 106 pp.

Stewart, R.N. and Schindler, A.F. (1956) The effect of some ectoparasitic and

endoparasitic nematodes on the expression of bacterial wilt in carnations.


Stynes, B.A., Petterson, D.S., Lloyd J., Payne, A.L. and Lanigan, G.W. (1979) The

production of toxin in annual ryegrass, Lolium rigidium, infected with a

nematode, Anguina sp., and Corynebacterium rathayi. Aust. J. Agric. Res. 30:

201-209.

Sudarshan, N.R., Hoover, D.G. and Knorr, D. (1992) Antibacterial action of chitosan.

Food Biotechnol. 6: 257-272.

��

�

Sudhamoy, M. (2010) Induction of phenolics, lignin and key defense enzymes in

eggplant (Solanum melongena L.) roots in response to elicitors. Afr. J.

Biotechnol. 9: 8038-8047.

Sule, S. and Lehoczky, J. (1993) Agrobacterium-nematode interactions on grapevine

root. Novenyvedelem 29: 412-417.

Sundarababu, R., Mani, M.P. and Arulraj, P. (2001) Management of Meloidogyne

incognita in chilli nursery with Glomus mosseae. Ann. Plant Protec. Sci. 9:

117-170.

Sundarababu, R., Sankaranarayanan, C. and Santhi, A. (1993) Interaction between

vesicular-arbuscular mycorrhiza and Meloidogyne javanica on tomato as

influenced by time of inoculation. Indian J. Nematol. 23: 125-127.

Sundararaju, P., Sudha, S. and Iyer, R. (1995) Reaction of different Subabul cultivars

to root- knot nematode and their interaction of nematode and VA mycorrhiza

on subabul. Indian J. Nematol. 25: 70-75.

Suresh, C.K. (1980) Interaction between vesicular arbuscular mycorrhiza and root-

knot nematode in tomato. M.Sc. (Agric.) thesis, submitted to University of

Agricultural Sciences Bangalore, India.

Suresh, C.K. and Rai, P.K. (1991) Interaction of Pseudomonas solanacearum with

antagonistic bacteria and VA-mycorrhiza. Curr. Res. 20: 26-37.

Swain, P.K., Rath, J.C. and Mishra, S.K. (1987) Interaction between Meloidogyne

incognita and Pseudomonas solanacearum on brinjal. Indian J. Nematol. 17:

61-71.

Tahat, M.M., Sijam K. and Otham R. (2010) The role of tomato and corn root

exudates on Glomus mosseae spores germination and Ralstonia solanacearum

growth in vitro. Int. J. Plant Pathol 1: 1-12.

Tahat, M.M., Sijam K. and Otham R. (2012) The potential of endomycorrhizal fungi

in controlling tomato bacterial wilt Ralstonia solanacearum under glasshouse

conditions. Afr. J. Biotechnol. 11: 13085-13094.

Takai, R., Hasegawa, K., Kaku, K., Shibuya, N. and Minami, E. (2001) Isolation and

analysis of expression mechanisms of a rice gene, EL5, which shows

structural similarity to ATL family from Arabidopsis, in response to N-

acetylchitooligosaccharide elicitor. Plant Sci. 160: 577-583.

��

�

Talavera, M., Itou, K. and Mizukubo, T. (2001) Reduction of nematode damage by

root colonization with arbuscular mycorrhiza (Glomus spp.) in tomato

Meloidogyne incognita (Tylenchida: Meloidogynidae) and carrot Pratylenchus

penetrans (Tylenchida: Pratylenchidae) pathosystems. Appl. Entomol. Zool.

36: 387-392.

Tans-Kersten, J., Huang, H.Y. and Allen, C. (2001) Ralstonia solanacearum needs

motility for invasive virulence on tomato. J. Bacteriol. 183: 3597-3605.

Tariq, J.A., Haq, M.I., Hafeez, F.Y., Sahi, S.T. and Khan, M.M. (2011) Potential of

rhizobacteria for the biocontrol of Meloidogyne javanica. Pak. J. Agric. Sci.

Engg. Vet. Sci. 27: 66-72.

Tariq, M. and Dawar, S. (2010) Impact of biocontrol bacteria with Rhizophora

mucronata plant parts in suppression of Meloidogyne javanica (Treub)

Chitwood on crop plants. Arch. Phytopathol. Plant Protect. 43: 754-760.

Taylor, A.L. and Sasser, J.N. (1978) Biology, identification and control of root-knot

nematodes (Meloidogyne spp.). A Cooperative publication of the Department

of Plant Pathology and the United States, Agency for International

Department, North Carolina State University Graphics, Releigh, North

Carolina.

Temple, T.N., Stockwell, V.O., Loper, J.E. and Johnson, K.B. (2004) Bioavailability

of iron to Pseudomonas fluorescens strain A506 on flowers of pear and apple.


Thakar, N.A. and Yadav, B.S. (1985) Comparative pathogenicity of reniform

nematode, Rotylenchulus reniformis, on susceptible and resistant varieties of

pigeon pea. Indian J. Nematol. 15: 167-169.

Tikhonov, V.E., Stepnova, E.A., Babak, V.G., Yamskov, I.A., Palma-Guerrero, J.,

Jansson, H-B., Lopez-Llorca, L.V., Salinas, J., Gerasimenko, D.V., Avdienko,

I.D. and Varlamov, V.P. (2006) Bactericidal and antifungal activities of a low

molecular weight chitosan and its N-/2(3)-(dodec-2-enyl)succinoyl/-

derivatives. Carbohydr. Polym. 64: 66-72.

Tilak, K.V.B.R. (1991) Bacterial fertilizers. Publications and Information Division

I.C.A.R., New Delhi, 66 pp.

��

�

Tilak, K.V.B.R., Ranganayak, N., Pal, K.K., De, R., Saxena, A.K., Nautiyal, C.S.,

Mittal, S., Tripathi, A.K. and Johri, B.N. (2005) Diversity of plant growth and

soil health supporting bacteria. Curr. Sci. 89: 136-150.

Tomer D. K. and Sunaina V. (2010). Antagonistic action of bacterial wilt of potato.

Progress. Agric. 10: 301-304.

Toro, M., Azco�, R. and Barea, J.M. (1997) Improvement of arbuscular mycorrhiza

development by inoculation of soil with phosphate-solubilizing rhizobacteria

to improve rock phosphate bioavailability (32P) and nutrient cycling. Appl.


Trappe, J.M. (1982) Synoptic keys to genera and species of Zygomycetous

mycorrhizal fungi. Phytopathology 72: 1102-1108.

Tsai, G.J. and Su, W.H. (1999) Antibacterial activity of shrimp chitosan against

Escherichia coli. J. Food Protect. 62: 239-243.

Tsai, Y.L., Chen, M.J., Hsu, S.T., Tzeng, D.D.S. and Tzeng, K.C. (2004) Control

potential of foliar Pseudomonas putida YLFP14 against bacterial spot of sweet

pepper. Plant Pathol. Bull. 13: 191-200.

Uchida, Y., Izume, M., and Ohtakara, A. (1989) Preparation of chitosan oligomers

with purified chitosanase and its application. In: Chitin and Chitosan: Sources,

chemistry, biochemistry, physical properties and applications. G. Skjåk-Bræk,

T. Anthosen and P. Sandford (Eds.) 373-382 pp. Elsevier Applied Science,

London, UK. 836 pp.

Udo, I.A., Uguru, M.I. and Ogbuji, R.O. (2013) Pathogenicity of Meloidogyne

incognita race-1 on tomato as influenced by different arbuscular mycorrhizal

fungi and bioformulated Paecilomyces lilacinus in a dysteric cambisol soil. J.

Plant Prot. Res. 53: 71-78.

Vanitha, S.C., Niranjana, S.R., Mortensen, C.N. and Umesha, S. (2009) Bacterial wilt

of tomato in Karnataka and its management by Pseudomonas fluorescens.

BioControl 54: 685-695.

Vasse, J., Danoun, S. and Trigalet, A. (2005) Microscopic studies of root infection in

resistant tomato cultivar Hawaii 7996. In: Bacterial Wilt Disease and the

Ralstonia solanacearum Species Complex. C. Allen, P. Prior and A.C.

Hayward (Eds.) 285-291 pp. APS Press, St. Paul, MN, USA. 528 pp.

��

�

Vasse, J., Frey, P. and Trigalet, A. (1995) Microscopic studies of intercellular

infection and protoxylem invasion of tomato roots by Pseudomonas

solanacearum. Mol. Plant-Microbe Interact. 8: 241-251.

Vasyukova, N.I., Zinovéva, S.V., I�inskaya, L.I., Perekhod, E.A., Chelenko, G.I.,

Gerasimova, N.G., Varlamov, V.P. and Ozeretskovskaya, O.L. (2001)

Modulation of plant resistance to disease by water-soluble chitosan. Appl.

Biochem. Microbiol. 37: 103-109.

Vauterin, L., Hoste, B., Kersters, K. and Swings, J. (1995) Reclassification of

Xanthomonas. Int. J. Syst. Bacteriol. 45: 472-489.

Velusamy, P., Immanuel, J.E., Gnanamanickam, S.S. and Thomashow, L. (2006)

Biological control of rice bacterial blight by plant-associated bacteria

producing 2,4-diacetylphloroglucinol. Can. J. Microbiol. 52: 56-65.

Venette, J.R., Lamey, H.A. and Smith, R.C. (1996) Bacterial spot and bacterial speck

of tomato. North Dakota State University Extension Services.

Vetrivelkalai, P., Sivakumar, M. and Jonathan, E.I. (2010) Biocontrol potential of

endophytic bacteria on Meloidogyne incognita and its effect on plant growth

in bhendi. J. Biopest. 3: 452-457.

Vrain, T.C. and Copeman, R.J. (1987) Interactions between Agrobacterium

tumefaciens and Pratylenchulus penetrans in the roots of two raspberry

cultivars. Can. J. Plant Pathol. 9: 236-240.

Waceke, J.W., Waudo, S.W. and Sikora, R. (2001) Suppression of Meloidogyne hapla

by arbuscular mycorrhizl fungi (AMF) on Pyrethrum in Kenya. Int. J. Pest

Manag. 47: 135-140.

Waceke, J.W., Waudo, S.W. and Sikora, R. (2002) Effect of inorganic phosphatic

fertilizers on the efficacy of an arbuscular mycorrhizal fungus against a root-

knot nematode on Pytherum. Int. J. Pest Manag. 48: 307-313.

Walker-Simmons, M. and Ryan, C.A. (1984) Proteinase inhibitor synthesis in tomato

leaves. Plant Physiol. 76: 787-790.

Wang, J.F., Olivier, J., Thoquet, P., Mangin, G., Sauviac, L. and Grimsley, N.H.

(2000) Resistance of tomato line Hawaii 7996 to Ralstonia solanacearum Pss4

in Taiwan is controlled mainly by a major strain-specific locus. Mol. Plant-

Microbe Interact. 13: 6-13.

Wang, S.L. and Chang, W.T. (1997) Purification and characterization of two bio-

functional chitinases lysozyme extracellularly produced by Pseudomonas

��

�

aeruginosa K-187 in shrimp and crab shell powder medium. Appl. Environ.

Microbiol. 63: 380-386.

Wang, X.H., Du, Y. and Liu, H. (2004). Preparation, characterization and

antimicrobial activity of chitosan-Zn complex. Carbohydr. Polym. 56: 21-26.

Watterson, J.C. (1986) Tomato diseases. In: The Tomato Crop: A scientific basis for

improvement. J.G. Atherton and J. Rudich (Eds.) Champion and Hall Ltd.

London, UK. 661 pp.

Wei, G., Kloepper, J.W. and Tuzun, S. (1996) Induced systemic resistance to

cucumber disease and increased plant growth by plant growth-promoting

rhizobacteria under field conditions. Phytopathology 86: 221-224.

Wei, H.L. and Zhang, L.Q. (2006) Quorum-sensing system influences root

colonization and biological control ability in Pseudomonas fluorescens 2P24.

Antonie van Leeuwenhoek 89: 267-280.

Wei, H.L., Wang, Y., Zhang, L.Q. and Tang, W.H. (2004) Identification and

characterization of biocontrol bacterial strain 2P24 and CPF-10. Acta

Phytopathol. Sinica 34: 80-85.

Weidenmaier, C. and Peschel, A. (2008) Teichoic acids and related cell-wall

glycopolymers in gram-positive physiology and host interactions. Nat. Rev.

Microbiol. 6: 276-287.

Weller, D.M. (1983) Colonization of wheat roots by a fluorescent Pseudomonad

suppressive to take-all. Phytopathology 73: 1548-1553.

Weller, D.M. (1988) Biological control of soilborne plant pathogens in the

rhizosphere with bacteria. Annu. Rev. Phytopathol. 26: 379-407.

Weller, D.M., Raaijmakers, J.M., McSpadden Gardener, B.B. and Thomashow, L.S.

(2002) Microbial populations responsible for specific soil suppressiveness to

plant pathogens. Annu. Rev. Phytopathol. 40: 309-348.

Weller, D.M., Van Pelt, J.A., Mavrodi, D.V., Pieterse, C.M.J., Bakker, P.A.H.M., Van

Loon, L.C. (2004) Induced systemic resistance (ISR) in Arabidopsis against

Pseudomonas syringae pv. tomato by 2,4-diacetylphloroglucinol (DAPG)

producing Pseudomonas fluorescens. Phytopathology 94: 108.

Wenneker, M., Verdel, M.S.W., Groeneveld, R.M.W., Kempenaar, C., van

Beuningen, A.R. and Janse, J.D. (1999) Ralstonia (Pseudomonas)

solanacearum race-3 (biovar 2) in surface water and natural weed host: first

report on stinging nettle (Urtica dioica). Eur. J. Plant Pathol. 105: 307-315.

��

�

Whipps, J.M. (2001) Microbial interactions and biocontrol in the rhizosphere. J. Exp.

Bot. 52: 487-511.

Whitelaw, M.A. (2000) Growth promotion of plants inoculated with phosphate

solubilizing fungi. In: Advances in Agronomy. D.L. Sparks (Ed.) 99-151 pp.

Academic Press. 300 pp.

Williamson, L., Hudelson, B.D. and Allen, C. (2002) Ralstonia solanacearum strains

isolated from geranium belong to race-3 and are pathogenic on potato. Plant

Dis. 86: 987-991.

Wilson, E.E., Fakhery, M., Zeitoun, F.M. and Fredrickson, D.L. (1967) Bacterial

phloem canker, a new disease of Persian walnut tree. Phytopathology 57: 618-

621.

Wisniewska-Wrona M., Niekraszewicz, A., Ciechanska, D., Pospieszny, H. and

Orlikowski, L.B. (2007) Biological properties of chitosan degradation

products. Polish Chitin Society, Monograph XII, pp. 149-156.

Wonang, D.L. and Akueshi, C.O. (1990) Relationships between population densities

of Meloidogyne incognita and crop yield in tomato. Int. Nemat. Network

Newsl. 7: 38-41.

Wu, H.J., Wang, S.A., Qiao, J.Q., Liu, J., Zhan, J. and Gao X.W. (2009) Expression

of HpaG(Xooc) protein in Bacillus subtilis and its biological functions. J.

Microbiol. Biotechnol. 19: 194-203.

Wu, X-G, Duan, H-M, Tian, T., Yao, N. and Zhou, H-Y, Zang, L-Q (2010) Effect of

the hfq gene on 2,4-diacetyphloroglucinol production and the PcoI/PcoR

quorum-sensing system in Pseudomonas fluorescens 2P24. FEMS Microbiol.

Letters 309: 16-24.

Wulff, E.G., Mguni, C.M., Mansfeld-Giese, K., Fels, J., Lübeck, M. and Hockenhull,

J. (2002a) Biochemical and molecular characterization of Bacillus

amyloliquefaciens, B. subtilis and B. pumilus isolates with distinct antagonistic

potential against Xanthomonas campestris pv. campestris. Plant Pathol. 51:

574-584.

Wulff, E.G., Mguni, C.M., Mortensen, C.N., Keswani, C.L. and Hockenhull, J.

(2002b) Biological control of black rot (Xanthomonas campestris pv.

campestris) of brassicas with an antagonistic strain of Bacillus subtilis in

Zimbabwe. Eur. J. Plant Pathol. 108: 317-325.

��

�

Xia, W., Liu, P., Zhang, J. and Chen, J. (2011) Biological activities of chitosan and

chitooligosaccharides. Food Hydrocolloid 25: 170-179.

Xinyi, (2012) Chitosan advantages and functions. Xinyi (H.K.) Industrial Co. Ltd,

www.xinyiindustrial.com/newshow.asp?id=134.

Xue, Q-Y, Yin, Y-N, Yang, W., Heuer, H., Prior, P., Guo, J-H, and Smalla, K. (2011)

Genetic diversity of Ralstonia solanacearum strains from China assessed by

PCR-based fingerprints to unravel host plant-and site-dependent distribution

patterns. FEMS Microbiol. Ecol. 75: 507-519.

Yabuuchi, E., Kosako, Y., Yano, I., Hotta, H. and Nishiuchi, Y. (1995) Transfer of

two Burkholderia and an Alcaligenes species to Ralstonia gen. Nov: Proposal

of Ralstonia picketti (Ralston, Palleroni and Doudoroff 1973) comb. Nov.,

Ralstonia solanacearum (Smith1896) comb. Nov. and Ralstonia eutropha

(Davis 1969) comb Nov. Mirobiol. Immun. 39: 897-904.

Yamada, A., Shibuya, N., Kodama, O. and Akatsuka, T. (1993) Induction of

phytoalexin formation in suspension-cultured rice cells by N-

acetylchitooligosaccharides. Biosci. Biotechnol. Biochem. 57: 405–409.

Yan, Q., Gao, W., Wu, X-G and Zhang, L-Q (2009) Regulation of the PcoI/PcoR

quorum-sensing system in Pseudomonas fluorescens 2P24 by the PhoP/PhoQ

two-component system. Microbiology 155: 124-133.

Yang, C.H. and Crowley, D.E. (2000) Rhizosphere microbial community structure in

relation to root location and plant iron nutritional status. Appl. Environ.

Microbiol. 66: 345-351.

Yanqing, W., Qian, Y., Yukio, T., Hitoshi, N. and Shigeyuki, M. (2004) Nitric Oxide

overproducing transformants of Pseudomonas fluorescens with enhanced

biocontrol of tomato bacterial wilt. J. Gen. Plant Pathol. 32: 24-27.

Yantai (2012) Clear nematode. Yantai Heatex Biochemical and Technology Co., Ltd.

www.chinagronet.com/Products/List?cateID=382.

Yao, J. and Allen, C. (2006) Chemotaxis is required for virulence and competitive

fitness of the bacterial wilt pathogen Ralstonia solanacearum. J. Bacteriol.

188: 3697-3708.

Yu, Z.H., Wang, J.F., Stall, R.E. and Vallejos, C.E. (1995) Genomic localization of

tomato genes that control a hypersensitive reaction to Xanthomonas

campestris pv. vesicatoria (Doidge) Dye. Genetics. 141: 675-682.

��

�

Zhang, L.D., Zhang, J.L., Chen, F.J. and Christie, P. and Li, X.L. (2008) Pre-

inoculation with arbuscular mycorrhizal fungi suppresses root-knot nematode

(Meloidogyne incognita) on cucumber (Cucumis sativus). Biol. Fertil. Soils

45: 205-211.

Zhu, H.H. and Yao, Q. (2004) Localized and systemic increase of phenol in tomato

roots induced by Glomus versiforme inhibits Ralstonia solanacearum. J.

Phytopathol 152: 537-542.

Zitter, T.A. (1985) Bacterial diseases of tomato. Fact Sheet page: 735.50. Cooperative

Extension, Cornell University, New York, USA. 6 pp.

Zutra, D. and Orion, D. (1982) Crown gall bacteria (Agrobacterium radiobacter var.

tumefaciens) on cotton roots in Israel. Plant Dis. 66: 1200-1201.

full thesis neelu botany - inflibnetshodhganga.inflibnet.ac.in/bitstream/10603/21076/12/13... ·...

Documents