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Venkatarao, P.
- Varietal Screening of Mungbean Cultivars for Resistance/Tolerance against Insect Pest under Terai Agro Ecological Zone of West Bengal
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Authors
Affiliations
1 Department of Agricultural Entomology, Uttar Banga Krishi Viswavidyalaya, Pundibari, Cooch Behar (W.B.), IN
2 Department of Agricultural Entomology, Bidhan Chandra Krishi Viswavidyalaya, Mohanpur, Nadia (W.B.), IN
1 Department of Agricultural Entomology, Uttar Banga Krishi Viswavidyalaya, Pundibari, Cooch Behar (W.B.), IN
2 Department of Agricultural Entomology, Bidhan Chandra Krishi Viswavidyalaya, Mohanpur, Nadia (W.B.), IN
Source
International Journal of Plant Protection, Vol 10, No 1 (2017), Pagination: 7-13Abstract
Varietal preference of insect pests on mungbean germplasm was monitored under field conditions at Uttar Banga Krishi Viswavidyalaya, Pundibari, Cooch Behar, West Bengal during the year 2012-13. Five genotypes/lines of mungbean germplasm were screened against insect pest and the germplasms were categorized into resistant and susceptible depending upon severity of pest incidence. The differential responses of mungbean varieties to insect pests were determined and none of the genotype/line was found to be highly resistant to insect pest. During first season, Bireswar (WBM-34-1-1) had less susceptibility to the attack of aphid and thrips gave highest (558.79 kg/ha) grain yield followed by Sukumar (WBM-29) with grain yield of 547.47 k/ha. Same trend was observed in case of aphid and thrips incidence during second season of screening. Comparison of resistance among the five tested genotypes against whitefly showed that the lowest (0.23) number of whiteflies per leaf was observed in Sonali (B-1), lower than those of both Bireswar (WNM-34-1-1) and Sukumar (WBM-29), whereas, the highest (1.33/leaf) was observed in Panna (B-105) during first season. Whereas, in second season lowest (0.65/leaf) whitefly incidence was observed on Sonali (B-1). highest (1.83/ leaf) whitefly incidence was observed in Sukumar (WBM-29) followed by Panna (B-105) and Bireswar with 1.80 and 1.20 numbers per leaf, respectively. In case pod borer incidence, the lowest (0.03) and the highest (1.18) larval population were observed on cultivar Sonali (B-1) and Sukumar (WBM-29), respectively during first season. Whereas, during second season, among five varieties screened, highest (1.23/ plant) pod borer on Samrat (PDM 24-139) variety followed by Bireswar (WBM-34-1-1) and Panna (B-105) by recording pod borer incidence 0.93 and 0.73/ plant, respectively. Lowest (0.22/plant) pod borer incidence observed on Sukumar (WBM- 29) variety. Highest (2.20/plant) predatory coccinellid beetle was observed on Bireswar (WBM-34-1-1) followed by Sonali (B-1) and Samrat (PDM 24-139) with 1.89 and 1.25 numbers per plant, respectively. Lowest (0.84/plant) lady beetle was observed on Panna (B-105) variety during first season. Whereas, during second season highest (4.17/plant) predatory coccinellid beetle was observed on Sukumar (WBM-29) followed by Sonali (B-1) and Samrat (PDM 24-139) with 2.59 and 1.95 numbers per plant, respectively. Lowest (0.88/plant) lady beetle was observed on Panna (B-105) variety. Bireswar (WBM-4-34-1-1) and Sukumar (WBM-29) is fairly resistant to almost all pest of moong. Beside this varieties, remaining were neither fully resistant. Samrat (PDM 24-139) was heavily infested by aphids and thrips, which gave poor (902.31 kg/ha) yield. Among the cultivars, the highest (1108.25 kg/ha) yield potential was obtained in Bireswar (WBM-4-34-1-1) and Sukumar (WBM-29) (1052.75 kg/ha). In contrast variety Panna (B-105) seed gave significantly lower yield (883.79kg/ha) in which Sonali (B-1) (B-1) and Samrat (PDM 24-139) (PDM 24-139) was nearer during second season. It can be concluded that insect pest infestation was strongly influenced by density of trichome on plant surface. Dense (30.0 and 33.50/cm2) trichomes were observed on the leaves of Sukumar (WBM-29) during first and second seasons, respectively. While trichome density was lowest (13.5 and 18.0/cm2) in Samrat (PDM 24-139) had relatively higher aphid incidence during first and second seasons, respectively.Keywords
Mungbean, Cultivars, Insect Pests, Screening.References
- Chhabra, K.S. and Kooner, B.S. (1991). Source of resistance in mungbean against insect pests and yellow mosaic virus. Leg. Res., 14 (4): 175-184.
- Chhabra, K.S. and Kooner, B.S. (1993). Response of some promising mungbean genotypes towards whitefly, jassids and mungbean yellow mosaic virus. J. Insect Sci., 6 (2) : 215-218.
- Chhabra, K.S. and Kosoner, B.S. (1994). Reaction of some promising mungbean genotypes towards whitefly, jassid and yellow mosaic virus. Pest Manag. Eco. Zool., 2 (1): 11-14.
- Gibson, R.W. (1971). Glandular hairs providing resistance to aphids in certain wild potato species. Ann. Appl. Biol., 68 : 113–119.
- Halder, Jaydeep, Sanwal, S.K., Rai, Ajeet Kumar, Rai, A.B., Singh, B. and Singh, B.K. (2015). Role of physico-morphic and biochemical characters of different okra genotypes in relation to population of okra shoot and fruit borer, earias vittella (noctuidae: lepidoptera). Indian J. Agric. Sci., 85 (2): 278–282.
- Khattak, G.S.S., Saeed, I. and Shah, S.A. (2008). Breeding high yielding and disease resistant mungbean [Vigna radiata (L.)Wilczek ] genotypes. Pak. J. Bot., 40:1411-1417.
- Khattak, M.K., Ali, S. and Chishti, J.I. ( 2004). Varietal resistance of mungbean (Vigna radiata L.) against whitefly (Bemisia tabaci genn.), jassid (Amrasca devastans dist.) and thrips (Thrips tabaci lind.). Pak. Entomol., 26(1) : 9-12.
- Lal, S.S. (1985). A review of insect pests of mungbean and their control in India, Tropi. Pest Mgmt., 31: 105-114.
- Lapointe, S.L. and Tingey, W.M. (1984). Feeding response of the green peach aphid (Homoptera: Aphididae) to potato glandular trichomes. J. Econ. Entomol., 77 : 386–389.
- Lapointe, S.L. and Tingey, W.M. (1986).Glandular trichomes of Solanum neocardenasii confer resistance to green peach aphid (Homoptera: Aphididae). J. Econ. Entomol., 79 : 1264–1268.
- Leite, G.L.D. (2000). Fatores que influenciam a intensidade de ataque de moscabranca em tomateiro. 2000. 46 f. Tese (Doutorado em Entomologia) Universidade Federal de Vicosa, Vicosa, MG.
- Nadeem, S., Hamed, M., Asghar, M.J., Abbas, G. and Saeed, N.A. (2014). Screening of mungbean [Vigna radiate (L.) Wilczek] genotypes against sucking insect pests under natural field conditions. Pakistan J. Zool., 46 (3) : 863-866.
- Naqvi, S.H., Talpur, M .A., Khan, Rustamani, Mand, M. and Hussain, T. (1995). Relative resistance of mungbean [Vigna radiata (L.) Wilczek], varieties to whitefly and yellow mosaic virus. Proceed. XIV Pak. Cong. Zool., 14 15-17 April, Islamabad, Pakistan, 15 : 247-251.
- Sahoo, B.K. and Hota, A.K. (1991). Field screening of greengram germplasm against insect pest and disease complex. Madras Agric. J., 78 (1-4) : 84-86.
- Setiawati, W., Adiarto, B.K. and Gunaeni, N. (2009). Preference and infestation pattern of Bemisia tabaci (Genn) on some tomato varities and its effect on gemini virus infestation. Indonesian. J. Agric. Sci., 2 (1) : 57-64.
- Sharma, B.N. and Singh, S. (2010). Biophysical and biochemical factors of resistance in okra against shoot and fruit borer, Indian J. Entomol., 72(3): 212–216.
- Tingey, W.M. and Laubengayer, J.E. (1981). Defense against the green peach aphid and potato leafhopper by glandular trichomes of Solanum berthaultii. J. Econ. Entomol., 74 :721–725.
- Evaluation of Combined Application of Newer Insecticides with Some Fungicides to Control Groundnut Stem Rot, Sclerotium rolfsii sacc. under in Vitro
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Authors
P. Venkatarao
1,
K. Manjula
2
Affiliations
1 Department of Agricutural Entomology, Uttar Banga Krishi Viswavidyalaya, Cooch Behar, Pundibari (W.B.), IN
2 Department of Agricutural Entomology, Sri Venkateswara Agricultural College (ANGRAU) Tirupati (A. P.), IN
1 Department of Agricutural Entomology, Uttar Banga Krishi Viswavidyalaya, Cooch Behar, Pundibari (W.B.), IN
2 Department of Agricutural Entomology, Sri Venkateswara Agricultural College (ANGRAU) Tirupati (A. P.), IN
Source
International Journal of Plant Protection, Vol 10, No 1 (2017), Pagination: 34-41Abstract
An in-vitro experiment was conducted to determine the effect of different insecticides, fungicides and their combination treatments on radial colony growth of Sclerotium rolfsii Sacc. by following poison food technique in PDA medium. Two contact (chlorpyriphos 0.05%, thiodicarb 0.075%), three stomach and contact poison insecticides (chlorfenapyr 0.002%, spinosad 0.0025 and emamectin benzoate 0.003%), among the fungicides one systemic (hexaconazole 0.2%), one contact (Mancozeb 0.25%) and their ten insecticide-fungicide combinations were evaluated with recommended doses against S. rolfsii in laboratory during the year 2009-2010 at S.V. Agricultural College, Tirupati. Chlorpyriphos 0.05 per cent (70.33%) was the best insecticide to restrict the fungal growth effectively followed by emamectin benzoate (34.03%). The two fungicides i.e. mancozeb 0.25 per cent, hexaconazole 0.2 per cent and their combinations with insecticides were found effective in reducing (cent per cent) the growth of S. rolfsii. Fungicides do not shown any antagonism when mixed with insecticides.Keywords
Sclerotium rolfsii, Insecticides, Fungicides, Compatibility, in Vitro.References
- Arunasri, P., Chalam, T.V., Eswara, Reddy, N. P. and Tirumala Reddy, S. (2011). Collar rot disease of crossandra induced by Sclerotium rolfsii and its management: A critical review. Internat. J. Appl. Biol. & Pharmaceut. Technol., 2(2): 307-314.
- Aycock, R. (1966). Stem rots and other disease caused by Sclerotium rolfsii North Carolina. Agric. Exp. Stat. Tech. Bull., 174 : 202.
- Backman, P.A. and Hammpmd, J.M. (1981). Suppression of peanut stem rot with the insecticide chlorpyriphos. Peanut Sci., 8 (2) : 129-130.
- Bindu Madhavi, G. and Bhattipolu, S.L. (2011). Integrated disease management of dry ischolar_main rot of chilli incited by sclerotium rolfsii (sacc.). Internat. J. Plant, Anim. & Environ. Sci.,1(2) : 31-37.
- Block, C.C., Gulya, Jr. T.J. and Marek, L.F. (2007). Evaluation of wild healianthus species for resistance to Sclerotinia stlak rot. Proceedings of the International Sclerotinia workshop, Jan 17-19 Minneapolis.
- Chowdary, K. Anitha (1997). Studies on sclerotial wilt of bell pepper (Capsicum annuum L.). M.Sc. (Ag.) Thesis , Acharya N.G. Ranga Agricultural University, Hyderabad, A.P. (INDIA).
- Dange, Vinod (2006). Studies on ischolar_main rot of cilli caused by Sclerotium rolfsii Sacc. Thesis, University of Agricultural Sciences, Dharwad, KARNATAKA (INDIA).
- Datar, V.V. and Bindu, K.J. (1974). Collar rot of sunflower, A new host record from India. Curr. Sci., 43: 496.
- Deepthi, K.C. (2014). In vitro evaluation of fungicides against Sclerotium rolfsii Sacc. causing Stem Rot of Groundnut. Internat. J. Scient. Res., 3(12):1-2.
- Dharamvir, Ashok Gaur and Raychaudhauri, S.P. (1973). Evaluation of an organophosphorous insecticide for fungicidal properties. Pesticides, 7:17.
- Grichar, V.J. and Bosweel, T.E. (1987).Comparison of lorsban and tilt with terrachlor for control of Southern blight on peanut the texas. Agriculture Experiment Station,Pr-4534.
- Harlapur, S.I. (1988). Studies on some aspects of foot rot of wheat caused by S. rolfsii Sacc. M.Sc. (Ag.) Thesis, University of Agricultural Sciences. Dharwad, KARNATAKA (INDIA).
- Isaiah, A., Amita Dass, Ragui, Massey and Paul, M.S. (2005). Compatibility of Trichoderma viride with multineem and common pesticides. Annal. Plant Prot. Sci., 13 : 499-500.
- Johnson, M. and Subramanyam, K. (2000). In vitro efficacy of fungicides against stem rots pathogen (Sclerotium rolfsii) of groundnut. Annal. Plant Protec. Sci., 8 : 255-257.
- Johnson, M., Reddy, P.N. and Reddy, D.R.R. (2008). Comparative efficacy of rhizosphere mycoflora, fungicides, insecticides and herbicides against groundnut stem rot caused by Sclerotium rolfsii. Annal. Plant Protec. Sci., 16(2):414-418.
- Kajal Kumar, B. and Sen, Chitreswar (2000).Management of stem rot of groundnut caused by Sclerotium rolfsii through Trichoderma Harzianum. Indian Phytopathol., 53: 290-295.
- Khan, Habibulla H.A., Lingappa, S. and Anilkumar, T.B. (1989). Fungicidal action of insecticides and their interaction with fungicides. Mysore J. Agric. Sci., 23:35-39.
- Kucharek, T.A. and Edmondson, G.R. (1991). Suppression of southern stem rot of peanut caused by Sclerotium rolfsii with the insecticide chlorpyriphos (Lorsban 15 G). Proceed. Soil & Crop Sci. Soc. Florida, 50: 41-43.
- Naidu, Harinath (2000). Crossandra - A new host record for Sclerotium Rolfsii. Indian Phytopathol., 53 : 496-497.
- Narayana, Bhat M. and Srivastava, L.S. (2003). Evaluation of some fungicides and neem formulations against six soil borne pathogens and three Trichoderma spp. In vitro. Plant Disease Res., 18 (1): 56-59.
- Panse, V.G. and Sukhatme, P.V. (1978). Statistical methods for agricultural workers. Indian Council of Agricultural Research, New Delhi, pp.136.
- Punja, Z.K. (1985). The biology, ecology and control of Sclerotium rolfsii. Ann. Rev. Phytopathol., 23 : 97-127.
- Radhaiah, A. (2012). Biocontrol potential of indigenous Pseudomonas spp.against Sclerotium rolfsii causing stem rot of groundnut. Internat. J. Food Agric. & Veterinary Sci., 2 (1) : 134 -141
- Rakholiya, K.B. (2010). Efficacy of fungicides against Trichoderma harzianum and Sclerotium rolfsii. Internat. J. Plant Protec., 3 (2) : 406-407.
- Ramdoss, E. and Siva Prakasam, K. (1987). Effect of seed treatment with fungicides and insecticides on the inhibition of Macrophomina phaseolina and variability of cow pea seed during storage. Madras Agric. J., 74 :135-138.
- Shukla, P. and Lal, S.S. (1989). Effect of combined application of fungicides and insecticides on the powdery mildew and pod borer of field pea. Pesticides, 23(9): 43-44.
- Singh, B. and Mathur, S.C. (1953). Sclerotial ischolar_main rot disease of groundnut in Uttar Pradesh. Curr. Sci., 22 : 214-215.
- Yella Goud, T. (2011). Biofumigation in the management of stem rot and pod rot of groundnut caused by Sclerotium rolfsii.M.Sc. (Ag ). Thesis, Acharya N.G. Ranga Agricultural University, Hyderabad, A.P. (INDIA)
- Zentmeyer, C.A. (1955). A laboratory method for testing soil fungicides with Phytophthora cinnamoni as test organism. Phytopathology, 45 : 398-404.
- Nautiyal, P.C. (2002). Groundnuts: Post-harvest operations. Research centre for groundnuts (ICAR) www.icar.org.in site visited 23/5/2013.
- Patil, B.N. (2009). Trends in area, production and productivity of groundnut in Maharashtra. A National J. Agric. & Rural Develop.http://agricoop.nic.in/statatglance2004/atglance.pdf.