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Field Efficacy of Pseudomonas fluorescens against the Cotton Leaf Hopper, Amrasca devastans Distant (Hemiptera:Aphididae) in Bt and Non Bt Cotton


Affiliations
1 Department of Entomology, Vanavarayar Institute of Agriculture, Manakkadavu, Pollachi (T.N.), India
2 The Gandhigram Rural Institute - Deemed University, Gandhigram, Dindigul (T.N.), India
3 Department of Entomology, Tamil Nadu Agriculture University, Coimbatore (T.N.), India
     

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An experiment was conducted to evaluate the efficacy of Pseudomonas fluorescens against leafhopper of Bt cotton and non Bt cotton in two location of Vanavarayar Institute of Agriculture, Pollachi and South Indian Millers Association, Udumelpet. Seven treatments i.e. foliar application of P. fluorescens @1%, soil application of P. fluorescens 2.5 kg/ha, soil and foliar application of P. fluorescens @1%, foliar application of P. fluorescens @1% and Beauveria basianna @ 1%, foliar application of Beauveria basianna @ 1%, imidacloprid 200 SL @ 200ml/ha and Untreated check were evaluated. Among the bio inoculants treatment the maximum per cent reduction in leafhopper population with a mean of 71.00; 83.45; 85.01 and 63.28; 82.32; 91.58 at 1st, 2nd and 3rd spray after application in both the locations respectively in Bt cotton during 2013-14. The similar trend was also observed in non Bt cotton. During 2014-15, the maximum per cent reduction in leafhopper population recorded among the bio inoculants treatment, the soil and foliar application of P. fluorescens @1% in two locations and both bt and non Bt cotton. The highest mean seed cotton yield was obtained in soil and foliar application of P. fluorescens @1% in two locations, and both years of 2013-14 and 2014-15.

Keywords

Bioefficacy, Biopesticides, Pseudomonas fluorescens, Bt Cotton, Non Bt Cotton, Leafhopper.
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  • Agarwal, R.A., Gupta, G.P. and Grag, D.O. (1984).Cotton pest management in India. Research Publication, Azad Nagar, Delhi, p. 1-191.
  • Anonymous (2015). Annual Report 2014–15. All India Coordinated Cotton Improvement Project. Coimbatore, India, p.217–218.
  • Bandi, Sanjay and Sivasubramanian, P. (2012). Management of Thrips tabaci Lindeman in onion using Pseudomonas fluorescens Migula through induced resistance. J. Biopest., 5(1): 1-3.
  • Balakrishnan, N., Murugesan, N., Vanniarajan, C., Ramalingam, A. and Suriachandraselvan, M. (2007). Screening of cotton genotypes for resistance to leafhopper, Amrasca biguttula biguttula (Ishida) in Tamil Nadu. J. Cotton Res. Dev., 21(1) : 120-121.
  • Bandi, Sanjay and Sivasubramanian, P. (2012). Management of Thrips tabaci Lindeman in onion using Pseudomonas fluorescens Migula through induced resistance. J. Biopest., 5(1): 1-3
  • Charravarthy, A.K. and Ananda Rao, P.K. (1985). Dispersion patterns, sample unit-sizes and techniques for sampling cotton jassid [Amrasca biguttula biguttula (Ishida)] and whitefly (Bemisia tabaci, Genn.). Internat. J. Tropical Insect Sci., 6 (6) : 661-665.
  • Chavan, S.J., Bhosle, B.B. and Bhute, N.K. (2010). Estimation of losses due to major insect-pests in desi cotton in Maharastra. J. Cotton Res. & Development, 24 (1): 95-96.
  • Devi, K.K. and Kothamasi, D. (2009).Pseudomonas fluorescens CHA0 can kill subterranean termite Odontotermes obesus by inhibiting cytochrome c oxidase of the termite respiratory chain. FEMS Microbiol. Lett., 300 : 195–200 10.1111/j.1574-6968.2009.01782.x
  • Dhawan, A.K. and Sidhu, A.S. (1986) Assessment of losses due to attack of cotton jassid on hirsutum cotton. Indian J. Plant Prot., 14 : 45-50.
  • Dhawan, A.K., Sidhu, A.S. and Simwat, G.S. (1988). Assessment of avoidable losses in cotton (Gossypium hirsutum and G.arboreum) due to sucking pests and bollworms. Indian J. Agric. Sci., 58(4) : 290-292.
  • Gangadhar, B., Dahiya, K.K. and Takar, B.L. (2007). Evaluation of different biopesticides against cotton bollworms. J. Cotton Res. Dev., 21(1) : 103-105.
  • Hashimoto, Y. (2002). Study of the bacteria pathogenic for aphids, isolation of bacteria and identification of insecticidal compound. Rep. Hokkaido Prefectural Agric. Exp. Station 102 : 1–48
  • Henderson, C.F. and Tilton, E.W. (1955). Tests with acaricides against the brown wheat mite. J. Econ. Entomol., 48:157-161.
  • Hong-Bin, Z., Yaning, L., Baohua, W. and Peng, W.C. (2008). Recent advances in cotton genomics. Internat. J. Plant Genomics, 2008 : 1–20.
  • Javed, H., Khan, M.R. and Ahmad, M. (1992). Role of physic-chemical factors imparting resistance in cotton against some insect pests. Pakistan Entomol., 14 (1-2): 53-55.
  • Jeya Pradeepa, S. and Regupathy, A. (2002). Generating base line data for insecticide resistance monitoring in cotton leafhopper, Amrasca devastans (Distant). Resistant Pest Management., 11 (2) :
  • Kohel, R.J., Yu, J., Park, Y.H. and Lazo, G.R. (2001). Molecular mapping and characterization of traits controlling fiber quality in cotton. Euphytica, 121 (2): 163–172.
  • Krishnaiah, K., Ramachander, P.R., Jaganmohan, N. and Wahi, S.D. (1979). Sampling technique for estimation of jassidpopulation on okra. Indian J. Entomol., 41(2):200-202.
  • Kshirsagar, S.D., Satpute, N.S. and Moharil, M.P. (2012). Monitoring of insecticide resistance in cotton leafhopper, Amrasca biguttula biguttula (Ishida). Ann. Pl. Protec. Sci., 20(2) : 283-286.
  • Manjunath, TM. (2004). Bt cotton in India: The technology wins as the controversy wanes. http://www. Monsanto.co.uk/news/ukshowlib.html?wid=8478.
  • Mayee, C.D., Gautam, H.C. and Barik, A. (2004). Cotton scenario in India vis-à-vis world and future need. p. 245–253. In: “Recent Advances in Cotton Research and Development” (M.S. Chauhan, R.K. Sain, eds.), Haryana Agricultural University and Cotton Research and Development Association, CCSHAU, Hisar.
  • Mohan, S. and Nandini, S. (2011). A promising entry for cotton leafhopper. Pestology 35(6), 11-13.
  • Murugesan, N. and Kavitha, A. (2009). Seed treatment with Pseudomonas fluorescens, plant products and synthetic insecticides against the leafhopper, Amrasca devastans (Distant) in cotton. J. Biopesticides, 2(1): 22-25.
  • Neelakantan, L. (1957). Problems of immediate concern for Cambodia and Karungani cotton in Madras state. VIII Conf Gr Probl India December. S.8, Paper 2. Newslett., 11(2) : 4-5.
  • Otsu, Y., Matsuda Y., Mori H., Ueki H., Nakajima T., Fujiwara, K., Matsumoto, M., Azuma, N., Kakutani, K., Nonomura, T., Sakuratani, Y., Shinogi, T., Tosa, Y., Mayama, S. and Toyoda, H. (2004). Stable phylloplane colonization by entomopathogenic bacteriumPseudomonas fluorescens KPM-018P and biological control of phytophagous ladybird beetles Epilachna vigintioctopunctata (Coleoptera: Coccinellidae). Biocontrol. Sci. Technol., 14 : 427–439.
  • Razaq, M., Haneef, Q., Athar, H. R., Nasir, M. and Afzal, M., (2014). Interactive effect of nitrogen and insecticide on Jassid, Amrasca devastans (Dist.) population and photosynthetic capacity of okra Abelmoschus esculentus (L.) Moench. Pakistan J. Zool., 46: 577-579.
  • Rohini, A., Prasad, N.V.V.S.D. and Chalam, M.S.V. (2012). Management of major sucking pests in cotton by insecticides. J. Cotton Res. Dev., 20(1) : 102-106.
  • Sathyan, T., Murugesan, N., Elanchezhyan, K., Arokia Stephen, Raj, J. and Ravi, G. (2015). Evaluation of botanicals, microbials and non-synthetic insecticides for the management of leafhopper, Amrasca devastans distant in cotton. J. Entomol. & Zoology Studies, 3(6): 180-182.
  • Soundararajan, R.P. and Chitra, N. (2011). Effect of bio inoculants on sucking pests and pod borer complex in urdbean. J. Bio pesticides, 4(1): 7 - 11.

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  • Field Efficacy of Pseudomonas fluorescens against the Cotton Leaf Hopper, Amrasca devastans Distant (Hemiptera:Aphididae) in Bt and Non Bt Cotton

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Authors

T. R. Manjula
Department of Entomology, Vanavarayar Institute of Agriculture, Manakkadavu, Pollachi (T.N.), India
G. S. Kannan
The Gandhigram Rural Institute - Deemed University, Gandhigram, Dindigul (T.N.), India
P. Sivasubramanian
Department of Entomology, Tamil Nadu Agriculture University, Coimbatore (T.N.), India

Abstract


An experiment was conducted to evaluate the efficacy of Pseudomonas fluorescens against leafhopper of Bt cotton and non Bt cotton in two location of Vanavarayar Institute of Agriculture, Pollachi and South Indian Millers Association, Udumelpet. Seven treatments i.e. foliar application of P. fluorescens @1%, soil application of P. fluorescens 2.5 kg/ha, soil and foliar application of P. fluorescens @1%, foliar application of P. fluorescens @1% and Beauveria basianna @ 1%, foliar application of Beauveria basianna @ 1%, imidacloprid 200 SL @ 200ml/ha and Untreated check were evaluated. Among the bio inoculants treatment the maximum per cent reduction in leafhopper population with a mean of 71.00; 83.45; 85.01 and 63.28; 82.32; 91.58 at 1st, 2nd and 3rd spray after application in both the locations respectively in Bt cotton during 2013-14. The similar trend was also observed in non Bt cotton. During 2014-15, the maximum per cent reduction in leafhopper population recorded among the bio inoculants treatment, the soil and foliar application of P. fluorescens @1% in two locations and both bt and non Bt cotton. The highest mean seed cotton yield was obtained in soil and foliar application of P. fluorescens @1% in two locations, and both years of 2013-14 and 2014-15.

Keywords


Bioefficacy, Biopesticides, Pseudomonas fluorescens, Bt Cotton, Non Bt Cotton, Leafhopper.

References