Evaluation of integrated pest management module for insect pests of castor (Ricinus communis L.)
EVALUATION OF INTEGRATED PEST MANAGEMENT MODULE FOR INSECT PESTS OF CASTOR
129 / 2
Authors
-
P DURAIMURUGAN
ICAR-Indian Institute of Oilseeds Research, Rajendranagar, Hyderabad-500 030, Telangana
-
M LAKSHMINARAYANA
ICAR-Indian Institute of Oilseeds Research, Rajendranagar, Hyderabad-500 030, Telangana
Keywords:
Castor, Economics, Insect pests, Integrated pest managementAbstract
A field experiment was conducted to evaluate integrated pest management (IPM) module in castor using three popular cultivars(DCH-519, DCH-177, DCS-107) and compared with farmers' practice and untreated control. IPM module comprised of mechanical control of gregarious stages of tobacco caterpillar and older larvae of semilooper, economic threshold level based application of thiodicarb 75WP @ 375 g a.i./ha against tobacco caterpillar (at 25% foliage damage), indoxacarb 15.8EC @ 75 g a.i./ha against capsule borer (at 10% capsule damage) and dimethoate 30EC @ 250 g a.i./ha against leafhopper (at 10% hopper burn damage) superior in reducing the insect pest population over farmers' practice. In the IPM module, the mean population of semilooper, tobacco caterpillar, leafhopper and capsule borer damage was 0.3 larvae/plant, 0.8 larvae/plant, 16.2 leafhoppers/3 leaves/plant and 10.3% capsule damage as against 0.6 larvae/plant, 2.3 larvae/plant, 20.7 leafhoppers/3 leaves/plant and 16.5% capsule damage in farmers' practice, respectively. IPM module found safer to its larval parasitoid, Snellenius (Microplitis) maculipennis as compared to farmers' practice. The higher mean castor seed yield (1348 kg/ha) and avoidable yield loss (67.6%) was obtained from IPM module over farmers' practice with seed yield of 1008 kg/ha and avoidable yield loss of 55.5%. Further, higher net profit of ` 26889/ha and incremental cost-benefit ratio of 1:5.95 was recorded in IPM module as compared to ` 15584/ha and 1: 3.97 under farmers' practice.
Downloads
References
Armes N J, Wightman J A, Jadhav D R and Ranga Rao G V 1997. Status of insecticide resistance in Spodoptera litura in Andhra Pradesh, India. Pest Management Science, 50(3): 240-248.
Basappa H 2007. Validation of integrated pest management modules for castor (Ricinus communis) in Andhra Pradesh. Indian Journal of Agricultural Sciences, 77(6): 357-362.
Basappa H and Lingappa S 2004. IPM modules for the management of castor semilooper, Achaea janata Linn., and their impact on larval parasitoid, Microplitis maculipennis Zepligate. Indian Journal of Plant Protection, 32: 131-132.
Lakshminarayana M, Duraimurugan P and Vimala Devi P S 2013. Efficacy of microbial and botanical formulations for the management of lepidopteran pests infesting castor. In: Proceedings of Fourth Biopesticide International Conference,
-30 November 2013, St. Xavier's College, Palayamkottai, Tamil Nadu, 248-249.
Lakshminarayana M 2005. Effect of mechanical control of defoliators in the pest management of castor, Ricinus communis L. Journal of Oilseeds Research, 22: 331-334.
Lakshminarayana M 2005. Studies on antixenosis in castor, Ricinus communis L. against major insect pests. Indian Journal of Plant Protection, 33(2): 216-219.
Singh S, Surender Kumar and Basappa H 2005. Validation ofIPM technologies for the castor crop in rainfed agro-ecosystem. Annals of Plant Protection Sciences, 13: 105-110.
Suganthy M 2010. Integrated pest management strategies against castor defoliators. Madras Agricultural Journal, 97: 278-280.
Vijayalakshmi P, Satyanarayana J, Singh H and Ratnasudhakar T 2005. Incidence of green leafhopper Empoasca flavescens Fab on castor Ricinus communis L in relation to morphological characters and date of sowing. Journal of Oilseeds Research, 22: 93-99.
