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BIBLIOGRAPHY
A.Khalid.; M.Arshad.; ZA.Zahir.;(2004).Screening plant growth-promoting rhizobacteria
for improving growth and yield of wheat, J. ,Appl. Microbiol; 96(3):473-80.
Abbas. Samreen.; Dawar.Shahnaz.; Tariq.Marium.; and Zaki.Javed.M.; (2009)
.Nematicidal activity of spices against Meloidogyne javanica (treub) chitwood.
Pak.J.Bot.,41(5):2625-2632.
Abdelghafar, N.Y.; and Abdelsayed. W.M.; (1997). Biological control of bacterial soft
rot of potato by using fluorescent pseudomonads. Arab Universities Journal of
Agricultural Sciences,5 (2):419-431
Abdel-monain fawzy montaser, Ismail ewis mamdoh (2010). The use of Antioxidants to
control Root-knot and wilt Diseases of pepar. Not.sci.Biol.2 (2),46-55.
Abeysinghe S. (2009). Effect of combined use of Bacillus subtilis CA 32 and
Trichoderma harzianum RU01 on Biological control of Rhizoctonia solani on
Solanum melongena asnd Capsicum annuum. Plant Pathology Journal 8 (1): 9-
16.
Adegbite AA, Agbaje GO (2007). Efficacy of Furadan (Carbofuran) in control of root-
knot nematode (Meloidogyne incognita Race 2) in hybrid yarn varieties in south-
west Nigeria world J. Agric. Sci. 3(2) : 256-262.
Agrawal. S.C.; Surendra-Sharma and Prasad.; K.V.V. (2002). Efficacy of biological
components in wilt management of chickpea. Indian-Journal-of-Pulses-Research,
15 (2): 177-178.
Agrios, G.N. (2000). Plant Pathology. Forth edition. Harcourt Asia PTE Limited,
Academic press, Sandiego, California U.S.A. 270pp.
Agrios,G.N.(2005). Plant pathology,fifth edition. Academic press, San Diego,CA. 922
pp.
Page 161
Aken, B.V., Peres, C.M., Doty, S.L. Yoon, J.M. and Schnoor, J.L.
(2004).Methylobocterium populi sp. nov., a novel aerobic, pink pigmented,
facultatively methylotropic, methane-utilizing bacterium isolated from poplar
trees (popular deltoids x nigra DN 34). International Journal of systemic and
Evolutinary Microbiology, (54): 1191-1196.
Akhtar MS, Siddiqui ZA. (2007). Bio-control of a chick pea root-rot disease complex
with Glomus intraodices, Pseudomones putida and paeni Bacillus polymyxa.
Austral Plant pathol. (36): 175-180.
Ali.S.S.; and Gurha.S.N.;(1995).Role of Meloidogyne javanica in Fusarium wilt of
chickpea. Indian Journal of Pulses Research,8 (2):201-203.
Amara, M.A.; Rabie, K.A.E. and Talkhan, F.N. (1996). Activity of Pseudomonas
fluorescens mutants in relation to growth regulators production and biological
control in tomato plants.Annals of Agricultural Science, Cairo,41 (1):111-124.
Anith, K. N.; Tilak, K. V. B. R. and Manmohandas, T. P. (1999) Analysis of mutation of
affecting antifungal property of a fluorescent pseudomonas sp. Duringcotton
Rhizoctonia interaction. Indian Phytopathology 52 (4): 366-369.
Anitha, K. and Tripathi, N.N. (2001). Laboratory screening of fungal and bacterial
antagonists against R. solani and Pythium aphanidermatum inciting seedling
diseases of okra. Indian J. P1. Prot., (29): 146-148.
Anjum, Muhammad Ashfaq.; Sajjad, Muhammad Rafique.; Akhtar,Naseem.; Qureshi,
Muhammad Amjad.; Iqbal, Arshad.; Jami, Abdul Rehman and Mahmud-ul-
Hasan.; (2007). Response of cotton to plant growth promoting rhizobacteria
(PGPR) inoculation under different levels of nitrogen. J. Agric. Res., 45 (2).
Anonymous. (2007). Seasonal report in chilli. www. tnagmark. tn.nic.in.
Antoun, H., and Kloepper, J. W., (2001). Plant growth-promoting rhizobacteria (PGPR),
in: Encyclopedia of Genetics, Brenner, S. and Miller, J.H., eds., Academic Press,
N.Y.,
Page 162
Antoun,Hani.; and Prevost, Danielle.;(2005). Ecology of plant growth promoting
rhizobacteria .Biocontrol and Biofertilization,1-38.
Arnadt,W.; Kelle, C. and Buchenauer, H. (1996). Effectiveness of Fluerescent
Pseudomonas on cucumber and tomato plant under practical conditions and
preliminary studies on the mode of action of the antagonists-. Zoitsechrift- fur-
Pflanzenkeiten-und. pflanzenschutz, 105 (2): 198-215.
Asha,B.B.;Nayak,Chandra.;S.,Shankar,Udaya A.C.;Srinivas,C.; and Niranjana,S.R.;
(2011). Selection of effective bio-antagonistic bacteria for biological control of
tomato wilt caused by Fusarium oxysporum f.sp. lycopersici. The Bioscan 6
(2):239-244.
Asha,B.B.;Nayak,Chandra.;S.,Shankar,Udaya A.C.;Srinivas,C.; and Niranjana,S.R.;
(2011) Biological Control of F.oxysporum f.sp. lycopersici causing wilt of tomato
by Pseudomonas fluorescens ,International Journal of Microbiology Research
.Vol.3,Issue 2,pp-79-84.
Asoka, O.; Shoda, M. (1996). Bio-control of Rhizochnia solani damping off of tomato
with Bacillus subtilis RB 14. Appl. Environ. Microbiol. 62 (11), 4081-4085.
Attia,M.F. and Abada, K.A. (1994). Control of wilt and root rot diseases of pepper.Proc.
7th
Cong. Phytopathology, Giza, pp. 397-409.
B.Naik,Gangadara.;Saifulla; R.,Nagaraja.; M.K. Basavaraja.;(2010). Biological control of
Fusarium oxysporum f.sp. vanillae, the causal agent of stem rot of vanilla in vitro.
International journal of science and nature .Vol.,1(2): 259-261.
Bajpai.Vivek K.; Kim. Hak Ryul.; Hou. Ching Tsang.; (2009). Microbial conversion and
in vitro and in vivo antifungal assessment of bioconverted docosahexaenoic acid
(bDHA) used against agricultural plant pathogenic fungi. J.Ind Microbial
Biotecnol (36):695-704.
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
Page 163
Pseudomonas putida in a short rotation of potato, Neth. J. Plant Pathol (92): 249-
256.
Bapat S, Shah A.K. (2000). Biological control of Fusarial wilts of pigeon pea by Bacillus
brevis. Canadian J Microbiol (46): 125-131.
Bashan, Yoav (1998). Azospirillum plant growth-promoting strains are nonpathogenic on
tomato, pepper, cotton, and wheat. Can. J. Microbiol. (44): 168-174.
Basu, M.J., Karuppagnanian, S., (2009). Impact of Glomus fasiculatum and fluorescent
pseudomonas on growth performance of Vigna radiata (L.) Wilczek challenged
with phtopathogens. J. plant protection Res. 49 (2): 190-194.
Bechard, J., Eastwell, K.C., Sholberg, P.L., Mazza, G. and Skura, B. (1988). Isolation
and partial chemical characterization of an antimicrobial peptide produced by a
strain of Bacillus subtilis. J. Agric. Food chem. (46): 5355-5361.
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 flucerscent
Pseudomonads. Phytopathalogy (78): 778-782.
Benhamou N, Joosten MHAJ, De wit PJGM. (1990). Subcellular localization of chitinase
and of its potential substrate in tomato root dissues imfected by Fusarium
oxysporum f. sp. radius. bycopersia. Plant Physiol. (92): 1108-1120.
Benhamou N, Kloepper JW, Quadt-Hallman A, Tuzun S et al,(1996).Induction of
defence-related ultra structural modifications in pea root tissues inoculated with
endophytic bacteria. Plant Physiol. (112): 919-929,
Benhamou, N. & Chet, I. (1993). Hyphal interactions between Trichoderma harzianum
and Rlizoctonia solani. Ultra structure and gold cyto-chemistry of mycoparasitic
process. Phytopathology. 83(10):1062-1071.
Page 164
Bent, E. and Chanway, C.P. (1998). The growth-promoting effects of a bacterial
endophyte on loegepole pine are partially inhibited by the presence of other
rhizobacteria. Canadian Journal Microbiology, (44): 980-988.
Berg, G.; Krechel, A.; Ditz, M.; Sikora, R.A.; Ulrich, A.; Hallmann, J. (2005).
Endophytic and ectophytic potato associated bacterial communities differ in
structure and antagonistic function against plant pathogenic fungi. FEMS
Microbiol Ecol. 51(2), 215-229.
Berger, F. Li. H., White, D., Frazer, R., Leifert C. (1996). Effect of pathogen inoculum,
antagonist density and plant species on biological control of Phytophthora and
Pythium damping-off by Bacillus subtilis Cot1 in High-humidity fogging glass
house. Phytopathology (86):428-33.
Bergey‟s Manual of systematic Bacteriology (1994): Williams & Wilkins, Battimore,
USA. vol. Ikrieg, N. NMR (ed): Ordinary gram negative bacteria, Vol.2 smeath,
PHA (ed.): ordinary gram positive bacteria.
Bessen, F., and G. Michel, (1984). Action of antifungal peptilipids from Bacillus subtilis
on the cell membrane of Sacharomyces cerevisiae. Journal of Antibiotic (37):
172-177.
Bhatnagar, G.C. and Prasad, N. (1966). Studies of Fusarium twing disease of lime
(Citrus aurantifolia Swingle). Indian phyto path., 19:131.
Black, L.L. and Rivelli, V. (1992). Fusarium oxysporum f. sp. capsici forma specialis
nov. identified as the causal agent of a wilt in pepper. Plant Dis., 75.
Booth, C. (1971). The Genus Fusarium, Common wealth Mycol. Instr. Kew, Survey,
U.K. 237P.
Bosland, P.W., and Votava, E.J., (2000). Peppers, vegetables and spice Capsicums. Crop
production science in Horticulture 12. CAB International Publishing, walling
ford, England, U.K. P:204.
Page 165
Brannen, P.M. and Kenny,D.S.(1997). Kodiak®-A Successful biological control product
for suppression of soil-borne plant pathogens of cotton. Indust microbial.Biotech
(19).169-171.
Brannen, R. (1995). Production of antibiotics from Bacillus subtilis and their effect on
fungal colonists of various crops. Transactions of British Mycological society
(65): 203-209.
Bull, C.T., D.M. Weller, L.S. Thomashow (1991). Relationship between root
colonization and suppression of Caeumann omyces graminis var. tritici by
Pseudomonas fluorescens strain 2-79, Phytopathology, (81): 950-959.
Bunker,RN, Mathur K.(2002). Integration of bio-control agents and fungicides for
suppression of dry rot of Capsicum frutescens. J.Mycol. Plant pathol., 31 (3):330-
334.
Burkett-cadena,Marleny.;Kokalis-Burelle Nancy.;Lawrence,S.Kathy.;Edzardvan
Sonten.;Kloepper,W.Joseph. (2008).Suppressiveness of root-knot nematodes
mediated by rhizobacteria. Biological control 47,55-59.
Buysens, S., K. Heungens, J. Poppe and M.Hofte. (1996). Involvement of pyochelin and
Pyoverdin in suppression of pythium induced damping-off of tomato-off of
tomato by Pseudomonas aeruginosa 7NSK2. Applied and Environmental
Microbiology, (62):865-871.
Calvo,Pamela.;Ormeno-Orrillo,Ernesto.;Martinez-Romero,Esperanza.;Zuniga,Doris.;
(2010). Characterization of Bacillus Isolates of Potato Rhizosphere from Andean
soils of Peru and Their Potential PGPR Characteristics. Brazillian Journal of
Microbiology 41:899-906.
Cambell, R., (1989). Biological control of microbial plant pathogens. Canbridge
university Press, P. 218.
Page 166
Cannayance, I. and Rajendran, G. (2001). Application of bio-control agents and oil cakes
for the management of Meloidogyne incognita in brinjal (Solanum melongena L.).
Current nematology. (12): 51-55.
Cannayane, I. and Rajendran, G. (2001). Management of Meloidogyne incognita by
bacterial and fungal culture filtrates on bhendi. A bel moschus esculentus L.
current nematology, (12): 85-89.
Cannayane, I., nad Rajendran, G. (2002). Biomolecules and their mode of action in the
suppression of plant parasitic nematodes. A review. Agric. Rev., 23 (4) : 281-288.
Cartwright, D.K., W.S. Chilton, D.M. Benson (1995). Pyrrotnitrin and Phenazine
production by Pseudomonas cepcia., strain S.S.B., a biological agent of
Rhizotonia solani, Appl. Microbiol. Biotech vol. (43): 211-121. 1995.
Castric PA, 1977. Glycine Metabolism by Pseudomonas aeruginosa: Hydrogen Cyanide
Biosynthesis: The Journal of Bacteriology.130 (Suppl2): 826-831.
Cehder, C.W., murphy, J.F., Sikora, E.J. and Kloepper, J.W. (2001). Application of
rhizobacteria for induced resistance Eus J. plant pathol. (107): 39-50.
Chaitali, L. Singh, S. Singh and B.K. Goswami (2003). Effect of cakes with Trichoderma
viride for the management of disease complex caused by Rhizoctonia bataticola
and Meloidogyne incognita on okra. Ann. PL. Protec. Sci. (11): 178-180.
Chan K, Wayne AM, Seifert KA (2000). Characterization of antifungal soil bacterium
and its antagonistic activities against Fusarium species, Canadian J. Microbiol
(46): 125-131,
Chan K, Wayne AM, Seifert KA (2003).characterization of centifungal soil bacterium
and its antagonistic activities against Fusarium species, Canadian J Microbiol
(49): 253-262,
Chatli,A.S.; Beri, V.; Sidhu, B.S. (2008). Isolation and characterization of phosphate
solubilising microorganisms from the cold desert habitat of salix alba Linn. In
Page 167
trans Himalayan region of Himachal Pradesh. Indian J. Microbiol. 48 (2),267-
273.
Chatterjee, S., Chatterjee, D.K., Jani, R.H., Blumbach, J. and Ganguli. B.N. (1992).
Mersacidin, a new antibiotics from Bacillus in vitro and in vivo antifungal
activity. J. Antibiotics (45): 839-845.
Chaudhary,K.K.; and Kaul,R.K.;(2010). Effect of the time of application on the
biocontrol efficacy of Pasteuria penetrans against root-knot nematode
Meloidogyne incognita, Journal of Phytology,2 (7):70-74.
Chawla, Nitin and Gangopadhyay S.; (2009). Integration of organic amendment and
bioagents suppressing cumin wilt caused by Fusarium oxysporum f. sp. Cumini.
Indian Phytopath. 62 (2): 209-216.
Chinchlokar, S.B., Chaudhar, B.L., Talegaonkar, S.K. and Kothari, R.M. (2000).
Microbial Iron Chelators, a sustainable tool for the bio-control of plant diseases
In: Upadhay, R.K., Mukerji, K.G. and Chamoler, B.P. (Eds) Bio-control potential
and its exploitation in sustainable Agriculture, Vol. 1 Kluwer Academic Plenum
publisher, New York. PP-49-69.
Cho, K.M.; Hong, S.Y.; Lee, S.M.; Kim, Y. H; Kahng, G.G.; Lim, Y P; Kim, H.; Yun,
H.D. (2007). Endophytic bacterial communities in ginseng and their antifungal
activity against pathogens, Microb. Ecol. 54(2), 341-351.
Choudhary, G.J. Kumar, S. Walia, R. Parsad, and Parmar, (2006). Development of
controlled release formulations of carbofuran and evaluation of their efficacy
against Meloidogyne incognita. J. Agric. Food chem. 54(3): 4727-4733.
Choudhary,Devendra Kumar.;Prakash,Anil.;Wray,Victor and N.Johri, Bhavdish.; (2009).
Insight of the fluorescent pseudomonads in plant growth regulation.Current
Science,Vol.97,No.2,25.
Page 168
Chung Soohee.Kong Hyesuk.Kong.Buyer.Jeffery S.;(2008). Isolation and partial
characterization of ME488 for suppression of soilborne pathogens of cucumber
and pepper. Appl Microbial Biotechnol 80:115-123.
Ciampi,P. Luigi.; Nissen, M. Juan; Venegas G. Elizabeth.; Fuentes, P. Ricardo.; Costa, L.
Marcia.; Schobitz, Renate.; Alvarez, D. Eduardo.; and Alvarado, A. Pilar. (2009).
Identification of two species of Fusarium Link that cause wilting of colored callas
(Zantedeschia aethiopica (L.) Spreng.) Cultivated under greenhouse conditions in
chile,Chilean journal of Agriculture research.
Clickmann, E.; Dessaux, Y. (1995). A critical examination of the specificity of the
salkowki reagent for indolic compounds produced by phytopathogenic bacteria.
Appl. Environ.
Collins, D.P., Jacobsen, B.J.(2003). Optimizing a Bacillus subtilis isolate for biological
control of sugarbeet carpospora leaf spot. Biological Control. (26):153-61.
Compant, S.; Duffy, B; Nowak, J; Clement, C.; Barka, E.A. (2005). Use of plant growth
promoting bacteria for bio-control of plant diseases: Principles, mechanisms of
action, and future prospects. Appl. Environ. Microbial. 71(9), 4951-4959.
Compart, S.; Duffy, B; Nowak, J.; Clement, C. ; Barka, E.A. (2005). Use of plant growth-
promoting bacteria for bio-control of plant diseases: principles, mechanisms of
action, and future prospects. Appl. Environ. Microbiol. 71 (9), 4951-4959.
Cook RJ Bakker KF.(1983). The Nature and Practice of Biological Control of Plant
Pathogens. American Phytopathological Society. St.Paul; MN,USA.
Cook, R. and K.F. Baker.A Mm. Phytopathol. Sac. 539pp.
Cronin,D., Loccoz,Y.M. Fehton,A., Dunne, C., Dowling, D.N. and Gara, F.O. 1997. Role
of 2,4-diacetyl phloroglucinol in the interactions of the bio-contol Pseudomonas
strainF113 with potato cyst nematode. Globodera rostochiensis. Applied and
Environmental Microbiology, 6: 1357-1361.
Page 169
Daami-Remadi, M.; Ayed, F.; Jabnoun – Khiarenddine, H.; Hibar K.; E1 mahjoub, M.
(2006). Effects of some Bacillus sp. isolated on Fusarium spp. in vitro and potato
tuber dry not development in vivo. Plant pathol. J. 5(3), 283-290.
Dangal,N.K.; Sharma-Paudyal, D.;Shrestha,S.M.; and Adhikari,C.; (2010). Impact of soil
infestation of Rice Root-knot Nematode and Flooding on its Development and
Rice Yield. Nepal Journal of Science and Technology 11:31-36.
David, N.D. and F. O‟ Gara. (1994).Metabolites of Pseudomonas involved in the bio-
control of plant diseases, Tibtech April. (12):133-141.
Davison., J. 1988. Plant benefical bacteria. Bio/Technology. (6): 282-286.
De mejia G.E.,quintanan-hernandez,A., and Lorca-Pina,G., (1998). Antimutagenic
activity of carotenoids in green peppers against some nitroarenes. Mutant.
Res.,416(1-2),11-19.
Dennis, C. and Webster, J. (1971). Antagonestic properties of species groups of
Trichoderma I. Production of non-volatile antibiotics. Trans. Brit Mycol. Soc.,
(57): 25-39.
Devi, V.T., Vizhi, M.R.; Sakthivel, N. and Gnanamanickam, S.S., (1989). Biological
control sheath of blight of rice in india with antagonistic bacteria. Plant Soil.119:
325-330.
Devika Rani,G.S.,Naik,M.K.,Raju,K.and Prasad, P.S.(2007).Prevalence of wilt of chilli
and assessment of population dynamics of Fusarium in Predomonant chilli
(Capsicum annum L.) growing regions of Karnataka, J.Soil Biol.Ecol. (27): 50-61.
Dhoke,P.K.;(2005).Efficacy of fluorescent Pseudomonas isolates against Fusarium
oxysporum f.sp. ciceri. Department of Plant Pathology, Marathwads.Agricultural
University, Vol.58(3):.
Doi RH. (1989). Sporulation and Germination. In Biotechnology Handbook; Bacillus
,pp.169-215.(Ed CR Hardwood) Plenum Press, New York,USA.
Page 170
Dowling, D.N. and o‟ Gara, F. (1994). Metabolites of Pseudomonas involved in bio-
control of plant diseases. TIBTECH. (12):133-141.
Dubeikovsky AN, Mordukhova EA. Kochethov W, Polikarrpova F4 and Boronin AM
(1993). Growth promotion of black currant soft wood cuttings by recombinent
strain Pseudomonas fluorescens BSP53a synthesizing an increased amount of
indole–3–acetic acid. Soil Biology and Biochemistry (25): 1277-1281.
Dubey, H.C. and R.D. Yeole (1997). Increased plant growths and yield through seed
bacterization. Indian Phytopathology. (50) : 316-319.
Dutta, S., Singh, R.P. and Jindal, J.K. (2005). Effect of antagonistics bacteria and plant
defense activators on management of bacterial leaf spot of mungbean. Indian
Phytopathology. (58): 269-275.
E.J.Ekefan.; A.Jama.; and S.R.Gowen.; (2009). Potential of Trichoderma harzianum
isolates in bio-control of Colletotrichum capsici causing anthrasnose of
pepper(Capsicum spp.) in Nigeria. Journal of Applied Biosciences (20):1138-
1145.
Egamberdieva D, (2008). Plant growth promoting properties of rhizobacteria isolated
from wheat and pea grown in loamy sand soil. Turkish Journal of Biology, 31(3):
330-334.
Egel, D.S. (2000). Evaluation of fumigants for th control of Fusarium wilt and root-knot
nematode of watermelon. Fungicide and Nematicide Test Report 2001:N19.
Eisenback J.D., Hirschmann H., Sasser, J.N. and Triantaphyllou A.C. (1981). A more
complete characterization of the four most common species of root-knot
nematodes (Meloidogyne spp.) with pictorial key. 1MP publication Raleigh, N.C.
U.S.A., P. 48.
El-Mohamedy, Riad S.R.; Abd Ei-Samad, E.H.; A.M.,Habib, Hoda.; Fath El-Bab,T.Sh.;
(2011). Effect of using bio-control agents on growth, yield, head quality and root
Page 171
rot control in Broccoli plant. International journal of Acedemic research Vol.3.(2)
Part.1.
Emayavaramban, S., (1994). Management of damping-off chilli (Capsium annuum L.) in
cited by Pythium aphanidermatum (Fdson) fitz. With bio-control agents M.Sc,
(Ag.) Thesis. Tamilnadu, Agricultural university, Coimbatore.
Emmert, E.A.B. and Handelsman, J. (1999): Bio-control of plant disease: a (Garm-)
positive perspective. FEMS Microbiol lette. 171, 1-9.
Favitha J., Jonathan E.I., Umamaheswari R. (2007). Field application of Pseudomonas
fluorescens, Bacillus subtitis and Trichoderma viride for the control of
Meloidogyne incognita (Kofoid and white) chit wood on sugar beet. J. Biol
control Soc. Biocontrol Adv., Bangalore, India 21(2): 211-215.
Feng,Y.,Shen,D. and Sony, W. (2006). Rice endophyte pantoea agglomerans YS19
promotes host plant growth and affects allocations of host photosynthetic. Journal
of applied microbiology. (100): 938-945.
Ferrandis, MD.;Andrew, R.;Porcar, M.;Iriarte, J.;Cosmao-Dumanoir, V.; Lecadet, M.-M.
Caballero, P .;and Ferré, J. (1999). Characterization of Bacillus thuringiensis
serovar bolivia (serotype H63), a novel serovar isolated from the Bolivian high
valleys. Lett Appl Microbiol.28(6):440-444.
Fisher,R.A. and Yates,K.(1968).Statistical method for research workers oliver and Boyd
Ltd.Edenburgh and London.10.
Fravel, D.R., (1988). Annu. Rev. Phytopathol. 26: 75-91.
Gamliel, A. and Katan, J. (1993). Suppression of major and minor pathogens by
fluorescent pseudomonads in solarized soil and non-solarized soil
Phytopathology, (83): 68-75.
Page 172
Ganeshan,Girija.;& Kumar ,A.Manoj; (2005). Pseudomonas fluorescens, a potential
bacterial antagonist to control plant diseases, Journal of Plant Interactions,
1(3):123-134.
Gangadara, Naik B., Saifulla, Nagaraja, R., Basavaraja, M.K. (2010). Biological control
of Fusarium oxysporum f. sp. vanillae, the casual agent of stem rot of vanilla in
vitro. International Journal of Science and Nature. Vol. 1(2), : 259-261.
Gardon, S.A.; Weber, R.P. (1951). Colorimetric estimation of indoleacetic acid. Plant
physiol. 26(1), 192-195.
Garret, S.D. (1960). Inoculum potential. In: Plant pathology: An Advance Treatise. Ed.
JG Harsfall and AE Dimond, volume (3), pp. 23-56. Academic press, New york.
Ghaffar A., (1995). Biological control of root rot and root knot disease complex of
vegetables. Final research report department of Botany, Univeristy of Karachi-
75270, Pakistan. pp. 98.
Gholami, A. Shahsavani, S. Nezarat, S. (2009). The effect of plant growth promoting
rhizobacteria (PGPR) on germination, seedling growth and yield of maize proceed
world Acad. Sci. Eng. Technol. (37): 19-24,
Ghonim, M. I. (1999). Induction of systemic resistance against Fusarium wilting in
tomato by seed treatment with the bio-control agent Bacillus subtilis Bulletin of
faculty of Agriculture coira University, (50): 313-328.
Girlanda, M.; Perotto, S.; Moenne-Loccoz, Y.,;Bergero, R.;Lazzari, A.; Defago, G.; and
Luppi, M.; (2001). Impact of bio-control Pseudomonas fluorescens CHA0 a
genetically M Derivative on the diversity of Culturable fungi in the Cucumber
Rhizosphere. Appl. Environ. Microbiol. 67 (4), 1851-1864.
Glickmann, E; Dessaux,Y.(1995). A critical examination of the specificity of the
salkawaki reagent for indolic compounds produced by phytopathogenic bacteria.
Appl. Environ.Microbiol. 61(2), 793-796.
Page 173
Gnanamanickam, S.S., Candole, B.L. and Mew, T.W. (1992). Influence of soil factors
and cultural practice on biological control of sheath blight of rice with
antagonistic bacteria. Plant Soil. (144): 67-75.
Gohel V. Singh A, Vimal M, Ashwini D, Chhatpan HS. (2006). Bio prospecting and
antifungal potential of chitonolytic microorganisms. African J. Biotechnol. (5):
54-72.
Gokte, N., and G. Swarup. (1988). On the potential of some biocides against root-knot
and cyst nematodes. Indian Journal of Nematology. (18):152-157.
Goo, J. H., Qi,H. Y., Guo, H. Y.,Ge,H.L.Gong,L. Y., Zhang, L.X. and Sun, P.H. (2004).
Bio-control of tomato wilt by plant growth promoting rhizobacteria. Biol. control,
(29):66-72.
Govindappa,M.; Ravishankar,V.; and Lokesh,S.; (2011). In Vitro and In Vivo response
of different treating agents against wilt disease of safflower. Journal of Cereals
and Oilseeds Vol.2(1),pp.16-25.
Grosch, R., Junge, H., Krebs, B. and Bochow, H. (1999). Use of B. subtilis as a bio-
control agent III. Influence of B. subtilis on fungal root diseases and on yield in
soilless culture. Zeitschriftfur pflanzenkrankheiten and pflanzenschutz, (106):
568-580.
Gunther, K.H. etal. (1998). Fundam . Appl. Nematol, (21): 511-517.
Gupta, V.K. and A.K. Misra. (2009). Efficacy of bio-agents against Fusarium wilt of
guava. J. Mycol. P1. pathol., 39(1): 101-106.
Gupta, V.K. and Utknede, R.S. (1987). Nutritional requirements for production of
antifungal substances by Enterobacter aerogenes and Bacillus subtilis antagonists
of phytophthora cactorum. J. phytopathol. (120): 143-153.
Gurusiddaiah, S., D.M. Weller, A. Sarkar, and R.J. Cook (1986). Characterization of an
antibiotic produced by a strain of Pseudomenas fluorescens inhibitory to
Page 174
Gaemannomyces graminis var. tritici and Pythium spp. Antimicrobial Agents and
Chemotheraphy (29):488-495.
Hadar, Y., Chet, I. & Heins, Y. (1979). Biological control of Rhizoctonia solani damping
off with wheat bran culture of Trichoderma harzianum. Phytopathology (69): 64-
68.
Hadar, Y.,;Harman, G.E.; and Taylor, A.,G.; (1983). Evaluation of Trichoderma koningii
and T. harzianum from New York Soils for Biological control of Seed Rot Caused
by Pythium spp. Disease Control and Pest Management Vol.74(1).
Hallmann, J., Quadt-Hallmannn, A., Mahafee, w.f. and Kloepper, J.W. (1997). Bacterial
endophytes in agriculture crops. Canadian Journal of Micro biology. (48): 895-
914.
Harman, G.E., Howell, C.R., Viterbo, A., chet, 1 and Loritto, M. (2004). Trichoderma
species opportunistic anrulent plant symbionts nature rev. Microbiol. (2):43-56.
Harris, A.R., Schisler, D.A., Ryder, M.H. and Adkins, P.G. (1994). Bacteria suppress
damping-off caused by Pythium cultimum var. sporangiforum and potato growth
in bedding plants. Soil Biology and Biochemistry (26): 1431-1437.
Haseeb, A. and V. Kumar (2006). Management of Meloidogyne incognita, Fusarium
solani disease complex in brinjal by bio-control agents and organic additions.
Ann. PL. Protec. Sci. M: 462-524.
Haseeb, A., Sharma, A. and Shukla, P. K. (2005). Studies on the management of root-
knot nematode, Meloidogyne incognita-wilt fungus, Fusarium oxysporum disease
complex of green gram, Vigna radiata cv ML-1108. J Zhejiang Univ SCI, 6B
(8):736-742.
Helbig, J., Trierweiler, B., Schulz, F.A. and Tauscher, B. (1998). Inhibition of Botrytis
cinerea pers. ex. Fr. and Penicillium digitatum Sace. by Bacillus spp. (Isolate
17141) in vitro. J. plant Dis. Protec. 105: 8-16.
Page 175
Hervas, A.; Landa, B.; Datnoff, L.E. and Jimenez-Diaz, R.M. (1998) Effects of
commercial and indigenous microorganisms of Fusarium wilt development in
components chickpea. Biological-Control V. 13(3): 166-176.
Hoffland F., Hakulinem J. and Van Pelt JA., (1996). Comparison of systemic resistance
induced by avirulent and nonpathogenic Pseudomonas species. Phytopathology
86: 757-762.
Hosamani M.M. (1982). “Chilli”, Rajashree printing press, Dharwad. Pp. 2-5, 236, 237
and 241.
Hosokawa., N., Naganawa, H., Hamada, M. and Takeuchi, T. (1996).
Hydroxymycontrinins A and B, new ansamycin group antibiotics. J. Antibiotics.
(49): 425-431.
Howell CR, Stipanovic RD. Control of Rhizoctonia solani on cotton seedlings with
Pseudomonas fluorescens produced by the bacterium. Phytopathology
.1979;69:480-482.
Howell, C.R. and R.D. Stipanovic, 1984. Phytotoxicity to crop plants and herbicidal
effects of weeds of viridiol produced by Gliododium virens. Phytopathology 74:
1346-1349.
Hung, P.Q. and Annapurna, K. 2004. Isolation and characterization of endophytic
bacteria in soybean (Glycine spp.) omon Rice, 12: 92-101.
Hyun,Jae-Wook.; Kim,Young-Hoon.; Lee, Yong-See.; and Park,,Won-Mok.; (1999)
Isolation and Evalution of Protective Effcet against Fusarium Wilt of sesame
Plants of Antibiotic Substance from Bacillus polymyxa KB-8. Plant Pathol. J.
15(3): 152-157.
Idris,E.E.;Iglesias,D.J.;Talon,M.;Borriss,R.(2007).Tryptophan dependent production of
indole-3-Acetic Acid (IAA) affects level of plant growth promotion by Bacillus
amyloliquefaciens FZB42.Mol. Plant.Microbe Interact.20(6),619-626.
Page 176
Indus, E.E.; Iglesias, D.J.; Talon, M.; Borriss, R. (2007). Tryptoptian dependent
production of indole-3 acetic acid (1AA) affects level of plant growth promotion
by Bacillus amyloliquefaciens FZB42. Mol. Plant Microbe Interact. 20 (6), 619-
629
Izhar,I.S.Ehteshamul-Haque, M.Javeed and A.Ghaffar (1995). Efficacy of Pseudomonas
aeruginosa and Bradyrhizobium sp., in the control of root-rot disease in chickpea.
Pakistan Journal of Botany, 27: 451-455.
Jabeen,Nayeeema.;Ahmed,Nazir.;Y.Ghani.Muzafar.;A.Sofi,Parez..; (2009) Role of
phenolic compounds in resistance to chilli wilt. Communications in Biometry and
crop Science Vol.4,No.2,pp.52-61.
Jangid, P.K., Matur, P.N., and Kusam Mathur (2004). Role of chitinase and - 1, 3
glucanase elictation in the Trichoderma harzianum induced systematic resistance
in capsicum. Indian phytopath. (57): 217-221.
Jaya Kumar, J., Ramakrishnan, S. and Rajendran G., (2003). Bio-efficacy of fluorescent
Pseudomonads isolates against reniform nematodes, Rotylenchulus renifoimis
infecting cotton, Indian Journal of Nematology, 33 (1): 13-15.
Jayasinghearachchi, H. S.; and Seneviratne, G.; (2006) A mushroom – fungus helps
Improve Endophytic Colonization of Tomato by Pseudomonas fluorescens
Through Biofilm Formation. Research Journal of Microbiology 1 (1): 83-89.
Jenkins, S.F. Jr. (1974). Interaction of Pseudomonas solanacearum and Meloidogyne
incognita on bacterial wilt resistant and susceptible cultivars of egg- plant (Abstr.)
Proceedings of the American Phytopathological Society (1):69-70.
Jetiyanon, K., and Kloepper, J.W. (2002). Mixtures of plant growth-promoting
rhizobacteria for induction of systemic resistance against multiple plant diseases.
Bio. control (24): 285-291.
Page 177
Jha, P. K.; and Jalali, B. L.; (2006) Biocontrol of pea root rot incited by Fusarium solani
f. sp. pisi with rhizosphere mycoflora. Indian Phytopath. 59 (1): 41-46.
Jiskani, M.M.; Pathan, M. A.; Wagan, K. H.; Imran, M.; and Abro, H. ; (2007) Studies on
the control of tomato damping – off disease caused by Rhizoctonia solani Kuhn.
Pak. J. Bo., 39 (7): 2749-2754.
John Davison, 1988. Plant benefical bacteria. Bio Technology, (6): 282-286.
Jonathan, E.I. and Umamaheswari, R. (2006). Biomanagement of nematodes infesting
banana by bacterial endophytes (Bacillus subtilis). Indian Journal Nematology,
(36): 30-233.
Jonathan, E.I. and Umamaheswari, R. (2006). Biomanagement of nematodes
infesting banana by bacterial endophytes (Bacillus subtilis). Indian
Journal Nematology, 36:30-233.
K.Santombi.; Sharma,G.J.;(2007). Micropropagation of Capsicum annuum. Not.Bot.
Hort.Agrobot.Cluj,Volume 35,Issue 1.
Kajimura, Y. and Kaneda, M. (1997). Fusaricidins B.C. and D., New depsipeptide
antibiotics produced by Bacillus Polymyxa KT-8: Isolation, structure elucidation
and biological activity. J. Antibiotics (50): 220-228.
Kajimura, Y. and Kaneda, M. 1997. Fusaricidins B. C and D., New depsipeptide
antibiotics from Bacillus subtitis FR-Z J. Antibiotics (48): 1095-1103.
Kajimura, Y., Sugiyama, M. and Kaneda, M. (1995). Bacillopeptins., new cyclic
lipopeptide antibiotics from Bacillus subtitis FR-Z J. Antibiotics 48: 1095-1103.
Kamil.Z.;Rizk.M.;Saleh.M.; and Moustafa.S.;(2007) Isolation and identification of
Rhizosphere Soil Chitinolytic Bacteria and their Potential in Antifungal
Biocontrol. Global Journal of Molecular Science 2(2):57-66.
Page 178
Kang Y, carlson R, Tharpe W, Schell MA. 1998. Characterizationn of genes involved in
biosynthesis of a novel antibiotic from Burkholderia cepacia BC 11 and their role
in biological control of Rhizoctonia solani. Appl. Environ Microbiol 64: 3939-
3947.
Kapoor I. J., and Kumar B. (1991) Temperature effect on the antagonistic activity of
fungal and bacterial antagonists against isolates of Fusarium oxysporum and F.
solani. India Phytopath. 44 (1): 80-86.
Kapoor, I. J.; and Kumar, B.; (1991) Relative efficacy of systemic and non- systemic
fungicides against Fusarium oxysporum and F. solani affecting tomato. Indian
Phytopath 44 (1): 87-93.
Katan, J. (1996) soil solanization integrated control aspects In: R. Hall (ed.), strategies for
managing soilborne plant pathogens APS Press, St Paul, PP. 250-278.
Katzenlson,H. and Bose,B., (1969). Metabolic activity and phosphate dissolving
capability of bacterial isolates from wheat roots,rhizosphere and non-rhizosphere
soil. Can.j.Microbiol.(5):79-85.
Kavitha J., Jonathan E.I.,Umamaheswari R. (2007). Field application of Pseudomonas
fluorescens, Bacillus subtils and Trichoderma viride for the control of
Meloidogyne incognita (Kofoid and White) Chitwood on sugarbeet. J. Biol.
control.soc. Bio-control Adv., Bangalore, India. 21(2):211_215.
Kawai, Ayako.;Kusunoki, Kaori., Aiuchi, Daigo.;Koike, Masanori.;Tani, and Kuramochi
Katsuhisa.;. (2006) Biological control of verticillium black spot of Japanese
radish using Bacillus spp. and genotypic differentiation of selected antifungal
Bacillus strains with antibiotic marker. Res. Bull. Obihiro, (27): 109-119.
Keel, C.; Defago, G. (1997). Interactions between benefical soil bacteria and root
pathogens: Mechanisms and ecology Brown V.K., editiors; Gange AC, Brown
V.K., editiors. Multitrophic interactions in terrestrial systems. London Blackwell
Scientific Publishers; pp. 27-46.
Page 179
Kendrick, W.B. (1963): Fungi associated with brakdown of pine leaf litter in the organic
horizon of a podzol. Mycopath. Appl. (19). 241-245.
Kenny,D.S. nad Couch,T.L., 1981, Mass production of biological agents for plant disease
weed and insect control. In: Biological control in crop production (ed.papavizas,
G.C., Totowa, N.J.) Allaheld, osmum, 461 pp.
Khalid A, Arshad M, Zahir ZA, 2004.Screening Plant growth-promoting rhizobacteria for
improving growth and yield of wheat.Journal of Appplied Microbiology, 96
(Suppl 3): 473-480 (8).
Khan MR and Tarannum Z. (1999). Effects of field application of various
microorganisms on Meloidogyne incognita on tomato, Nematologia Mediterranea
(27): 233-38.
Khan, M.R., and M. Akram, (2000). Effects of certain antagonistics fungi and
Rhizobacteria on wilt disease complexes of tomato caused by Meloidogyne
incognita and Fusarium oxysporum f. sp. lycopersici. Nematologia Mediterrenea
(28):139-144.
Khan, M.R., and S.M. Khan, (2002). Effect of root-dip treatment with certain phosphate
solubilizing microorganisms on the fusarial wilt of tomato. Bioresource
Technology (85): 213-215.
Khan, M.R., S.M. Khan and N. Khan, (2001). Effect of soil application of certain fungal
and bacterial bio-agents against Meloidogyne incognita infecting chickpea.
Abstracts, conference on centenary of Nematology in India. I.A.R.I. New Delhi,
India.
Khan, Md. Saghir and Almas Zaidi. (2002). Plant growth promoting rhizobacteria from
rhizosphere of wheat and chickpea. Ann. Pl.Protec. Sci. 10(2): 265-271.
Khan, Mujeebur Rahman.;M.Khan,Shahana.; and Mohide,Faya.; (2005) Root-knot
Nematode Problem of Some Winter Ornamental Plants and Its Biomanagement.
Journal of Nematology 37(2) |198-206.
Page 180
Khan,Aly.;Shahid Shaukat,S.; and Ahmad,Iftikhar.;(2000) Nematode Communities
Associated with Chillies in Lower Sindh, Pakistan. Journal of Biological
Sciences 3(3):457-458.
Khan,M.D.Saghir.; and Zaidi,Almas.;(2002) Plant Growth Promoting Rhizobacteria from
Rhizosphere of wheat and Chickpea. Ann.Pl.Protec.Sci.10(2):265-271.
Khanna, P. K.; Olivier, J. M.; Samson, R. R.; and Guillaumes, J.; (1990) Isolation,
Characterization and screening of antagonsits of pseudomonas tolaasii for
biological control. Indian Phytopath. 43 (3): 352-360.
Kim, H.K. & Roh, M.J. (1987). Isolation Identification and evaluation of biocontrol
potential of rhizosphere antagonists to Rhizoctonia solani Korean Journal of
Plant Protection, (26): 26-87.
Kim, K.D. Nemee, S. Musson, G. (1997). Effects of composts and soil amendments on
soil microflora and phytophthora root and crown rot of bell pepper. crop prot.
(16): 165-172.
Kim, Y. J., B.K. Hwang, and K.W. Park, (1989). Expression of age-related resistance in
pepper plants infected with Phytophthora capsici. Plant Dis. (73): 745-747.
King, E.O., Ward, M.K. and Raney, D. E. (1954). Two simple media for the
demonstration of pyocyanin and fluorescens. J. Lab. clin. med. (44): 301-307.
Kishore K.G., Pandey S., and Polile A.R., (2003). Seed bacterization with PGPR and
phylloplane bacteria promotes growth and increases yield in ground nut. Sixth
International workshop on plant Growth promoting Rhizobacteria, calicut, India,
pp. 427-431.
Kloepper J.W. (2003). A Review of Mechanisms for plant growth promotion by PGPR.
6th
international PGPR workshop, Calcutta, India.
Page 181
Kloepper, J. W., Leong, J., Teintze, M. and Schroth, M. N. (1980). Enhanced plant
growth by siderophores produced by plant growth promoting rhizobacteria nature.
(286): 885-886.
Kloepper, J.W., Leong, J., Teintze, M and Schroth, M.N. (1980A). Enhanced plant
growth by siderophores produced by plant growth promoting rhizobacteria.
Nature, 64. 286-886.
Kloepper, J.W., Rodriguez-Kabana, R., Mclnroy, J.A., Collins, D.J., (1991). Analysis of
populations and physiological characterization of micro organisms in rhizospheres
of plants with antagonistic properties to phytopathogenic nematodes, Plant and
Soil (136), pp. 95-102.
Kloepper, J.W., Schroth, M.N. and Miller, T.D. (1980B). Effect of rhizobacteria
colonization by plant growth promoting rhizobactria on potato plant development
and yield. Phytopathology, 70 (11). 1078-1082.
Kloepper, J.W., Wei, G. and Tuzun, S. (1992). Rhizosphere population dynamics and
internal colonization of cucumber by plant growth promoting rhizobacteria which
induce systenic resistance to Collectotrichum orbiculare, In: Biological control of
plant diseases. (Tjamos, E.S. ed.). Plenum Press, New York. 185-191, pp
Kloepper,J.W.; Reddy,M.S.; and Kabana,R.Rodriguez.; Kenney,D.S.; Burelle,
N.Kokalis.; Ochoa,N.Martinez.; Vavrina,C.S.(2004) Application for
Rhizobacteria in Transplant Production and Yield Enhancement. Acta Hort
631,ISHS.
Kloepper,Joseph W.; Ryu Choong-Min.; and Zhang, Shoan.; (2004) Induced systemic
resistance and promotion of Plant growth by Bacillus spp. Phytopathology Vol.
94 (11): ,1259-1266.
Knaak, N.; Rohr, A.A.; Fivza, L.M, (2001). In vitro effect of Bacillus thuringiensis
strains and cry proteins in phytopathogenic fungi of paddy rice field. Braz. J.
Microbiol. 38 (3), 526-530.
Page 182
Knaak, N.; Rohr, A.A.; Kiuza, L.M. (2007). In vitro effect of Bacillus thuringiensis
strains and cry protiens in phyotopathogenic fungi of Paddy rice-field. Braz. J.
Microbiol. 38(3), 526-530.
Knox, OGG Killham, K., Leifert, C.(2000).Effect of increased nitrate availability on the
control of plant pathogenic fungi by the soil bacterium Bacillus subtilis. Applied
Soil Ecology (15):227-31.
Kobayashi DY, Reedy RM, Bick JA, Qudemans PV. 2002. Characterization of a
chitinase gene from stenotrophomonas maltophilia strain 34S1 and its
involvement in biological control. Appl. Environ Microbiol. 68: 1047-1054.
Kokalis-Burelle, N., Vavrina, C.S., Rosskopf, E.N., Shelby, R.A., (2002). Field
evaluation of plant growth-promoting rhizobacteria amended transplant mixes and
soil solarization for tomato and paper production in florida. Plant and soil. 238,
257-266.
Koppula, Sunilbabu.; Ammani, K.; and Bobbarala,Varaprasad.; (2010) Selected plant
extracts as biocontrol agents against the management of Chilli (Capsicum
annuum) diseases. Sunilbabu Koppula et al., Journal of Pharmacy Research. 3
(12),3143-3146.
Krebs, B, Hoding, B., Kubart, S., Workie, M.A., Junge, H., Schmiede Knecht, G.,
Gresch, R., Bochow, H. and Hevesi, M. (1998). Use of Bacillus subtilis as bio-
control agent. I. Activities and characterization of Bacillus subtitis strains. J. plant
Dis. Prot. (105): 181-197.
Krieg,N.R. and Holt,J.G., (1984). Bergey‟s menual of systematic Bacteriology,Willians
and wilkins, Baltimore and London.
Krishamrthy, K.; and Gnanamanickam, S.S.(1998). Biocontrol of rice sheath blight with
formulated Psedomonas putid., Indian Phytopath.51(3):233-236
Page 183
Krishna Rao V., and Krishappa K. (1995). Soil solarization for the control of soil-borne
pathogen complexes with special reference to Meloidogyne incognita and
Fusarium oxysporum f. sp. ciceri. Indian Phytopah. 48 (3): 300-303.
Krishnaveni, M., Subramanian S. (2004). Evaluation of bio-control agents for the
management of Meloidogyne incognita on cucumber (Cucumis sativus L.) .
Current Nematol. 15 (1/2): 33-37.
Kumar D and Dubey SC (2001). Management of collar rot of Pea by the integration of
biological and chemical methods. India Phytopath. 54: 62-66.
Kumar Vipin.;Haseeb Akhtar and Sharma Anita.;(2009). Integrated Management of
Meloidogyne incognita-Fusarium solani Disease Complex of Brinjal cv.Pusa
Kranti. Ann.Pl.Protec.Sci.17(1):192-194
Kumar, N. Ramesh.; Thirumalai, V. A.; and Gunasekaran,P.; (2002). Genotypic of
antifungal compounds producing plant growth promoting rhizobacteria,
Pseudomonas fluorescnes. Current Sci. Vol. 82 (12) 1463-1466.
Kumar, V.; Singh, B. M.; and Sugha, S. K. (1993) Variation in isolates of Pseudomonas
solanagearum from Himachal Pradesh. Indian J. Mycol Pl. Pathol. Vol. 23 (3):
232-236.
Kumar, Vinod.; Kumar, A.;Verma, V. C.;Gond and Kharwar, R. N.; (2007). Induction of
defense enzyme in Pseudomonas flourescens treated chickpea roots against
Macrophomian phaseoline. Indian Phytopath, 60 (3): 289-295.
Kurundkar, B. P.; and Mahajan, S. B.; (2005). Antagonistic effect of fungal isolates
against Fusarium undum. Department of Plant Pathology, Marathawada
Agriculture University, Vol.58(3):.
Laha, G. S.; Verma, J. P.; and Singh, R. P. (1996). Effectiveness of fluorescent
pseudomonas in the management of sclerotial wilt of cotton. Indian Phytopath, 49
(1): 3-8.
Page 184
Laha, G.S. and Verma, J.P. (1998). Role of fluorescent pseudomonads in the suppression
of root rot and damping-off of cotton. Indian phytopath. 51(3):275-278.
Laha, G.S.; Singh, R.P.;and Verma, J.P.(1992) Biocontrol of Rhizoctonia solani in cotton
by fluorescent pseudomonads, Indian Phytopathology 45(4): 412-415 .
Lalande R, Bissonnette N, coutlee D, Antoun H.et al.,(1989). Identification of
rhizobacteria and determination of their plant growth promoting potential, Plant
and Soil. 115: 7-11.
LaMondia, J.A., Elmer, W.H., Mervosh, and T.L. Cowles, R.S. (2002). Integrated
management of strawberry pests by rotation and intercropping. Crop prot. (21),
837-846.
Lampis, G., Deidda, D., Maullu, C., Madeddu, M.A. and Pomper, R. (1995). Softabacins
and satta zolins: New biologically active compounds with antiviral properties
extracted from a Bacillus sp. J. Distribiotics. (48):967-972.
Larkin,R.P. and Fravel, D.R. (1998). Efficacy of various fungal and bacterial bio-control
organisms for control of Fusarium wilt of tomato. Plant Dis. (82): 1022-1028.
Lee,Jung Yeop.; Moon Surk Sik.; and Hwang Byung Kook (2003) Isolation and
Antifungal and Antioomycete Activities of Aerugine Produced by Pseudomonas
fluorescens Strain MM-B16. Applied and Enviromental Microbiology,p.2023-
2031.
Leeman, M., Scheffer, R.J., Van-Pelt, A.J. Bakker, P.A.H.M., Schippers B. & Van-Pelt,
J.A. (1991). Control of Fusarium wilt of radish by Pseudomonas fluorescens in
green house trials. Bull. srop. Netherland (14): 34-38.
Leifert, C., L., H., Chidbouree, S., Hampson, S., Workman, S., Sigee, D., Epton, H.A.S.
and Hanborn, A. (1995). Antibiotic production and biocontrol activity by Bacillus
subtilis CL 27 and Bacillus pumilus CL 45. J. Appl. Bacterial. (78): 97-108.
Page 185
Leisinger, T., and R. Margraff, (1979). Secondary Metabolites of the fluorescent
pseudomonads, Microbiol. Rev. (43): 422-442.
Lemessa, F. and Zeller, W. (2007). Screening rhizobacteria for biological control of
Ralstonia solancearum in Ethiopic. Bio-control (42):336-344.
Leong, J. (1986). Siderphores their biochemistry and possible role in the bio-control of
plant pathogens . Annual Review of Phytopathology, 24. 187-209.
Leong, S.A. and J.B. Neilands (1982), Siderophare production by phyto pathogenic
microbial species. Arch. Biochemistry, Biophys. (218): 351-359.
Leonian, L.H. (1919). Fusarium wilt of chile pepper. New Mexico Agricultural
Experiment Statics Technical Bulletin No.-121.
Leyns, F., B. Lambert, H. Joos, and J. Swings, (1990). Antifungal bacteria from different
crops. pp. 331-335 in D. Hornby, ed. Biological control of soil-borne plant
pathogens oxan. U.K. CAB. International.
Li B XIE Guan-L in Soad A Coosemans j. (2005). Suppression of Meloidogyne javanica
by antagonistic and plant growth-promoting rhizobacteria. Journal of Zhejiang
University Science 6B(6):496-01.
Li X. Q., A. Tan, M. Voegtline, S. Bekele, c.s. chen, and R.V. Aroian. 2008. Expression
of cry 5B Protein from Bacillus thuringiensis in plant roots confers resistance to
root-knot nematode. Biol. Control. 47:97-102.
Lim H-S, Kim Y-S, Kim S-D. Pseudomonas stutzeri YPL-1genetic transformation and
antifungal mechanism agent of plant root rot. Appl. Environ. Microbiol. (57): 510-
516.
Link (1993). Fusarium diseases of crops in India. Indian Phytopath. 46(2): 101-109 .
Page 186
Liu T. Wang L. Duam 40-Xi wang X. (2008). Nematicidal activity of culture fultrates of
Beauveria bassiana against Meloidogyne hapla, world. Journal of Microbiology
and Biotechnology. (24): 113-18.
Liu, L., Kloepper, J.W., Tuzun, S., 1995a. Introduction of systemic resistance in
cucumber against Fusarium wilt by plant growth promoting rhizobacteria.
Phytopathology (85): 695-698.
Liu, L., Kloepper, J.W., Tuzun, S., 1995b. Induction of systemic resistance in cucumber
against angula leaf spot by plant growth promoting rhizobacteria. Phytopathology
(85): 843-847.
M‟Piga, P., Belanger, R.R., Paulitz, T.C., and Benhamou, N., (1997). Increased resistance
to Fusarium oxysporum f. sp. radicis-lycopersici in tomato plants treated with the
endophytic 214 Niranjan Raj et al., bacterium Pseudomonas fluorescens strain
63-28. Physiol. Mol. Plant Pathol. (50): 301- 320.
Madhaiyan, M. (2003). Molecular aspects, diversity and plant interaction of facultative
methylotrophs occuring in tropics plants Ph.D. Thesis, TNAU, Coimbatore, India.
Manav,M. and Thind,B.S. (2002) Management of bacterial blight of rice with biocontrol
agents. Plant Disease Research, 17(1): 21-28.
Manoranjitham, S. K.; Prakasam, V.; Rajappan, K.; and Amutha, G.; (2000) Control of
chilli damping off usign bio-agents. J. Mycol. Pl. Pathol., Vol. 30 (2) 225-228.
Maoka, T., Mochida, K., Ito, Y., Fujiwara, Y., Hashimoto, K., Enjo F., Ojata, M.,
Nobukumi, Y., Tokuda, H., and Nishino, H., (2001). Cancer chemopreventive
activity of carotenoids in the fruits of red paprika capsicum annum L. Cancer
Lettr., 172 (2), 103-109.
Maoka, T., Mochida, K., Ito, Y., Fujiwara, Y., Hashimoto, K., Enjo, F.,
Ojata, M., Nobukumi, Y., Tokuda, H., and Nishino, H., (2001).
Page 187
Cancer chemopreventive activity of carotenoids in the fruits of red
paprika Capsicum annum L. Cancer Letts., 172(2), 103-109.
Mareeswari. P.R. Samiyappan, L., Mohan and Kamalakannan, A., (2006). Biological
control of Damping off disease of tomato. Journal of Eco-friendly Agriculture.
1(1): 60-63:
Mathew, K.A. & Gupta, S.K. (1992). Biological control of root rot of french bean caused
by Rhizoctonia solani. Journal of Mycological Plant Pathology, (28): 202-205.
Mathiyazhagan, S. (2003). Studies on the soil borne diseases of phyllonthus amarus
(Schum and Thonn) and their management M.Sc. (Ag.) Thesis, TNAU,
Coimbatore, India, 129p.
Mathiyazhagan, S., Kavitha K., Nakkeeran, S.,Chandrasekar, G., Manian, K.,
Renukadevi, P., Krishnamoorthy, A. S., and Fernando, W. G. D. (2004). PGPR
mediated management of stem blight of Phyllanthus amarus (Schum and Thonn)
caused by Corynespora cassiicola (Berk and curt) wei. Archieves of
Phytopathology and Plant protection vol. (37) pp. 183-199.
Maurhofer, M., Hase, C., Meuwley, P., Metraux, J.P., and Defago, G., (1994). Induction
of microbiology. Varma, A., Abbott, L., Werner, D., Hampp, R., eds Springer,
N.Y.,pp.99-
Meyer,L.F.Susan..;and Roberts,Daniel P.;(2002) Combinations of Bio-control Agents for
Management of Plant-Parasitic Nematodes and Soilborne Plant-Pathogenic Fungi.
Journal of Nematology 34(1):1-8.
Mishra, S.D. and Prasad, S.K. (1974). Effect of soil amendments on nematodes and crop
yields. oil-seed cakes, organic matter, inorganic fertilizers and growth regulators
on nematodes associated with wheat and their residual effect on many Indian J.
Nematology, (4): 1-19.
Page 188
Mohamed Salah El-din Hassan Khalil, Atiyat Farag Gaber Allam, Ahmed Sobhi Tag
Barakat. (2012). Nematicidal activity of some biopesticide agents and
microorganisms against root-knot nematode on tomato plant under greenhouse
conditions. Journal of plant protection research. Vol. 52, no. 1.
Mojica-Marin, V.; Luna-Olvera, H.A.; Sandoval- Coronado, C.F.; Pereyra Alferez, B.;
Morales-Ramos, L.H.; Hemandez, Luna, C.E.; Alvarado-Gomez, O.G. (2008).
Antagonistic activity of selected strains of Bacillus theriugensis against
Rhizoctonia solani of chilli pepper. Afr. J. Biotechnol. 7(9), 1271-1276.
Mondal, K. K.,.;Singh, R. P.;Verma ,J. P.(1999). Beneficial effects of indigenous cotton
rhizobacteria on seed germinability, growth promotion and suppression of
bacterial blight disease. Indian Phytopaht. 52 (3): 228-235.
Montaser Fawzy Abdel-Monaim, Mam doh Evis Ismail (2010). The use of antioxidants
to control root-rot and wilt diseases of pepper. Not Sci. Biol 2 (2), 46-55.
Montealgree, J.R.; Rayes, R.; Perez, L.M.; Herrera, R.; Silva, P. ; Besoin, X. (2003).
Selection of bioantagonistic bacteria to be used in biological control of
Rhizoctonia solani in tomato. Electron, J. Biotechnol. 6(2), 38-50.
Moon,Hyo sun.;Khan,Zakaullah.;Kim,Sang Gyu..;Son.Seon-Hue.; and Kim.Young.Ho.;
(2010). Biological and Structural Mechanism of Disease Development and
Resistance in Chili Pepper infected with the Root-knot Nematode. Plant pathol.J.
26(2) 149-153.
Muhammad S, Amusa NA, (2003). In-vitro inhibition of growth of some seedling blight
including pathogens by compost-inhabiting microbes. Afr. J. Biotechnol. 2: 161-
164,
Murugesh, K.A. and Mahalingam, C.A. (2008). Bioprospecting of antagonistic microbes
for management of mulberry. (Morus alba L.) root rot (Macrophomina phaseolina
(Tassi) Goid). In: Proceedings of International conference on Trends in Serible
Technology, held at Sri Krishnadevaraya University.S(Abs.)pp.
Page 189
Muthukumar, A. (2008). Management of chilli damping off caused by Pythium
aphanidermatum (Edson) Fitz. wilt bacterial endophytes (Pseudomonas
fluorescens) in glass house conditions. Advances in plant Sciences, (21): 295-298.
Muthukumar,A.; Eswaran,A.; and Saneevkumar.;(2008) Biological control of Pythium
aphanidermatum (Edson).Fitz.Mysore J.Agric,Sci.,42 (1):20-25.
Muthukumar,A.;Bhaskaran,R.; and Sanjeev kumar,K.;(2010) Efficacy of endophytic
Pseudomonas fluorescens (Trevisan) migula against chilli damping. Journal of
Biopesticides 3 (1Special Issue)105-109.
Muthulakshmi, M., Devrajan,K.; and Jonathan, E. I.; (2010). Biocontrol of root-knot
nematode, Meloidogyne incognita (Kofoid and White) Chitwood in mulberry
(Morus alba L.) Journal of Biopesticides, 3(2): 479 – 482.
Nahar-Sharfun,Mushtaq Muhammad.; and H.Pathan,Iqbal.; (2004). Seed-Borne
Mycoflora of Capsicum annuum Imported From India. Pak.J.Bot.,36(1):191-197.
Naik, M.K. and Sen,, B. (1995). Bio-control of plant Diseases.caused by Fusarium spp.
p.32.In:K.G., Mukherjee,(Ed.) Recent Developments in bio-control of plant
diseases. Aditya publishing House, New Delhi, India.
NandaKumar, R., S., Babu, R., Viswanathan; J., Sheela, T., Raguchander, and
Samiyappan, R.,(2001 b). A new bio-formulation containing plant growth
promoting rhizobacterial mixture for the management of sheath blight disease and
enhanced grain yield in rice. Biocontrol 46: 493-510.
NandaKumar, R., S., Babu, R., Viswanathan; T., Raguchander, and Samiyappan,
R.,(2001 a). Induction of systemic resistance in rice against sheath blight disease
by Pseudomonas fluorescens, Soil Biology and Biochemistry. 83: 603-612.
Nautiyal, C.S. (1999). An efficient microbiological growth medium for screening
phosphate solubilizing microorganisms. FEMS Microbiol, Lett. 170(1), 265-270.
Page 190
Nelson, C., (1994). Heal the burn: Pepper and lasers in cancer pain therapy. J. Natl. conc.
Inst., (86) 1381.
Nelson, P.E.; Toussoun, T.A.; Marasas, W.F.O. (1993). Fusarium species: An illustrated
Manual for identification.Pennsylvania state University Press, New York.
Nicholson, vol. (2002): The practical realities of alternatives to methyl bromide:
concluding remarks. Phytopathology (92)1373-1375.
Nicholson,W.L. (2002): Roler of Bacillus endospores in the environment. Cell Mol. Life
Sci. (59),410-416.
Nielsen,Mette Neiendam.; Sorensen, Jan.; Fels, Johannes.; and Hans Christian Pedersen
(1998). Secondary Metabolite and Endochitinase . Dependent Antagonism
towards pathogenic microfungi of Pseudomonas fluorescens isolates from sugar
B. Appl. Enviran Microbiol. 64 (10): 3563-3569.
Nishikiori, T., Masuma, R., Oiwa, R., Katagiri, M., Awaya, J., Iwai, 4. and Omura, S.
(1978). Auratinim, a new antibiotic of bacterial origin. J. Antibiotics (31): 525-
532.
Noling J.W.(2002): The practical realities of alternatives to methyl bromide: concluding
remark. Phytopathology.(92)1373-1375.
O Sullivam, D.J. and O‟ Gara, F. (1992). Traits of fluorescent Pseudomonas. spp.
involved in suppression of plant root pathogens. Microbiol. Rev. (56):662-676.
Ohno, A., Ano, T. and Shoda, M, (1993). Production of the antifungal peptide antibiotic,
iturin by Bacillus subtilis NB22 in solid state formentation. J. ferment. Bioeng.
(75): 23-27.
Oka,y., Koltai, H., Bar-Eyal, M., Mor, M., Sharon, E., Chet, I. and Spiegel,Y.(2000).
New strategies for the control of plant parasitic nematodes. Pest management Sci.
(56):983-988.
Page 191
Oostendrop M, Sikora RA. (1989). Utilization of antagonistic rhizobacteria as seed
treatment for the biological control of Hetrodera schachti in Sugar beet. Rev.
Nematol (12): 77-83,
Otroshy,Mahmoud.; Moradi,Kosar.; Nekouei, Khayam Mojtaba.;and C.Struik,Paul.;
(2011). Micropropagation of Pepper (Capsicum annuum L.) Through in vitro
Direct Organogensis. Asian Journal of Biotechnology 3(1):38-45.
Ozbay N, Newman SE, (2004). Biological control with Trichoderma spp. with emphasis
on T. harzianum. Pakist J. Biol. Sci. (7): 478-484.
P.Ciampi Luigi.;M.Nissen Juan.;G.Venegas Elizabeth.;P.Fuentes Ricardo.;L.,Marcia
Costa.;T.,Renate Schobitz.;D.,Eduardo Alvarez and A. Pilar
Alvarado.;(2009).Identification of two species of Fusarium Link that Cause
Wilting of Colored Calls (Zantedeschia aethiopica(L.) Spreng.) Cultivated under
greenhouse conditions in chile. Chilean journal of Agricultural Research
69(4):516-525.
P.R.Samiyappan, Mareeswari.; Mohan L.; and Kamalakanna, A.; (2006). Biological
control of damping off disease of tomato. Journal of Eco-friendly Agriculture 1
(1): 60-63.
Pakeerathan,K.; Mikunthan,G.; and Tharshani,N.;(2009) Effect of Different Animal
Manures on Meloidogyne incognita (Kofoid and White) on Tomato.World
Journal of Agricultural Sciences 5(4):432-435.
Pande, V. S.; and Chaube, H. S.; (2003). Effect of Pseudomonas fluorescens isolates on
sclerotial viability of Rhizoctonia solani (Kiihn). Ann. Pl. Protec. Sci. 11 (1): 57-
60.
Pandey RajeshKumar.; BhattacharyaChaitali.; Goswami.B.K.; and Singh.Lokendra
(2006). Management of root knot nematode infecting brinjal through combination
of fungal bioagents, Aspergillus fumigates and Trichoderma harzianum.Indian
Phytopath.59(2):199-202.
Page 192
Pandey, H.N., T.C.M. Menon and M.V. Rao (1989). Simple formula for calculating area
under disease progress curve. Rachis 8 (2): 38-39.
Pant, M. and G. Panday (2002). Use of Trichoderma harzianum and neem cake alone and
in combination on Meloidogyne incognita galls in chickpea. Ann. Pl. Protec. Sci.
(10): 175-176.
Paul Diby.; and Y.R. Sharma.; () Pseudomonas fluorescens mediated in black pepper
(Piper nigrum L.) is driven through an elevated synthesis of defense enzymes.
Biodiversity-Microbiology Group,M S Swaminathan Research Foundation,3rd
Cross Street, Taramani Institutional Area, Chennai-600113, INDIA.
Paul, A.S., Babu, P.S. and Sukeel, N.C. (1995). Effect of nematode infected mulberry
plants on the growth and silk production of Bombyx mori L. Indian Journal of
Sericulture, (34): 18-21.
Pawar, N. P. ; Solanke, R. B.;Mirza, F. N.; and Somwanshi, S. D.; (2005). Studies on
seed borne fungi of chilli (Capsicum annuum L.) Department of Plant Pathology,
Marathawada Agriculture University, Vol. 58 (3):.
Person, L.S.,III and L.S. Thomashow. (1992). Cloning and heterologus expression of the
phenazine biosynthetic locus from Pseudomonas aureofaciens 30-84. Molecular
Plant-Microbe Interactions (5):330-339.
Perveen, S., Enterhamut- Haque, S. and Ghaffar, A. (1996). Efficacy of Pseudomonas
alruginosa and Poecilomyces lilacinus in the control of rot-root knot disease
complex of some vegetables. Nematolagia mediterranea (26): 209-212.
Perveen, S.; Ehtheshamul-Haque, S.; and Ghaffar, A.; (1998). Efficacy of Pseudomonas
aeruginosa and Pacilomyces lilacinus in the control of root rot-root knot disease
complex on some vegetables. Nematol. Medit, 26.: 209-212.
Phae, C. G., Saraki, M., Shoda, M. and Kubota, H. (1990). Characteristics of Bacillus
subtilis isolated from compost suppressing phytopathogenic microorganisms. Soil
science and plant nutrition, (36): 575 – 586.
Page 193
Pinton, R., Varanini, Z., and Nannipieri, P., (2001). The rhizosphere as a site of
biochemical interactions among soil components, plants and microorganisms, in:
The Rhizosphere. Biochemistry and Organic Substances at the Soil-Plant
Interface, Pinton, R., Varanini, Z. and Nannipieri, P., eds., Marcel Dekker, N.Y.,
pp. 1-17.
Podile A. R. and Dube H. C. (1987). Antagonism of Bacillus subtilis to phytophthora
drechsleri f. sp. cajani. Indian. Phytopath. 10 (4): 503-506.
Podile, A.R. and Prakash, A.P. (1996). Biological control of Aspergillus niger by
Bacillus subtilis (AF-1). Can. J. Micro-biol. 42-533-538.
Potgieter HJ. Alexander M. (1966). Susceptibility and resistance of several fungi to
microbial lysis. J. Bacteriol (91) : 1526-1532.
Prakob, w., Kanthasab v., Supina, V., Chaimeung chern, N. and Kidtyo, T. (Supplement,
2007). Use of Arbusculas mycorrhizal fungi, Antagonistic fungus and
Rhizobacteria P. aeraginosa and B. subtilis in controlling Tomato root-knot
nematodes, Journal of Agriculture, (23):403-406.
Prakob, Waraporn.;Nguen-Hom, Jeerapa.;Jaimasti, Pornpimon.; Silapapongpri, Siri.;
Thanunchai, Juraiporn.; and Chaisuk, Pornsuk.;(2009). Biological control of
lettuce root-knot disease by the used by Pseudomonas aeruginosa, Bacillus
subtilis and Paecilomyces lilacinus.Journal of Agricultural Technology V,
5(1):179-191.
Prasad R.D., Rangeshwaran R., Hegde S.V. and Anuroop C.P. (2002). Crop Protection,
(21): 293-297.
Prasad T.V., Srivastava K.L., and Kumar Jitendra (2003). Stabilization of Bacillus
thuringiensis in WDP Formulation by UV Protectants. Annals of Plant Protection
Sciences 11 (2): 189-191.
Raaijmakers, J.M. and Weller, D.M. (2001). Exploiting genotypic diversity of 2,4–
diacetyl phioroglucinol producing Pseudomonas spp. characterization of superior
Page 194
root colorizing P. fluorescens strain Q 8r 96. Appl. Environ. Microbiol. (67):
2545-2554.
Radicommare R,R., Nanadakumar, A. Kandan, S. Suresh, M. Bharati, T. Raguchander
and R. Samiyappan.(2002). Pseudomonas fluorescens based bio-formulation for
the management of sheath blight disease and leaf folder insect in rice. Crop
Protection 41: 109-112.
Raguchandar, T., Rajappan, K. & Samiappan, R., (1998). Influence of bio-control agents
and organic amendment on soybean root rot. International Journal of Tropical
Agriculture, (35): 23-29.
Rains, C., and Bryson, H.M., (1995).Topical Capsaicin. A review of its pharmacological
properties and therapeutic potential in post herpetic neuralgia, diabetic neuropathy
and ostearthritis. Drugs Aging., 1(4), 317-328.
Raj,T.Suthin.; and Cristopher,D. John.; (2009). Effect of Bio-control agents and
Fungicides against Colletotrichum capsici causing Fruit Rot of Chilli. Ann.Pl.
Protec.Sci.17 (1):143-145.
Rajappan, K. & Ramaraj, B. (1999). Evaluation of fungal and bacterial antagonists
against Fusarium moniliforme causing wilt of cauliflower. Annals of plant
protection society, 7(2): 205-207.
Rajarathnam S., Shashrickha MNJ, Bano Z., (1998). Biodegradative and biosynthetic
capcities of mushrooms: Present and future strategies crit Rev. Biotech. (18): 91-
236.
Rajendran, L.; Samiyappan, R. (2008). Endophytic Bacillus species confer increased
resistance in cotton against damping-off disease caused by Rhizoctonia solani,
Plant Pathol, J. 7 (1), 1-12.
Raju, M.R.B., Vijay Pal and I. Jalali (2006). Antagonistic rhizosphere bacteria for
management of bacterial soft-rot of radish seed crop. Ann. P1. Protec. Sci. (14):
393-395.
Page 195
Ram,J. and B.B.L. Thakore. 2009. Management of storage rot of ginger by using plant
extracts and bio-control agents. J.Mycol. Pl. Pathol., 39:475-479.
Ramakrishnan,S., Gunasekaran,C.R., and Vadivelu,Sivagami (1996). Effect of bio-
fertilizers azolla and azospirillum on root-knot nematode, Meloidogyne incognita
and plant growth of okra. Indian J.Nematol. 26(2): 127-130.
Ramamoorthy V. and Samiyappan R (2001). Induction of defense related genes in
Pseudomonas fluorescens treated chilli plants in response to infection by
colletotrichum capsici. Journal of Mycology and Plant Pathology (31): 146-155.
Ramamoorthy,V.; Raguchander, T.; Samiyappan, R.; (2002). Enhancing resistance of
tomato and hot pepper to Pythium diseases by seed treatment with fluorescent
pseudomonas. European Journal of Plant Pathology (108):429-441.
Ramanathan, A., V. Shammugam, T. Raguchander and R.Samiyappan (2002). Induction
of systemic resistance in Ragi against blash disease by Pseudomonas fluorescens.
Ann. PL. Protec. Sci. (10): 313-318.
Ramesh, R., Joshi, A.A. and Ghanekar, M.P. (2009). Pseudomonas: Majos endophytic
bacteria to spress bacterial wilt pathogen Ralstonia solanacearum in the egg plant
(solanum melongena L.) world Journal of Microbiology and Biotechnology,
(25):47-55.
Ramezani, Hesamedin.; (2009). Efficacy of some fungal and bacterial bioagents against
Fusarium oxysporum f.sp. ciceri on chickpea. Plant Protection Journal
Vol.1,No.1,:108-113
Ramos, M.L.G. and W.O. Riberio. (1993). Effects of fungicides on the survival of
Rhizobium on seed and nodulation of bean (Phaseolus vulgaris L.). Plant soil,
(152):145-150.
Rangeshwaran, R., Prasad. R.D. and roop Anu, C.P. (2001). Field evalution of two
bacterial antagonists, Pseudomonas putida (PDBCAB2) against wilt and root-rot
of chickpea. J. Biol.Control. (15):165-170.
Page 196
Rangeshwaran, R., Wasnikar, A.R., Prasad, R.D., Anjula, N. and Sunanda. (2002).
Isolation of endophytic bacteria for biological control of wilt pathogen. Journal of
Biological Control, (16): 125-134.
Rangeshwaran,r., Prasad,R.D. and Anuroop,C.P.(2001). Field evalution of two bacterial
antagonists, Pseudomonas Putida (PDBCAB2) against wilt and root-rot of
chickpea.J.Biol.Contrl.(15): 165-170.
Rani Devika. G.S.; Naik. M.K.; Patel. M.B.; and Prasad. P.S.; (2007). Prevalence of wilt
of chilli and assessment of population dynamics of Fusarium in predominant
chilli (Capsicum annum L.) growing regions of Karnataka, J. soil Biol. Ecol. 27:
50-61.
Rani Devika.G.S.; Naik.M.K.;Patil.M.B.; and Prasad.P.S.; (2009) Biological control of
Fusarium solani causing wilt of chilli. Indian Phytopath.62 (2):190-198.
Rao, M.S., Dhananjay Naik., Shylaja M.and Parvatha Reddy P., (2002b). Integrated
nematode management in horticultural crops by using Pseudomonas fluorescens.
National in cropping systems for sustainable Agriculture, Jaipur, India.
Rao, M.S., Dhananjay Naik., Shylaja, M. and Parvatha Reddy P., (2000a.) Prospects for
the management of nematode disease complex in vegetable crops using biological
control agents. Proceedings of international conference on vegetables.
Bangalore, India, 347-351 PP.
Rao, M.S.; Naik Dhananjay and Shylaja,M.; (2004). Bio-intensive management of root-
knot nematodes on bell pepper using Pochonia Chlamydosporia and
Pseudomonas fluorescens. Nematol. Medit. 32; 159-163.
Rao,V. Krishna.; and Krishnappa, K. (1996). Ecology of soilbrone plant pathogens with
special reference to Meloidogyne and Fusarium associated with chickpea wilth in
Karnataka. Indian J. Mycol. Pl. Pathol, Vol. (26) 1; 64-68.
Page 197
Rao,V.Krishna.; and Krishnappa,K.; (1996), Interaction of Fusarium oxysporum f.sp.
ciceri with Meloidogyne incognita on chickpea in two soil types. Indian
Phytopathology,49(2):142-147.
Rao,V.Krishna.; and Krishnappa,K.;(1995), Soil solarization for the control of soil-borne
pathogen complex with special reference to Meloidogyne incognita and Fusarium
oxysporum f.sp.ciceri.Indian Phytopath. 48 (3):300-303.
Raupach, G.S. and Kloepper, J. W. (1988). Mixtures of plant growth promoting
rhizobacteria enhance biological control of multiple cucumber pathogens
Phytopathology.88:1158-1164.
Raupach, G.S. and Kloepper, J.W. (2000). Bio-control of cucumber diseases in the field
by plant growth promoting rhizobacteria with and without methyl bromide
fumigation plant Dis. (84): 1073-1075.
Ravi Kiran,D.; Narayana,K.J.P.; and Vijayalakshmi,M.; (2005). Aflatoxin B1 production
in chillies (Capsicum annuum L.) kept in cold stores. African Journal of
Biotechnology Vol. 4 (8),pp.791-795.
Ravichandra, N. G.; Krishnappa, K.; and Setty, K. G. H.; (1990). Interaction of
Meloidogyne javanica and race-1 race-2, race-3 of M. incognita with
Pseudomonas solanacearum on a few brinjal cultivar/lines. Indian J. Nematol. 20
(2): 138-147.
Reddi KM Sailajarani, A. Sudheer, M.J. (2008). Survey and isolation of nematophagous
fungi associated with root-knot nematode infested fields. Indian Journal of
Nematology. 38(2): 241.
Ricker,A.J., Ricker,R.S.,(1936).Interoduction to Research on Plant diseases John‟s Swift
Co.Inc., Sf. Louis,Chicago New York,
Page 198
Rini, C. R.;and Sulochana, K. K.; (2006). Management of seedling rot of chilli
(Capsicum annum L.) using Trichoderma spp. and fluorescent pseudomonads
(Pseudomonas fluorescens). Journal of Tropical Agriculture 44 (12): 79-82.
Rngeswaran, R.; and Prasad,R.D.; (2000). Biological control of Sclerotium rot of
sunflower.Indian Phytopath.53 (4):444-449.
Roco,Angela.;Perez,Luz Maria.; (2001). In vitro biocontrol activity of Trichoderma
harzianum on Alternaria alternata in the presence of growth regulators. Plant
Biotechnology Vol.4 No.(2).
Rosales A.M., L. Thomashow, R.J. cook, T.W. Mew. (1995). Isolation and Identification
of antifungal metabolites produced by rice associated antagonistic Pseudomonas
spp., Phytopathology (85):1028-1032.
Rrieg, N.R. and Holt, J.G., (1984). Bergey‟s Manual of systematic Bacteriology,
Williams and Wilkins, Baltimore and London.
Ryder MH Yan Z Terrecc TE Rovira AD Tang W Correll RL. (1999). Use of strains of
Bacillus isolated in China to suppress take-all and Rhizoctonia root-rot, and
promote seedling growth of glasshouse-grown wheat in Australian soil. Soil
Biology and Biochemistry (31):19-29.
Sadler, H.M. (1996). Use of bacteria in controlling of fungal diseases. Gemuse muncher,
32 (3): 180-181.
Saharan, BS.; Nehra V.; (2011). Plant Growth Promoting Rhizobacteria: A Critical
Review. Life Sciences and Medicine Research, Volume: LSMR-21
Sahi,Irfan Yousaf.; Khalid,A.N.; (2007). In vitro biological control of Fusarium
oxysporum causing wilt in Capsicum annuum.Mycopath 5(2): 85-88.
Saikia, R.;Kumar, R.;Arora, D. K.;Gogoi, D. K.; Azad, P.; (2006). Pseudomonas
aeruginosa Inducing rice resistance against Rhizotonia solani: production of
salicylic acid and peroxidases. Folia Microbiol 51 (5), 375-380.
Page 199
Saikia,R.; Deka,A.K.; Kalita,R.; and Azad,P.;(2000). In Viro Effect of some Biocontrol
agents on the growth of Colletotrichum falcatum went. Causing Red Rot of
Sugarcane. New Agriculturist,11(1,2):31-34.
Samuthiravalli, M. (2006). Management of root-knot nematode. Meloidogyne incognita
kofoid and white, (1919). Chitwood 1949 and wilt disease Fusarium oxysporum f.
sp. lycopersici (Sacc.) Synder and Hansen complex on tomato by endophytic
bacteria. M.Sc. (Ag.) Thesis, TNAU, Coimbatore, India, 103p.
Santhi, A. and Sivakumar, C.V. (1995). Bio-control potential of Pseudomonas
fluorescens (Migula) against root-knot nematode. Meloidogyne incognita (Kofoid
and white, 1999, Chitwood, 1999) on tomato. Journal of Biological Cotrol, (9):
113-115.
Santyandra and Chaukey AK. (2007). Effect of culture filtrate of Bacillus subtitis and
Aspergillus fumigatus on hatching and mortality of juveniles of Meloidogyne
incognita. Journal of Experimental Zoology, India 10(2): 461-63.
Saravanapriya,B.; and Sivakumar,M.;(2005). Management of root knot nematode
Meloidogyne incognita on tomato with botanicals.
Sarhan, A.R.T. and Sharif, F.M. (1986). Integrated control of Fusarium wilt of pepper.
Act. Phytopathol. Entomologica Hungarica, (21): 123-126.
Sarmai, P. and R. Pandeyz (2009). Biological control of root-knot nematode;
Meloidogyne incognita in the medicinal plant; Withania somnifera and the effect
of bio-control agents on plant growth. Agrican J. Agric. Res. 4(6): 564-567.
Satija, Dharam Vir.;and Hooda, Indra.; (1987). Greenhouse evaluation of seed treatment
fungicides for the control of tomato and chilli damping- off. Indian Phytopath. 40
(2). 222 225.
Scher F.M. and R. Baker (1982). Effect of Pseudomonas putida and a synthetic iron
chelator on induction of soil suppressiveness to Fusarium wilt pathogens
phytopathology (72): 1567-1573.
Page 200
Schippers, B., Bakker, A.W. and Bakker, P.A.H.M. (1987). Interactions of deleterious
and benefical rhizosphere micro organisms and the effect of cropping practice.
Annu. Rev. Phytopathol. (25):339-358.
SchonEnbeck, F., H.W. Dehne, W. Beicht (1980). Untersuchungen zur Aktivierung
unspecifisches Resistenz mechanismen in Pflanzen Z. pflk pflsch utz (87), 654-
666.
Schroth, M.N. and Hancock, J.G. (1982). Disease suppressive soils and root colonising
bacteria. Science (216):1376-1381.
Schwyn, B. and Neilands, J.B. (1987). Universal chemical assay for the detection and
determination of siderophores. Anal. Biochem. (160): 47-56.
Seenivasan, N. and Poorima, K. (2010). Bio-Management of Root-Knot
nematode, Meloidogyne incognita (Kofoid and white).
Sen Bineeta (2000). Biological control: A success story. Indian Phytopath. 53(3):243-
249.
Senthilkumar, T. and Rajendran, G. (2004). Bio-control agents for the management of
disease complex involving root-knot nematode, Meloidogyne incognita and
Fusarium moniliforme on Grapevine (Vitis vinifera). Indian Journal of
Nematolgy. (34): 49-51.
Sethuraman, R. and Vidhyasekaran, P. (1994). Effective control of pigeon-pea wilt by
Pseudomonas flueorscens. J. phytopathol. soc. (47): 289-290.
Setiawati,Wiwin.;Karjadi,Asih Kartasih.; and Soetiarso, Thomas Agoes.; (2010)
Combining effects of cultural practices and resistant cultivars on reducing the
Page 201
incidence of Meloidogyne spp. and Thrips palmy Karny on potato. Indonesian
Journal of Agricultural Science.11(2),48-56.
Setlow, P. (1995): Mechanisms for the prevention of damage to DNA in spores of
Bacillus species Ann. Rev. Microbiol, (49) 29-54.
Shanmugam V., Raguchander T., Ramanathan A., and Samiyappan S. (2003).
Management of Groundnut Root Rot Disease Caused by Macrophomina
phaseolina With Pseudomonas fluorescens. Annals of Plant Protection Sciences
11 (2): 304-308.
Shanthi A., Sivakumar M. (2005). Ecofriendly approaches for the management of root-
knot nematode, Meloidogyne incognita in tomato. J. Plant Protect. Environ. 2(2):
154-157.
Sharma H.K., Kamra A., Panka J., Lal J., Kumar J. (2008). Effect of seed treatment with
Pseudomonas fluorescens alone and in combination with soil application of
carbofuran and neem seed powder against Meloidogyne incognita in okra. Pestic.
Res., J. Soc. Pestic. Sci. India. 20 (1):79-82.
Sharma P,Sekhon HS, Khanna V, Singh G, 2007.Biological nitrogen fixation in
Mungbean: Facts and findings. ISHS Acta Horticulturae 752:.597-601.
Sharma, Anita and A. Haseeb (2006). Comparative efficiency of chemicals, organic
amendments and bioinoculants for Rhizoctonia solani on Metha zarvensis. Ann.
P1. Protec. Sci. (14): 129-133.
Sharma, D.D., Chandrashekhar, D.S., Srikanta Swamy, K. and Govindaiah (1998). On
farm evaluation of cultural and chemical methods for the control of root knot
nematode disease of mulberry. Indian Journal of Sericulture, (37): 61-63.
Sharma, Poorima.; and Pandey, Rakesh.; (2009). Biological control of root-knot
nematode; Meloidogyne incognita in the medicinal plant; Withania somnifera and
the effect of bio-control agents on plant growth. African Journal of Agricultural
Research Vol.4(6),pp.564-567.
Page 202
Sharma, V.K. and J.Nowak, (1998). Enhancement of verticillium wilt resistance in
tomato transplants by in vitro C-Culture seedlings with a plant growth promoting
rhizobacterium (Pseudomonas sp. strain PsJN). Canadian Journal of
Microbiology, (44):528-536.
Sharma,H.K.;Prasad,D.; Pankaj.; and Sharma,Pratibha.;(2009). Bio-management of
Meloidogyne incognita Infesting Okra. Ann.Pl.Protec.Sci.14(1):191-193.
Shouan Zhang., Reddy M.S. and Kloepper J.W., 2003. PGPR mediated growth
promotion of tobacco and blue mold disease control.Sixth International Workshop
on Plant Growth Promoting Rhizobacteria, 5-10 October, Calicut, India,pp. 444-
451.
Siddiqui Mohammad Rafiq (1986).Parasites of plants and insects.
Siddiqui Z.A. PGPR. (2006). Prospective bio-control agents of plant pathogens In
Siddiqui ZA (ed:) PGPR: Bio-control and Biofertilization. pp: 111-142, Springer,
The Netherland,
Siddiqui ZA, Baghel G, Akhtar MS. (2007). Bio-control of Meloidogyne javanica by
Rhizobium and plant growth promoting rhizobacteria on Lentil world: Microbiol
Biotechnol. (23): 435-441,
Siddiqui ZA, Mahmood I. (1993).Biological control of Meloidogyne incognita race 3 and
Macrophornena phaseolina by Paecilomyces lilacines and Bacillus subtilis alone
and in combination on chick pea. Fudan Appl. Nematol. (16): 215-218,
Siddiqui ZA, Mahmood I. (1995). Biological control of Heterodera cajani and Fusarium
udum by Bacillus subtilis Bradyrhizobium japonicum and Glonus fasciculatum on
pigeonpea, Fundan Appl. Nematol (18): 559-566,
Siddiqui ZA, Mahmood I. (1999). Role of bacteria in the management of plant parasitic
namatodes. A Review, Bioresource Technol. (69): 167-179,
Page 203
Siddiqui ZA, Sharma B, Siddiqui S. (2007). Evaluation of Bacillus and Pseudomonas
isolates for the bio-control of Meloidogyne incognita on tomato Acta. Phytopathol
Entomol Hungar (42): 25-34.
Siddiqui, A.;and Haque-Ehteshamul.;(2000). Use of Pseudomonas aeruginosa for the
control of Root-Rot Knot Disease Complex in Tomato. Nematol.medit. (28):189-
192.
Siddiqui, I.A. and Shaukat, S.S. (2003). Suppression of root-knot disease by
Pseudomonas fluorescens CHAO in tomato importance of bacterial secondary
metabolic, 2, 4- diacetylphologlucinol. Soil Biology and Biochemistry, (35): 1615-
1623.
Siddiqui, I.A., D. Hass, and S. Heeb, (2005). Extracelluar protease of Pseudomonas
fluorescens CAHO, a bio-control factor with activity against the root-knot
nematode. Applied and Environmental Microbiology. 5646-5649.
Siddiqui, I.A., Eheishamul Haque, S., Shahid Shaukat, S., (2001). Use of rhizobacteria in
the control of root-rot knot disease complex of mung bean. Journal of
phylopathology (149). 337-346.
Siddiqui, I.A., Ehteshamul-Haque, S. and Ghaffar, A. (1999). Root-dip treatment with
Pseudomonas aeruginosa and Trichoerma spp., in the control of rot-root knot
disease complex in chlili (capsicum annuum L.) Pak Journal of Nematology
(17):67-75.
Siddiqui, Z.A., and S.I. Hussain. (1991). Studies on the biological control of root-knot
nematode. Current Nematology. 2: 5-6.
Siddiqui,M.R. (2000). Parasites of plants and Insects,Wallingford,UK: CABI Publ.2nd
ed.
Siddiqui,O.;Storozhenko,V. and Kulkharenkova,O.(1996). The use of bacterial
preparation in potato cultivation. Mezhdunaro dnyi Selkokhozaistvennyi Zhurnal,
(6): 36-38.
Page 204
Siddiqui,Z.A., and Akhtar,M.S.(2009).Effect of antagonistic fungi and plant growth
promoting rhizobacteria on growth of tomato and reproductionof root-knot
nematode,Meloidogyne incognita.Australasian Plant Pathology,(38):22-28.
Sikora, R.A. (1988). Interrelationship between plant health promoting rhizobacteria, plant
parasitic nematodes and soil microorganisms. Med. Fac. Landbouww. Rijksuniv
Gent, 53/2b: 867-878.
Silo-Suh, L.A., Lethbridge, B.J., Raffel, S.J., He, H., clardy, J., and Handelsman, J.
(1994): Biological Activities of two fungistatic Antibiotics produced by Bacillus
cereus UW 85. Appl. Environ Microbiol (60) 2023-2030.
Sindhan,G.S; Hoonda,I. and Karwasara,S.S.(2002). Biological control of dry root rots of
chickpea caused by Rhizobacteria bataticola. Plant Disease Research,17 (1): 68-
71.
Singh, Dinesh.; Verma, V. S.; Singh, K. K.; and Sudan, S. K.; (2005). Effect of sowing
dates and soil moisture on the incidence of chilli wilt caused by Fusarium spp.
Dryland Research Sub Satation, SKUAST-J, Dhiansar, Bari Brahamana, Jammu
– 181-133 Vol.58(3):.
Singh, H.B. (2006). Trichoderma: A boon for biopesticides industry. J. Mycol. P1.
pathol. (36): 373-384.
Singh, K.P.; and Singh, U.P. (1996). Effect of Some Plnat Growth Regulators on
Mycelial Growth and Sclertium Formation in Sclerotini sclerotiorum, Indian J.
Mycol. Pl.Pathol.,Vol,26.(1).23-29.
Singh, Rajbir and A.P. Sinha (2005). Effect of Pseudomonas fluorescens
formulations on Sheath blight of rice. Ann. Pl. Protec. Sci. 13: 159-162.
Singh, Rajbir.; and Sinha, A. P.; (2009). Influence of some soil factors and organic
amendments on Pseudomonas fluorescnes and sheath blight of rice. Indian
Phytopath. 62 (4): 435-439.
Page 205
Singh, V.P., Sharma, B.K., and Singh, D.P. (2003). Effect of plant growth promoting
Rhizocbacteria and culture filtrate of sclerotium rolfsii on phenols and salicylic
acid contents in chickpea (Cicer arietinum). Current Microbiol. (46): 131-140.
Singh,R.S.(2003). Assessment of disease incidence and loss.In: Introduction to principle
of plant pathology. Oxford and IBH Publishing Co. PVT. LTD. New Delhi. p.p.
329-338.
Singh.Rajbir.; and Sinha.A.P.;(2007). Management of Sheath Blight of Rice with
Pseudomonas fluorescens. J.Mycol.Pl.Pathol.Vol.37.No.1.
Sivakumar M. (2009). Efficacy of Bio-control agents in Management of Reniform
Nematode - Root Rot Complex in Cotton. Annals of Plant Protection Sciences 17
(1) 200-202.
Sivakumar, M.; Sharma, R. C.; and Rai, S. N.; (2000). Biocontrol of banded leaf and
sheath blight of maize by peat based Pseudomonas fluorescens formulation.
Indian Phytopath. 53 (2): 190-192.
Sivakumar,M.; and Saravanapriya, B.; (2005). Management of root knot nematode
Meloidogyne incognita on tomato with botanical. Research articleVol 4(3).
Sivalingam, P.N., S.N. Vishwakarma and U.S. Singh (2007). Management of rice seed
borne inoculum of Rhizoctonia solani. Ann. P1. Protec. Sci. (15): 524-526.
Sivamani, E. and B.S. Gnanamanickam (1988). Biological counts of F. oxysporum f. sp.
cubense in banana by inoculation with Pseudomonas fluorescens. Plant & soil.
(107): 3-9.
Sonawane, S.S and Pawar, N.B. (2001).Studies on biological management of chickpea
wilt. Journal-of-Maharashtra-Agricultural-Universities, 26(2): 215-216
Sony,W., Zhou,L., Yang, C., Cao,X., Zhang,L., Liux.(2004). Tomato Fusarium wilt and
its chemical control strategies in a hydroponic system. Crop Protec. (23).243-7.
Page 206
Sorokina TA, Lipasova VA, Andreeva NB, Khmel 1A. (1999). The use of bacterial
antagonists for the biological control of Fusarium infection on the carnation
plants growing in hydroponic solution. Biotechnonohiya (15): 78-82.
Srivastava.Rachana.;and Shalini (2008). Antifungal Activity of Pseudomonas fluorescens
Against Different Plant Pathogenic Fungi. Electronic Journal of Environmental,
Agricultural and Food Chemistry 1579-4377.
Starr J.L., Jeger M.J., Marlynr.D. and Schilling K., (1989). Effects of Meloidogyne
incognita and Fusarium oxysporum f. sp. vasinfectum on plant mortality and yield
of cotton. Phytopathology, (79): 640-646.
Stirling G.R. (1991). Biological Control of Plant Parasitic Nematodes CAB International,
Wallingford, U.K., 220pp.
Sturz, A.V., Christie, H.R. and Nowak, J. (2000). Bacterial endophyte. Potential role in
developing sustainable systems of Crop Production Critical Reviews in Plant
Sciences, (19): 1-30.
Sukthivel, N.E. Sivaman, N. Unnmalai, and S.S. Gananamanickam. (1986). Plant growth
promoting rhizobacterial in enhancing plant growth and suppressing plant
pathogens. Current Science. (55): 22-25.
Sultana,Nasreen.;and Ghaffer.,A.;(2010). Effect of fungicides, microbial antagonists and
oilcakes in the control of Fusarium solani, the cause of seed rot, seedling and root
infection of bottle gourd, bitter gourd and cucumber. Pak.J.Bot.,42(4): 2921-2934.
Sultana,Viqar.;Ara,Jehan.;Parveen,Gulnaz.;Ehteshamul-Haque,Syed.; and Ahmad, Viqar
uddin.;(2006). Role of Crustacean Chitin, Fungicides and Fungal Antagonist on
the Efficacy of Pseudomonas aeruginosa in Protecting Chilli From Root Rot.
Pak.J.Bot.,38 (4):1323-1331.
Suryanto,Dwi.;Patonah,Siti.;Munir,Erman.;(2010). Control of Fusarium Wilt of Chilli
With Chitinolytic Bacteria. Hayati Journal of Biosciences Vol.10No.1,p5-8.
Page 207
Suslow TV, Sehroth MN. (1982). Rhizobacteria of sugarbeets: Effects of seed application
and root colonization on yield. Phytopathology (72):19-206,
Tariq, Samrah, Khan, Ruqqaya, Sultana, Viqur, Ara, Jehan and Ehteshamul-Haque,Syed
(2009). Utilization of endo-root fluorescent pseudomonas of chilli for the
management of root diseases of chilli. Pak.J.Bot.,41 (6):3191-3198.
Thanh,D.T.;Tarn,L.T.T.,;Hanh, N.T.;Tuyen,N.H.; Srinivasan, Bharathkumar, Lee, Sang
Yeob and Park,Kyung-Seok .;(2009). Biological Control of Soilborne Diseases on
Tomato, Potato and Black Pepper by Selected PGPR in the Greenhouse and Field
in Vietnam. Plant Pathol. J. 25(3): 263-269.
Thomas, S.H. (1994). Influence of 1, 3 – dichloropropene fenaniphos and carbofuran on
Meloidogyne incognita populations and yield of chile peppers. J. Nematol. 26(45).
683-689.
Thomas, S.H.; Schroeder, J.; and Murray, L.W.; (2004). Cyperus Tubers Protect
Meloidogyne incognita from 1,3-Dichloropropene. Journal of Nematology
36(2):131-136.
Tiwari P.K. and Thrimurty V.S. (2009). Efficacy of Pseudomonas fluorescens isolates for
Plant Growth Promotion and Disease Management in Rice. Annals of Plant
Protection Sciences. 17 (1): 119-123.
Tomar M. (2004). Studies on the management of Fusarium root-rot of Acacia catachu
wild. M.Sc. Thesis. Deptt. Myco. Plant pathology, India.
Tseng, Chi-Ling.; Chen,Hui-ju.; and Shaw, Gwo-Chyuan.; (2006). Identification and
Chracterization of the Bacillus thuringiesis phaZ Gene, Encoding New
Intracellular Poly-3-Hydroxybutyrate Depolymerase. Jouranal of bacteriology,
p.7592-7599.
Utkhede,R.S.;and Mathur,S.;(2005). Biological and Chemical Control of Fruit Rot in
Greenhouse Sweet Peppers (Capsicum annuum L.) Caused by Fusarium
subglutinans. Journal of Biological Sciences 5(5):610-615.
Page 208
Vaidya.Manita.;Shanmugam.V.; and Gulati.;Arvind.;(2004). Evalution of Bio-control
Agents Against Fusarium Isolates Infecting Carnation and Gladiolus.Ann.
Pl.Protec.Sci.12(2):314-320.
Vessey J.K.,(2003). Plant growth promoting rhizobacteria as biofertilizers. Plant and
Soil, 255 (suppl 2): 571-586.
Vidhyasekaran, P., and Muthamilan, M. (1995). Development of formulation of
Pseudomonas fluorescens for control of chick pea wilt, plant Dis, (79): 782-780.
Vidhyasekaran, P., and Muthamilan, M. (1999). Evalution of powder formulations of
Pseudomonas fluorescens Pf 1 for control of rice sheath blight, Bio-control
Science and Technology. 9: 67-74.
Vidhyasekaran, P., Sethuraman, K., Rajappan, K., & Vaseemathi, K. (1997). Powder
formulations of Pseudomonas flourescens to control pigeon pea wilt. Biological
control , (8): 166-171.
Vincent, J.H. (1927). Distortion of fungal hyphae in the prescence of certain inhibitors.
Nature, 159:350.
Viswanathan, R.; and Samiyappan, R.; (2001). Role of chitinases in Pseudomonas spp.
induced systemic resistance against Collectotrichum falcatum in sugarcane.
Indian Phytopath, 54 (4): 418-423.
Walker, R., Powell, A.A. and Seddon, B. (1998). Bacillus isolates from the spermosphere
of peas and dwarf French beans with antifungal activity against Botrytis cincrea
and Pythium species. J. Appil. Microbiol., (84): 791-801.
Walker,J.C.(1952). Diseases of Vegetables Crops. McGraw Hill Book Co., London.
Wei G, Kloepper JW, Tuzun S. et al., (1996).Induced systemic resistance to cucumber
diseases and increased plant growth by plant growth promoting rhizobacteria
under field conditions Phytopathology (86): 221-224,
Page 209
Wei, G., Kloepper J. W. and Tuzum, S. (1991). Induction of systemic resistance of
cucumber to Callctorichum orbiculaer by select strains of plant growth promoting
rhizobacteria Phyto-pathology (81): 1508-1512.
Weller D.M. (2007). Biological Control of Soil borne plant pathogens in the rhizosphere
with Bacteria. Ann. Rev. Phylopathol (26): 435-441,
Weller, D.M. (1988). Biological control of soil borne plant pathogens in the rhizosphere
with Bacteria Annu Rev. Phytopathol. (26): 379-407.
Weller, D.M. and cook, R.J. (1983). Suppression of take-all of wheat by seed treatments
with fluorescent pseudomonas. Phytopathology (73):463-469.
Weller, D.M., Raaijmakers, J.M., M.C. Spadden, B.B., Thomashow, L.S., (2002).
Microbiol populations responsible for specific soil suppressiveness to plant
pathogens. Annual Review of Phytopathology (40), 309-348.
Werner, D. (2004). Signalling in the rhizobia-legumes symbiosis, in: Plant surface
Whipps JM. (2001). Microbial interaction and bio-control in the rhizosphere. J Exp. Bot.
(52): 487-511,
Whipps, J. M. (1997). Developments in biological control of soil borne plant pathogens.
Adv. Bot. Res. (26):1-134.
Whipps, J.M. and D.R. Lumsden, (1991). Biological control of Pythium species. Bio-
control Sci. Tech., (1): 75-90.
Winkelmann, G. and H. Drechsel (1997). Microbial siderophores, Biotechnology HT
Rohm and G. Reed (eds) “Second Edition. VCH, weiheim vol. 7, pp. 199-246.
Winkelmann, G., Allgaier, H., Lupp, R. and Jung, G. (1983). Iturin A1-A new long chain
iturin A possessing an unusual high content of C16- -amino acids. J. Antibiotics
(36): 1451-1457.
Page 210
Wongpia,Aphinya.;Lomthaisong,Khemika.; (2010). Changes in the 2DE protein profiles
of chilli pepper (Capsicum annuum) leaves in response to Fusarium oxysporum
infection. Science Asia (36): 259-270.
Wu,Hong-Sheng.; Wang,Yang.; Zhang,Chao-Yong.;Bao,Wei.;Ling,Ning.;Liu,Dong-
Yang.; and Shen,Qi-Rong.;(2009). Growth of in vitro Fusarium oxysporum
f.sp.niveum in chemically defined media amended with gallic acid. Biol Res (42):
297-304.
Wulff, E.G., Mguni, C.M. Mortensen, C.N. Kesani, C.L. Hockenhull, J. (2002).
Biological control of black rot (Xanthomonas compestris pv. compestris) of
brassica with an antagonistic strain of Bacillus subtilis in Zimbabwe. European
Journal of Plant Pathology (108):317-25.
Yang Wook Jung.;Yu Hun Seung.; and Ryu Choong-Min (2009). Priming of Defense-
Related Genes Confers Root-Colonizing Bacilli-Elicited Induced Systemic
Resistance in Paper. Plant Pathol. J. 25(4):389-399.
Yasuda, M. and Katoh.K.(1987). Properties of fluorescent pigment producing
Pseudomonas strains isolated from soil and roots of fruit trees. Soil Science and
Plant Nutritions, 33(4):577-583.
Yelmane, M.G.; Mehta, B.P.; Deshmukh, A.J.;and Patil,V.A.;(2010). Evaluation of some
Organic in In vitro to control Fusarium solani causing Chilli Wilt. International
Journal of Pharma and Bio Sciences.
Yeole, R.D. and Dube, H.C. (2000). Siderophore mediated antibiosis of rhizobacterial
fluorescent pseudomonads against certain soil-borne fungal plant pathogens. J.
Mycol. P1. Pathol. (30): 335-338.
Yu GY Sinclair JB Hartman GL. Bertagnolli BL.(2002). Production of iturin A by
Bacillus amyloliquefaciens. Suppressing. Rhizoctonia solani. Soil Biology and
Biochemistry. (34):955-63.
Page 211
Zaghloul,R.A.;Neweigy,N.A.; Hanafy , E.A.;and Khalifa, N.A.; (2008). Effectiveness of
bio-control agents against tomato soil borne pathogens.Third Enviroment
Conference, Faculty of science, Zagazig Univ.,123-142.
Zaki A., Siddiqui and Israr Husain S. (1991). Studies on the biological control of root-
knot nematode. Current Nematology vol. 2 (1): 5-6.
Zehder,G.W., Murphy,j.f., Sikora,E.J. and Kloepper,J.W.(2001).Application of
rhizobacteria for induced resistance. Eur.J. Plant Pathol.(107). 39-50.
