Rishi Kumar scite author profile

Bemisia tabaci, a vector of cotton leaf curl virus disease, is among the most devastating pests causing huge economic losses due to reduced cotton yield and quality. The excessive use of chemical pesticides causes insecticide resistance. Entomopathogenic fungi (EPFs) have a role as mycoinsecticides. The combined use of these insecticides is a promising pest-control option to minimize adverse chemical effects. Thus, we have evaluated 10 EPFs under polyhouse conditions for their virulence against whitefly nymphs and their compatibility with chemical and botanical insecticides. The highest overall biological efficacy index was recorded with Ij-102, followed by Bb-4511, and Ij-089. An in vitro compatibility study was conducted to evaluate the effect of botanical and chemical pesticides on mycelial growth and spore production using the poisoned food technique. The effect of pesticides on the reduction of mycelial growth and conidial production ranged from −169 to 94.1% and −25.6 to 87.6%, respectively. However, Ij-089, Ij-102, Ma-1299, and Bb-4511 were found to be the most compatible with the chemical and botanicals evaluated. Comparatively, spiromesifen, diafenthiuron, buprofezin, pyriproxyfen, and flonicamid were more compatible with EPFs at half doses, as compared to the other chemical pesticides, namely imidacloprid, fipronil, profenophos, and triazophos. These results might provide the basis for future work and indicate that applications of EPFs showing the best virulence and compatibility have the maximum likelihood for the management of B. tabaci in the field in an integrated pest management system.

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Cotton

Nagrare¹,

Kranthi²,

Kumar³

et al. 2016

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Evaluation of Ecofriendly Control Methods for Management of Mealybug, Phenacoccus solenopsis Tinsley in Cotton

Kumar¹,

Nitharwal²,

Chauhan³

et al. 2012

J. of Entomology

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Influence of pesticides and application methods on pest and predatory arthropods associated with cotton

et al. 2012

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Incidence of sucking pests was studied in a transgenic (Bt) and non-transgenic cotton (non-Bt) agro ecosystem in 2008 and 2009. Simultaneously, the influence of different pesticides applied in two different methods on sucking pests and generalist predators was investigated on transgenic cotton. In stem application, the insecticides solutions prepared were painted directly on the middle portion of the plant stem but in foliar application the recommended dosages of the insecticides were sprayed on the cotton plant. The transgenic and non-transgenic cotton did not differ significantly in the population of sucking pests. The different pesticides when applied by foliar sprays reduced significantly more sucking pests than stem application. Among the different insecticides used, imidacloprid caused the maximum reduction of the leaf hopper population, acetamiprid caused the maximum whitefly reduction, and clothianidin caused the maximum thrips reduction under foliar application.Via stem application, acetamiprid and thiomethoxam were found better in suppression of the sucking pests' population, but the population of predators was significantly less disrupted by the stem application method. The foliar application was in general more effective; stem application may be more applicable early in the season when its efficacy was higher and when foliar sprays were particularly destructive to beneficial pests. In foliar application, all the systemic neonicotinoids like imidacloprid, clothianidin, admire, thiamethoxam and acetamiprid were found highly toxic to natural enemies in comparison with spirotetramat, buprofezin and fipronil.

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Evidence for population expansion of Cotton pink bollworm Pectinophora gossypiella (Saunders) (Lepidoptera: Gelechiidae) in India

Naik

Pusadkar

Waghmare

et al. 2020

Sci Rep

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pink bollworm, Pectinophora gossypiella (Saunders) infestation on Bt cotton is a major concern to cotton production in india. the genetic diversity and phylogeographic structure of the insect in light of PBW resistance needs to be revisited. The objective of this study was to identify different haplotypes of pink bollworm and their distribution in India. To achieve this we studied the population structure in 44 cotton growing districts of India. The partial mitochondrial COI sequence analyses of 214 pink bollworm populations collected from 44 geographical locations representing 9 cotton growing states of India were analysed. Genetic diversity analysis exhibited presence of 27 haplotypes, among them Pg_H1 and Pg_H2 were the most common and were present in 143 and 32 populations, respectively. Distributions of pairwise differences obtained with partial COI gene data from the overall Indian populations are unimodal, suggesting population expansion in India. Significant neutrality test on the basis of Tajima' D and Fu's Fs presented a star-shaped haplotype network together with multiple haplotypes. The unimodal mismatch distribution, rejection of neutrality test with significant negative values supported the theory of demographic expansion in cotton pink bollworm populations in india. Genetic data not only provides us with a perspective of population genetics, but also that the two populations of pink bollworm, those occurring early in the season are genetically close to the late season populations with respect to their partial CO1 region. Resistance to Cry toxins does not seem to have had an impact on this region of the mt DNA in populations of pink bollworm.Cotton is one of world's most essential fiber crops having global significance, cultivated in tropical and subtropical regions of more than 70 countries 1,2 . In India, cotton is mainly cultivated in three distinct agro-ecological zones (North, Central and South) 3,4 . Cotton is cultivated on an area of 12.43 million ha with average productivity of 505.46 kg/ha in India during 2017-18 5 . Several biotic and abiotic stresses are constraints in cotton production including the bollworm complex and sucking pests 6 . Among the bollworm complex, pink bollworm (PBW), is one of the major damaging insect pests of cotton with an extensive range across India leading to severe loss to cotton production 7,8 .Pink bollworm has become apparent as a threat to cotton cultivation in south and central cotton growing zones of India where the pest has developed resistance to Cry1Ac and Cry2Ab expressing cotton also developing resistance to insecticides and infesting late season cotton 8,9 . The PBW is assuming a major pest status even in some regions of northern India where there are ginning and oil extraction units which are procuring cotton seeds from central and south Indian cotton states where PBW has demonstrated resistance to Cry toxins in the field. So there is possibility of resistant pink bollworm infesting Bt cotton in North India through movement of seed. The evolution of...

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Rishi Kumar

A revision of world Acanthosomatidae (Heteroptera : Pentatomidae): Keys to and descriptions of subfamilies, tribes and genera, with designation of types

Evaluating microbe-plant interactions and varietal differences for enhancing biocontrol efficacy in root rot disease challenged cotton crop

Regional Water Management Modeling for Decision Support in Irrigated Agriculture

Compatibility of entomopathogenic fungi with insecticides and their efficacy for IPM of <i>Bemisia tabaci</i> in cotton

Cotton

Evaluation of Ecofriendly Control Methods for Management of Mealybug, Phenacoccus solenopsis Tinsley in Cotton

Influence of pesticides and application methods on pest and predatory arthropods associated with cotton

Evidence for population expansion of Cotton pink bollworm Pectinophora gossypiella (Saunders) (Lepidoptera: Gelechiidae) in India

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