REFERENCES

1. AICPIP (All India Coordinated Pigeonpea Improvement Project), (1999).

Annual report of AICPIP. Indian Institute of Pulses Research, Indian Council

of Agricultural Research (ICAR), Kanpur, Uttar Pradesh, India.

2. Akhtar, M., Malik, A., (2000). Roles of organic soil amendments and soil

organisms in the biological control of plant- parasitic nematodes . .A review.

Biores. Tech. 74 (1) :35-47.

3. Anonymous, (2010). Aricultural statistics at a glance. Department of

Agricultural and Cooperation, Ministry of Agriculture, Govt. of India, New

Delhi, pp.108-109.

4. Arnold, J., (2002). Pigeonpea benefits cattle on the range. Agricultural

Research. 50 : 18.

5. Arya, A., and Mathew, D.S., (1993). Studies on rhizosphere microflora of

pigeonpea : qualitative and quantitative incidence of microorganisms after

solarization. Indian Phytopath. 46 (2). 153-154.

6. Arya, R.L., Niranjan, K.P., Singh, A., and Singh, J. B., (2002). Food- fodder

cropping systems with nutrient management in agroforestry systems under

rainfed conditions. Indian Journal of Soil Conservation. 30 : 166-171.

7. Bailey, K. L., Lazarovits, G.,(2003). Suppressing soil borne diseases with

residue management and organic amendments. Soil and Tillage Res. 72 (2) :

169-180.

8. Bansal, R.K., and Gupta, R. K., (2000). Evaluation of plant extracts against

Fusarium oxysporum, wilt pathogen of fenugreek, Indian Phytopath. 53 (1) :

107-108.

9. Barnett, H. L., and Hunter, B.B.,(1972). Illustrated genera of Imperfect Fungi,

2nd

edition, Burges Publishing Company, 462 South Street, Minnesota.

10. Bell, D. K., Wells, H. D., and Markham, C. R., (1982). In vitro antagonism of

Trichoderma sp. against six plant pathogens. Phytopathology. 72 (4) : 374 –

382.

11. Bharathi, V., Chandrasekhar Rao, Reddy,M. V., (2008). Economic analysis of

integrated pigeonpea wilt management in vertisols. Journal of Food Legumes.

21 (2) : 125-127.

12. Bhatnagar, H., (1995). Use of commercial biofungicide against wilt of

pigeonpea (Cajanus cajan (L.) Millsp.). Indian J. Plant Prot. 23 : 224-225.

13. Bhatnagar, H., (1996).Influence of environmental conditions on antagobistic

activity of Trichoderma spp. Indian J. Mycol. Pl. Pathol. 26 (1) :58-63.

14. Bhatnagar, K., Sharma, B. S., and Cheema, H. S., (2004). Efficacy of plant

extracts against Fusarium oxysporum f. sp. cumini causing wilt in cumin. J.

Mycol. Pl. Pathol. 34 (2). 360-361.

15. Bidari, V. B.,Gundappagol, R. C., (1997). Trichoderma viride in the integrated

management of pigeonpea wilt under dryland cultivation. Advances in

Agricultura Research in India. 7 : 65-69.

16. Bunker, R.N., and Mathur, K., (2008). Evaluation of neem based formulations

and chemical fungicides for the management of sorghum leaf blight. Indian

Phytopath. 61 (2) : 192-196.

17. Chandel, S., and Tomar, M., (2007). Evaluation of fungicides and

biopesticides against Fusarium wilt of gladiolus. Indian Phytopath. 60 (1) :

115-117.

18. Chandel, S., and Tomar, M., (2008). Effectiveness of bioagents and neem

formulations against Fusarium wilt of carnation. Indian Phytopath. 61 (2) :

152-154.

19. Chandra, H., and Singh, S., (2005). Control of chickpea wilt (Fusarium

oxusporum f. sp. ciceri) using bioagents and plant extracts, Indian J. Agric.

Sci., 75 (2). 115-116.

20. Chattopadhyay, B. and Rai, B., (2004). Efficacy of organic amendments for

the control of Fusarium wilt disease of tomato. Environmental Biology and

conservation. 9: 43-49.

21. Chaudhary, R. G., Kumud Kumar, and Vishwa Dhar, (2001). Influence of

dates of sowing and the moisture regimes in pigeonpea on production

dynamics of Fusarium udum at different soil strata. Indian Phytopath. 54 (1) :

44-48.

22. Chauhan, Y. S., (1987). Screening for resistance to salinity and water logging:

case studies with pigeonpea and chickpea. In Adaptation of Chickpea and

Pigeonpea to Abiotic Stresses. Proceedings of the Consultant’s Workshop.

December 19-21, 1984. ICRISAT Center, India, ICRISAT, Patancheru, AP.

India, pp. 99-103.

23. Chauhan, Y. S., (1990). Pigeonpea : Optimum agronomic management . In

Nene, Y. L., Hall, S. D., and Sheila, V. K. (eds). The pigeonpea. CAB

International, Wallingford, Oxon, UK .pp. 257-278.

24. Chauhan, Y. S., Nene, Y. L., Johansen, C., Haware, M. P., Saxena, N. P.,

Sardar Singh, Sharma, S. B., Sahrawat, K. L., Burford, J. R., Rupela, O. P.,

Kumar Rao, J. V. D. K., and Sithanantham, S., (1988). Effect of soil

solarization on pigeonpea and chickpea. Research Bulletin No. 11,

International Crop Research Institute for the semi-arid tropics. Patancheru, A.

P. 502 304, India.

25. Chawla, N. and Gangopadhyay, (2009). Integration of organic amendments

and bioagents in suppressing cumin wilt caused by Fusarium oxysporum f. sp.

cumini. Indian Phytopath. 62 (2) : 209-216.

26. Chhetry, G. K. N. (2004). Dispersion statistics and sequential sampling plan

for timing fungicides application against Cercospora cajani leaf spot in

pigeonpea. J. Mycol. Pl. Pathol. 34 (2) : 183-185.

27. Chhetry, G. K. N., and Devi, T.R., (2014). Wilt epidemiology of pigeonpea

Cajanus cajan (L.) Millsp.) in organic farming system. IOSR Journal of

Agricultural and Veterinary Science. 7 (1) : 1-6.

28. Chhetry, G. K. N., and Mangang, H. C., (2011). Effect of soil amendments on

soil borne pathogens of French bean (Phaseolus vulgaris L.) in organic

farming system in Manipur. Journal of agricultural Science and Technology,

A 1. 68-72.

29. Chhetry, G. K. N., and Mishra, R. R., Sharma, G. D.,(1994). Effect of

microclimatic factors on epidemiology of leaf spot disease caused by

Colletotrichum lidemuthianum and Phaeoisariopsis griseola of frenchbean

(Phaseolus vulgaris). Indian J. of Agricultural Sciences. 64 (9) : 667-670.

30. Dahiya, J. S., Khurana, A. L., and Dudeja, S. S., (1981). Evaluation of

Cajanus cajan (L.) Rhizobia. In Proceedings of the International Workshop on

Pigeonpeas, 15-19 Dec. 1980, ICRISAT Center, India, vol.2. Patancheru, A. P.

502 324, India: International Crops Research Institute for the Semi-Arid

Tropics. pp. 373-379.

31. Deb, P.R., (1990). In vitro inhibitory activity of some rhizosphere fungi of

soybean against Sclerotium rolfsii Sacc. growth. Acta Botanica India. 18 (2) :

159-162.

33. Deepak, (2011). Soil amendments, plant extracts and plant products for

integrated disease management in agricultural crops. A review. African

Journal of Agricultural Research. 6 (33) : 6790-6797.-

34. Dhingra, O. D., and Sinclair, J. B., (1995). Basic Plant Pathology Methods. 2nd

Edition, CRC Press, Florida, USA. p.292.

35. Dwivedi, S. T., Ambashi and Dwivedi, R. S. (1993). Toxicity of crops.

National Acad. Sci. Hett. 16 (7-8) : 209-210.

36. Elad, Y., Chet, I., and Katan, J., (1980).Trichoderma harzianum : A biocontrol

agent effective against Sclerotium rolfsii and Rhizoctonia solani.

Phytopathology. 70 : 119-121.

37. Gade R.M., Zote, K.K., and Mayee, C. D., (2007). Integrated management of

pigeonpea wilt using fungicide and bioagent. Indian Phytopath. 60 (1) : 24-30.

38. Gerard, E ., Chandrasekar, and Kurucheve,V. (1994).Effect of six selected

plant products and oil cakes on the sclerotial production and germination of

Rhizoctonia solani. Indian Phytopath. 47 (2): 183-185.

39. Gholve, N. M., and Kurundkar, B.P., (2004). Efficacy of combined in vitro

inoculation of Pseudomonas fluorescens and Trichoderma viride. J. Mycol. Pl.

Pathol. 34 (2) : 524-525.

40. Ghosh, P. K., Ramesh P., Bandyopadhyay K.K., Tripathi A.K., Hati K.M.,

A.K., Acharya C.L., (2004). Comparative effectiveness of cattle manure,

poultry manure, phosphocompost and fertilizer-NPK on three cropping

systems in vertisols of semi-arid tropics.I. Crop yields and system

performance. Bioresource Technology. 95 : 77-83.

41. Giller, K.E., (2001). Nitrogen fixation in tropical cropping system, 2nd

edition.

CAB, International, Wallingford, UK. p243.

42. Gohil, V. P., and Vala, D.G., (1996). Effect of extracts of some medicinal

plants on the growth of Fusarium moniliformae. J. Mycol. Pl. Pathol. 26 : 110.

43. Gupta, B. R., (1980). Proc. Int. Workshop on pigeonpea. 2 : 15-19.

44. Gupta, O. M., Kotasthane, S. R.,and Khare, M. N., (1988). Strain variation in

Fusarium udum in Madhya Pradesh, India. International Pigeonpea

Newsletter. 7 : 22-25.

45. Gupta, S. B., Chowdhury, T. Thakur, K. P., and Thakur, M.P., (2005).

Exploiting Rhizobium isolates from Lathyrus as biocontrol agent against

legume rot pathogen Sclerotium rolfsii. J. Mycol. Pl. Pathol. 35 (2) : 224-227.

46. Gupta, S. B., Thakur, K. S., Singh, A., Tamrakar, D. K., and Thakur, M. P.,

(2005). Efficacy of Trichoderma viride and Rhizoctonia against wilt complex

of chickpea in field. J. Mycol. Pl. Pathol. 35 (1) : 89-92.

47. Gwata, E. T., Silim, S. N., and Mgonja, M., (2006). Impact of new source of

resistance to Fusarium wilt in pigeonpea. Journal of Phytopathology. 154 :

62-64.

48. Hasan, A., (1984). Synergism between Heterodera cajani and Fusarium udum

attacking Cajanus cajan. Nematologica Meditarranea .12 : 159-162.

49. Haseeb, A., and Kumar, V., (2009). Efficacy of bioagents & organic

amendment materials against Fusarium oxysporum causing brinjal wilt. Indian

Phytopath. 60 (1). 108- 111.

50. Hassanein, N. M., Abou Zeid, M. A., Youssef, K.A., and Mahmoud, D. A.,

(2008). Efficacy of leaf extracts of Neem (Azadirachta indica) and Chinberry

(Melia azedrach) against early blight and wilt disease of tomato. Australian

Journal of Basic and applied Sciences. 21 (3) : 763-772.

51. Hawre, M. P., and Kannaiyan, J.,(1992). Seed transmission of Fusarium udum

in pigeonpea and its control by seed-treatment fungicides. Seed Science and

Technology. 20 (3) : 597-601.

52. Hillocks, R. J., Minja, E., Mwaga, A., Nahdy, M. S., and Subrahmanyam, P.,

(2000). Diseases and pests in pigeonpea in eastern Africa : A review.

International Journal of Pest Management. 46 : 7-18.

53. Hundekar, A. R., Anahosur, K. H., Patil, M. S.,Kalappanavar, I. K. and

Chattannavar, S. N., (1998). In vitro evaluation of organic amendments

against stalk rot of sorghum. J. Mycol. Pl. Pathol. 28 (1) : 20-30.

54. ICRISAT., (1986). Annual Report 1985. International Crops Research for the

Semi-Arid Tropics, Patancheru, A.P. 502 324, India.

55. Ingole, M. N., Ghawade, R. S., Raut, B. T., and Shinde, V. B., (2005).

Management of pigeonpea wilt caused by Fusarium udum Butler. Crop

Protection and Productivity. 1 (2) : 67-69.

56. Jai, K. C., and Reddy, M. V., (1995). Inheritence of resistence to Fusarium

wilt in pigeonpea (Cajanus cajan L.). Indian Journal of Genetics and Plant

Breeding. 55 : 434-437.

57. Jayaraj, J. and Ramabadran, R., (1999). Rhizobium- Trichoderma interaction

in vitro and in vivo. Indian Phytopath. 52 (2). 190-192.

58. Jegathambigai, V., Wilson Wijeratnam, R. S., and Wijesundera, R.L.C.,

(2009). Trichoderma as a seed treatment to control Helminthosporium leaf

spot disease of Chrysalidocarpus lutescens. World Journal of agricultural

Sciences. 5 (6) : 720-728.

59. Kannaiyan J., Nene, Y. L., (1981). Influence of wilt at different growth stages

on yield loss in pigeonpea. Tropical Pest Management. 27: 141.

60. Kannaiyan, J., Nene, M. V., Ryan, and Raju, T. N., (1984). Prevalence of

pigeonpea diseases and associated crop losses in Asia, Africa and the

Americas. Tropical Pest Management. 30 (1): 62-71.

61. Kannaiyan, J., Nene, Y. L., and Reddy, M.V.,(1981). Survival of pigeonpea

wilt Fusarium in Vertisols and Alfisols. Proceedings of the International

Workshop on Pigeonpeas, 15-19 Dec. 1980, ICRISAT Center, India, vol.2.

Patancheru, A. P. 502 324, India: Intrnational Crops Research Institute for the

Semi-Arid Tropics. pp. 291-295.

62. Kannaiyan, J., Nene, Y. L., Reddy, M.V., and Raju, T. N., (1981).

International survey of pigeonpea diseases. Pulse Pathology Progress Report

no. 12. Patancheru, A.P.502 324, India : International Crops Research Institute

for the Semi-Arid Tropics. pp.82.

63. Kannaiyan, J., Reddy, M.V., and Nene, Y.L.,(1981). Survey of pigeonpea

diseases with special reference to wilt and sterility mosaic in India.

Proceedings of the International Workshop on Pigeonpeas, 15-19 Dec. 1980,

ICRISAT Center, India, vol.2. Patancheru, A. P. 502 324, India: Intrnational

Crops Research Institute for the Semi-Arid Tropics. pp. 297-303.

64. Kannaiyan, J., Reddy, M.V., and Nene, Y.L., and Raju, T. N.,(1981).

Prevalence of pigeonpea wilt and sterility mosaic in India (1975-80).

International Pigeonpea Newsletter 1: 25.

65. Katan, J., (1981). Solar heating (Solarization) of soil for control of soil-borne

pests. Annual Review. Phytopathology. 19 : 211-236.

66. Kaur, M.and Seema, (2002). Antagonistic activity of Pseudomonas strains

isolated from the rhizosphere of medicinal plants, In Proc. Natl. Sem. Role of

antimicrobials for sustainable horticulture. I.G. A.U. 20 Jan.pp. 6-12.

67. Kloepper, J. W., Leong, J., Teintze, M., and Schrooth, M. N., (1980). Nature.

286 : 885-886.

68. Kotasthane, S. R., and Gupta, O., (1981). Trend of wilting in pigeonpea

varieties of variable maturity. In abstracts of papers of the Third International

Symposium of Plant Pathology. 14-18 Dec. 1981. New Delhi, India. Indian

Phytopathological Society. pp.161-162.

69. Kumar Rao, J. V. D. K., (1990). Pigeonpea : Nitrogen fixation. In Nene Y. L.,

Hall, S. D., and Sheila, V. K., (eds). The pigeonpea CAB International,

Wallingford, Oxon, UK. pp. 233-256.

70. Kumar Rao, J. V. D. K., and Dart, P. J., (1981). Populations of cowpea group

Rhizobium in semi-arid tropic soils. Proceedings of the International

Workshop on Pigeonpeas, 2, 15-19 December, ICRISAT, A. P., India. pp.

373-379.

71. Landa. B. B., Hervas, A., Bethol, W., Jimenez-Diaz, R. M.,

(1997).Antagonistic activity of bacteria from the chickpea rhizosphere against

Fusarium oxysporum f. sp. ciceris. Phytoparasitica. 25 (4) : 305-318.

72. Madeley, J., (1995). Sahel’s salvation :African farming and food processing,

May/June, 1995. Alain Charles Publishing Ltd., London, U.K.

73. Madhukeshwara, S. S., Shankaralingappa, B.C., Mantur, S. G., and Anil

Kumar, T. B., (2003). Effect of intercrops and fertility levels on wilt incidence

of pigeonpea. Indian Phytopath. 56 (1) : 88-90.

74. Mahajan, S.B., Kurundkar, S.B., and Yadav, S.S., (2008). Efficacy of fungal

bioagents in Indian Phytopath managing wilt of pigeonpea. J. Pl. Dis. Sci. 3

(1) : 71-73.

75. Mahmood. A., Javed, N., Ahmad, R., Khan, S. H., and Butt, T. B., (1995).

Effect of some fungi on the spore germination and growth of

Helminthosporium turcicum Pass. Pakistan J. Phytopath. 7 (1) : 59-61.

76. Mahesh, M., Saifulla, M., Sreenivasa, S., and Shashidhar, (2010). Integrated

management of pigeonpea wilt caused by Fusarium udum Butler. EJBS. 2 (1) :

1-7.

77. Mahiya, S. B., Kurundkar, B. P., and Yadav, S. S. (2008). Efficacy of fungal

bioagents in managing wilt of pigeonpea. J. Pl. Dis. Sci. 3 (1). 71-73.

78. Mandhare, V. K., and Suryawanshi, A. V., (2008). Efficacy of some botanicals

against Fusarium udum causing wilt in pigeonpea. Journal of Food Legumes.

21 (3) : 182-184.

79. Mathan, A., Balabaskar and Kurucheve, V., (2008). In vitro evaluation of

fungitoxicity of selected natural products on heavy inoculum and conidial

germination of Fusarium moniliforme. Indian Phytopath. 61 (2) : 238-242.

80. Mathur, K., Gurjar, K. B. S., Sharma S. N and Kuldeep Sharma, (2007).

Efficacy of fungicides, bioagents and plant extracts against pink root rot

disease of onion. J. Mycol. Pl. Pathol. 37 (31) : 523-524.

81. Mayaka, F. A., Sakala, W. D., Adu- Gyamfi , J. J., Kamalango, D., Ngwira,

A., Odgaard, R., Nielson, N. E., Hogh- Jensen H., (2006). Yields and

accumulations of N and P in farmer- managedmaize- pigeonpea intercrops in

semi-arid Africa. Plant Soil. 285 : 207-220.

82. Mayee, C. D., and Datar V. V., (1986). Phytopathometry (Ed. C. D. Mayee

and V. V. Datar), Marathwara Agri. Univ. Publication. Prabhani, Maharashtra,

PP. 63-64.

83. Mishra, S., and Dhar, V.,(2005). Efficient method of inoculation by Fusarium

udum, the incident of pigeonpea wilt,. 58 (3) : 332-334.

84. Mukherjee, B., and Sen, C., (1992). Aspergillus and Penicillium species.

Potential agents for biocontrol of Macrophomina phaseolina. Indian

Phytopath. 45 (1) : 39-34.

85. Mukhopadhyay, A. N., (1994). Biocontrol of soil borne fungal plant

pathogens- current status, future prospectus and potential limitations, Indian

Phytopath. 47 (2) : 119-126.

86. Muller, R. A. E., Parthasarathy Rao, P., and Subha Rao, K. V., (1990).

Pigeonpea : Markets and outlook. In Nene, Y. L., Hall, S. D., and Sheila, V.

K., (eds). The pigeonpea CAB International, Wallingford, Oxon, U.K. pp.457-

479.

87. Nagamani, A., Kunwar, I.K., and Manoharachary,C., (2006).Handbook of Soil

Fungi, I.K.International Pvt. Ltd. New Delhi, India.

88. Nagendraraj, T.and Chhetry, G.K.N., (2006). Effect of intercropping on fungal

diseases of rice and frenchbean under jhumland agroecosystem. J. Appl.

Bioscience & Biotech. 2 (2) : 67-73.

89. Naik, M. K., Reddy, M. V., Raju, T. N. and McDonald, D., (1997). Wilt

incidence in sole and sorghum intercropped pigeonpea at different inoculum

densities of Fusarium udum. Indian Phytopathology. 50 (3) : 337-341.

90. Nakkeeran, S., Devi, P.R., (1997). Seed- borne microflora of pigeonpea and

their management. Plant Disease Research, (1997). 12 (2) : 197-200.

91. Narendra Singh, and Singh, R. S., (1982). Effect of oil-cake amended soil

atmosphere on pigeonpea wilt pathogen. Indian Phytopath. 35 (2) : 300-305.

92. Natarajan, M., Kannaiyan, J., Nilley, R. W., and Nene, Y. L., (1985). Studies

on the effects of intercropping system on the Fusarium wilt of pigeonpea.

Field Crops Research. 10 : 333-346.

93. Neli Lokho Pfoze, Bidyalakshmi, C. and Devi, A.P., (2010). Indigenous

traditional cultivation practices of the Mao ethnic tribe under Senapati district

in Manipur. Assam University Journal of Science and Technology : Biological

and Environmental Sciences. 5 (1) : 105-108.

94. Nene, Y.L. and Thapliyal, P.N., . (1993). Fungicides in plant disease control,

3rd

edition, Oxford and IBH publishing Company, New Delhi, p. 531.

95. Nene, Y. L., and Sheila, V. K., (1990). Pigeonpea geography and importance.

In Nene, Y. L., Hall, S. D., and Sheila, V. K., (eds.). The pigeonpea CAB

International Wallingford Oxon, UK. pp .1-14.

96. Nene, Y. L., and Sheila, V. K., and Sharma, S. B., (1996). A world list of

chickpeas and pigeonpea pathogens. 5th

ed. International Crops Research for

the Semi-Arid Tropics, Patancheru, A.P. 502 324, India.

97. Okiror, M.A., and Kimani, P. M., (1997). Pathogenic variation of Fusarium

udum of pigeonpea. Indian Journal of Genetics. 57 (2) : 186-192.

98. Osman, A. G., Rugheim, A. M. E., and Elsoni, E. M., (2011). Effects of

biofertilizers on nodulation, nitrogen and phosphorus content and yield of

pigeonpea (Cajanus cajan). Advances in Environmental Biology, 5 (9) : 2742-

2749.

99. Padmanabhan, S. V., (1984). Integrated control of plant diseases. Indian J.

Mycol. Pl. Pathol. 14 (1) : 34-56.

100. Pal, V., Rathore, G. S., and Godara, S. L., (2008). Evaluation of fungicides,

neem product and bio-agent against Alternaria leaf spot of datepalm. Indian

Phytopath. 61 (3) : 363-364.

101. Pandey, K.K., and Upadhyay, J.P., (2000), Microbial population from

Rhizosphere and Non- Rhizosphere soil of pigeonpea : Screening for Resident

Antagonist and Mode of Mycoparasitism. J. Mycol. Pl. Pathol. 30(1): 7 -10.

102 Pandey, S., Sharma, M., and Guvvala, G., (2013). An updated review of

biology pathogenicity, epidemiology and management of wilt disease of

pigeonpea (Cajanus cajan (L.) Millsp). Journal of Food Legumes. 26 (1&2) :

1-14.

103. Parveen, S., Ehteshamal – Haque and Ghaffar, A., (1998). Efficacy of

Pseudomonas aeruginosa and Paecilomyces lilacinus in the control of root rot

– root knot disease complex on some vegetables. Nematologia Mediterranea.

26 (2) : 209-212.

104. Papavizas, G. C., and Lumsden, R. D., (1980). Biological control of soil borne

fungal propagules. Annu. Rev. Phytopathol. 18 : 389-413.

105. Podile, A. R., Laxmi, V. D. V., (1998) Seed bacterization with Bacillus

subtilis AF1 increases phenylalanine ammonia- lyse and reduces the incidence

of fusarial wilt I pigeonpea. Journal of Phytopathology. 146 (5/6) : 225-259.

106. Prasad, R. D., Rangeshwaran, R., Hegde, S. V., Anuroop, C. P., (2002). Effect

of soil and seed application of Trichoderma harzianum on pigeonpea wilt

caused by Fusarium udum under field conditions . Crop protection. 21 (4) :

293-297.

107. Radhakrishnan, N. V., Ramabadran, R., and Jayaraj, J., (1995). Botryodiplodia

rot in Mulberry control through bio-control agents. Indian J. Mycol. Pl.

Pathol. 25 (1&2) : 146.

108. Rai, P. K., Singh, K.P., (1995).Efficacy of certain oilcake amendments on

Heterodera cajani, Fusarium udum and associated wilt of pigeonpea.

International Journal of Tropical Plant Diseases. 13 (2) : 213-219.

109. Rani, B. P., and Reddy, D. R., (2010). Performance of pigeonpea in sole and

intercropping system in vertisols of Krishna-Godaveri zone in Andhra

Pradesh. Indian J. Agric. Res. 44 (3) : 225-228.

110. Rao, V. Krishna, and Krishnappa, K., (1995). Soil solarization for the control

of soil borne pathogen complexes with special reference to Melodogyne

incognita and Fusarim oxysporum f. sp. ciceris. Indian Phytopath. 48 (3) :

300-303.

111. Reddy, M. V., and Raju, T. N., (1993). Pathogenic variability in pigeonpea

wilt pathogen Fusarium udum. In Muralidharan K., and Reddy, C. S., (eds).

Plant disease problems in Central India. Proceedings of Symposium Central

Zone. Indian Phytopathological Society. Directorate of Rice Research,

Hyderabad, India. pp. 32-34.

112. Reddy, M. V., Raju, T. N., Sharma, S. B., Nene Y. L., McDonald D., (1993).

Handbook of pigeonpea diseases. Information Bulletin no.42. International

Crops Research Institute for the Semi- Arid Tropics, Andhra Pradesh, India.

pp. 14.

113. Reddy, M. V., Sharma, S. B., and Nene, Y. L., (1990). Pigeonpea: Disease

management. In Nene, Y. L., Hall, S. D., and Sheila, V. K., (eds). The

pigeonpea. CAB International, Wallingford, Oxon, U.K. pp. 303-307.

114. Reddy, A. S. R., Sateesh, B., Reddy, M.C. S., Khan, Md., M. and Rao, M. M.,

(2011). Integrated management in pigeonpea (Cajanus cajan). International

Journal of Applied Biology and Pharmaceutical Technology. 2 (2). 467-470.

115. Saha, A. K., and Haque, Md. F., (2005). Effect of inoculation with Rhizobium

on nodulation and growth of bean, Dolichos lablab. J. Life Science, 1 (1) : 71-

74.

116. Sakala, W. D., (1992). Report on cropping systems management interventions

in traditional maize-pigeonpea intercropping systems in Malawi. The Ministry

of Agriculture, Department of Agricultural Research, Maize Agronomy Report

for the 1991/92 season : Maize Commodity Team. Chitodze Agricultural

Research Station, Lilongwe, Malawi.

117. Saxena, K. B., Kumar, R. V. and Rao, P. V., (2002). Pigeonpea nutrition and

its improvement. Journal crop production. 5 : 227-260.

118. Selvi, R. V., Srinivasan, S., Ramasamy, M., and Marimuthu, R., (2009).

Agronomic management for pigeonpea under drought conditions. Legume

Research. 32 (2) : 139-141.

119. Sharma, D., and Green, J. M., (1980). Pigeonpea. In Fehr, W. R., and Hadley,

H. H. (eds.). Hybridization of crop plants . American Society of agronomy and

Crop science Society of America. Madison, Wisconsin, USA. pp.471-481.

120. Sharma, K. K., Sreelatha, G., Bhatnagar- Mathur, P., Saxena, K. B., and Rao,

D.M., (2008). Pigeonpea. Compendium of Transgenic Crop Plants :

Transgenic Legume Grains and forages. In kole, C.,and Hall, T.C. (eds).

Blackwell Publishing Ltd.pp.133-162.

121. Sharma, R, P, R., (1980). Red gram breaks the rule. Seeds and Farms. 6 : 29-

30.

122. Shahida – Parveen, Ehteshamal – Haque, Gaffar, A. and Parveen, S., (1994).

Biological control of soil – borne root infection fungi in tomato and okra.

Pakistan J. Botany. 26 (1) : 181-186.

123. Shaner, G. and Finney, R. E., (1977). The effect of nitrogen fertilization on the

expression of slow mildew resistant to knox. Wheat. Phytopathol. 67 : 1051-

1056.

124. Shiying, Y., Pang Wen, Zong Xuxiao, Li Zhenghong, Zhou Chaohong,

Saxena, K.B., and Liang Hanchao, (2001). Pigeonpea : A potential fodder crop

for Guanxi Province of China. International Chickpea and Pigeonpea

Newsletter. 8 : 54-55.

125. Shukla, A., and Dwivedi, S. K., (2011). Implication of solarization against

soil-borne fusaria in leguminous crop fields in Kalli paschim village in

Lucknow, India. A Tropical Country. International Journal of Environmental

Sciences 2 (2) : 1083-1092.

126. Siddiqui, Z.A., Mahamood, I., (1996). Biological control of Heterodera cajani

and Fusarium udum on pigeonpea by Glomus mossease, Trichodrma

harzianum and Verticillium chlamydosporium. Isreal Journal of Plant

Sciences. 44 (1) : 49-56.

127. Singh, A. P., and Bhargava, S. N.,(1981). Survival studies on three species of

Fusarium causing wilt of pigeonpea. Phytopathologische Zeitschrift. 100 :

300-311.

128. Singh, R., Jariwala, S., Rai, B., (1996). Effect of soli solarization on wilt

disease of pigeonpea (Cajanus cajan L. Millsp.). Phytopathologia Polonica.

12 : 139-146.

129. Singh, P. K., Khan, A., Gogoi, R., and Jaiswal, R. K., (2010). Plant extracts

and bioagents for ecofriendly management of wilt of pigeonpea caused by

Fusarium udum. Indian Phytopath. 63 (3) : 343-344.

130. Singh, U. P., Prithiviraj, B., Khiste, S., Kumar, V., Srivastava, M., Manickam,

M., and Singh, A., (1999). Effect of Cyperus rotundus rhizome extract on

Fusarium udum. Indian Phytopath. 52 (1) : 18-23.

131. Singh, R., and Rai, B., (2000). Integrated control of wilt disease of pigeonpea.

In Proceedings of Indian Phytopathological Society. International conference

on Integrated Plant Disease Management for Sustainable Agriculture, Indian

Phytopathological Society. New Delhi, 519-524.

132. Singh, N., and Singh, R. S., (1980). Inhibition of Fisarium oxysporum f. sp.

udum by soil bacteria . Indian Phytopathology. 33 : 356-357.

133. Singh, R. S., (2005). Introduction to principals of plant pathology. 4th

Edition,

Oxford & IBH Publishing Co. Pvt. Ltd. New Delhi, p.45.

134. Singh, R. S., Singh, D., Singh, H. V., (1997). Effect of fungal antaginists on

the growth of chickpea plants and wilt caused by Fusarium oxysporum f. sp.

ciceris. Plant Disease Research. 12 (2) : 103-107.

135. Singh, R., Singh, B. K., Upadhyay, R. S., Rai, B., and Youn Su Lee (2002).

Biological control of Fusarium wilt of pigeonpea. Plant Pathology. Journal.

18 (5) : 279-283.

136. Siva, N., Ganesan, S., Banumathy N. and Muthuchelian, (2008). Antifungal

effect of leaf extract of some medicinal plants against Fusarium oxysporum

causing wilt disease of Solanum melongina L. Ethanobotanical Leaflet. 12 :

156-163.

.137. Solanky, K. U., Mehta, B. P. and Sabalpar, A. N., (2004). Rhizobial seed

bacterization and nitrogen dose on yield in pigeonpea (Cajanus cajan) in

South Gujarat. J. Mycol. Pl. Pathol. 34 (2) : 594-595.

138. Somasekhara, Y. M., Anilkumar, T.B., Siddaramaih, A. L., (1996). Biocontrol

of pigeonpea (Cajanus cajan (L.) Millsp.) wilt (Fusarium udum Butler).

Mysore Journal of Agricultral Sciences. 30 (2) : 159-163.

139. Srivastava, A. K., and Lal, B., (1997). Studies on biofungicidal properties of

leaf extract of some plants. Indian Phytopath, 50 (3) : 408-411.

140. Subramanian, C. V., (1971). Hyphomycetes. An account of the Indian species,

expert Cercosporae, ICAR, New Delhi.

141. Sunitha, R., Gaikwad, S. J., (1995). Checking Fusarium wilt of pigeonpea by

biological means. Journal of Soils and Crops. 5 (2) : 163-165.

142. Upadhyay, R. S., and Rai, B., (1981). Effect of cultural practices and soil

treatments on incidence of wilt disease of pigeonpea wilt. Plant and soil. 62 :

243-246.

143. Upadhyay, R. S., and Rai, B., (1983). A new disease cycle of wilt of

pigeonpea. Current Science. 52 : 978-981.

144. Upadhyay, R. S., and Rai, B., (1989). Wilt disease of pigeonpea and its causal

organism Fusarium udum. In. perspectives of phytopathology. (Eds.Agnihotri

V. P., Singh, U. S., Chaube, H.S., Sing, N., and Dwivedi, T. S.). Today and

Tommorow Printers and Publishers, New Delhi, India. pp. 338.

145. Upadhyay R. S., and Rai B., (1992). Wilt disease of pigeonpea. In Plant

Disease of International Importance. ( Eds. Singh U.S., Mukhopadhyaya

Kumar, A.,and Chaube, H. S.). Prentice Hall, Engelwood cliffs New Jersey. pp

388-404.

146. Van Der Maesen, L.J. G., (1983). World distribution of pigeonpea. ICRISAT,

Information Bulletin No., 14., ICRISAT, Patancher, A. P., India.p. 40.

147. Van Der Maesen, L.J. G., (1990). Pugeonpea: Origin, history, evolution and

taxonomy. In Nene, Y. L., Hall, S. D., and Sheila (eds.). The pigeonpea. CAB,

International, Wallingford, Oxon, U. K. pp. 15-46.

148. Van der plank, (1963). Plant disease. Analysis of epidemics. New York, USA,

Academic Press.pp.230-253.

149. Yadav, S. C., and Gour, H. N., (2007).Managgement of leaf stripe disease of

barley caused by Drechslera graminea using fungicides, botanicals and

bioagents. J. Mycol. Pl. Pathol. 37 (3). 457-459.

150. Verma,A.K. R., and Rai, (2008). http://vasat.org/learning_resources/pigeonpea

/ disease / Disease %20that% 20kill%20plant/Fsariumwilt.htm.

151. Vessey, J.K., (2003). Plant growth promoting rhizobacteria as biofertilizer.

Plant and Soil. 255 : 571-586.

152. Vidhyasekaran, P., Sethuraman, K., Rajappan, K., Vasumathi, K., (1997).

Powder formulations of Pseudomonas fluorescens to control pigeonpea wilt.

Biological control. 8 (3) : 166-171.

153. Wang – Mingzu, Zhou – Hauzhong, Fu – Yiapping, Wang- Chuanhau, Wang

– Hz., Fu- Yp.and Wang, H. C., (1996). The antifungal activities of the fungus

against several plant pathogens. Chinese J. Bio. Control. 12 (1) : 20-23.

154. Willey, R.W., Rao, M.R., and Nataranjan, M. (1981). Traditional cropping

system with pigeonpea and their improvement. Proceedings of the

International Workshop on Pigeonpeas, 15-19 Dec. 1980, ICRISAT Center,

India, vol.1. Patancheru, A. P. 502 324, India: Intrnational Crops Research

Institute for the Semi-Arid Tropics. pp. 11-25.

155. Wood, R. K. S., (1951). The control of disease of lettuce by use of

antagonistic organisms. The control of Botrytis cinerea. Pesc . Ann. Appl.

Biol. 38 : 203 – 206.