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Genetics of Indoxacarb resistance in Helicoverpa armigera (Hubner)
Basweshwar S. GHODKI,Shivcharan M. THAKARE,Mangesh P. MOHARIL,Nagarjuna G. V. RAO 한국곤충학회 2009 Entomological Research Vol.39 No.1
The present investigation was done with the aim of studying the genetics of Indoxacarb resistance. Selection of Helicoverpa armigera (Hubner) with Indoxacarb was done for eight generations to develop resistance. Reciprocal crosses between resistant and susceptible populations were made to understand the population genetics of Indoxacarb resistance in H. armigera. Generation-wise selection with Indoxacarb was evaluated for resistance development in H. armigera. The LC50 of Indoxacarb was 2.81 p.p.m. for the first selected generation, and it increased to 272.55 p.p.m. after eight selected generations, which is a 1238.86-fold resistance compared to the susceptible strain. The estimated realized heritability (h2) after eight generations of selection with Indoxacarb was 0.45. The number of generations required for a tenfold increase in LC50 (1/R) was estimated to be 2.59. The response to Indoxacarb selection in H. armigera was 0.39, the estimated selection differential (S) was 0.87, and the phenotypic standard deviation (σp) was 0.03. Reciprocal crosses between Indoxacarb resistant and susceptible strains revealed that the inheritance of Indoxacarb resistance was autosomal: neither maternal effect nor linkage was evident. The values of DLC(0.10 and 0.09) indicated completely recessive inheritance of Indoxacarb resistance.
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Basweshwar S. GHODKI,Shivcharan M. THAKARE,Mangesh P. MOHARIL,Nagarjuna G. V. RAO 한국곤충학회 2009 Entomological Research Vol.39 No.1
Indoxacarb, an oxadiazine insecticide, was evaluated for its effectiveness against Helicoverpa armigera collected from selected locations in India. Determination of Indoxacarb efficacy was done using a log-dose probit (LDP) bioassay against third instars collected from cotton (Gossypium arborium) fields near Akola, India. Monthly levels of toxicity of Indoxacarb were determined from July 2005 to March 2007. The maximum tolerance level of Indoxacarb was reported for the Amaravati strain (5.09 p.p.m.) and the minimum tolerance level for the Fatehbad strain (0.22 p.p.m.). Seasonal monitoring of Indoxacarb toxicity revealed an increased trend in tolerance from July 2005 to February 2006, which decreased from March 2006. The LC50 of Indoxacarb was 2.71 p.p.m. in July 2005 and 17.14 p.p.m. in February 2006. During 2006–007, the LC50 was 3.84 p.p.m. at the start of the season and in March 2007 it was 13.51 p.p.m. The minimum LC50 of Indoxacarb was reported for H. armigera larvae fed on Legasca spp. (1.62 p.p.m.) and the maximum LC50 was reported for H. armigera reared on chickpea (Cicer arietium) (8.45 p.p.m.). LC50 of 2.73 and 4.56 p.p.m. were reported for H. armigera fed on cotton (Gossypium arborium) and pigeonpea (Cajanus cajan), respectively.
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Sarita NEHARE,Basweshwar S. GHODKI,Gajanan K. LANDE,Vrushali PAWADE,Atul S. THAKARE 한국곤충학회 2010 Entomological Research Vol.40 No.1
Leaf-dip assay of Plutella xylostella against indoxacarb showed that the concentration that produced 50% mortality (LC50) of indoxacarb ranged from 20.1 to 11.9 ppm, with highest in Nasik and lowest levels in Coimbatore strains. In selection studies, the LC50 of indoxacarb was 18.5 ppm at generation 1 (G1), which increased to 31.3-fold (167.8 ppm) resistance after ten exposed generations (G10) as compared to unexposed. The LC50 of quinalphos was 74.4 ppm, which increased to 10.0-fold (631.5 ppm) resistance after G10. The LC50 of cypermethrin resistant strain resulted in an 11.5-fold increase in resistance after G10. In P. xylostella, heritability (h2) after ten generations of selection was estimated at 0.4. The number of generations required for tenfold increase in LC50 (1/R) were 6.7. The response to indoxacarb selection in P. xylostella was 0.2 and the selection differential was estimated as 0.4. The phenotypic standard deviation was 0.2. Reciprocal crosses between indoxacarb-resistant and susceptible strains showed that the inheritance of indoxacarb resistance was autosomal. The degree of heritability (DLC) (0.4, 0.4) indicated incomplete recessive inheritance of indoxacarb resistance.
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Biochemical analysis and synergistic suppression of indoxacarb resistance in Plutella xylostella L.
Sarita Nehare,M.P. Moharil,B.S. Ghodki,G.K. Lande,K.D. Bisane,A.S. Thakare,U.P. Barkhade 한국응용곤충학회 2010 Journal of Asia-Pacific Entomology Vol.13 No.2
Indoxacarb was treated to Plutella xylostella for 10 generations to develop a resistant strain and biochemical analysis of indoxacarb resistance in different tissues of P. xylostella was carried out. Biochemical analysis found maximum esterase activity in gut homogenates of indoxacarb resistant strains followed by whole body and cuticle homogenates. In gut homogenates of indoxacarb resistant strains, maximum increase in esterases was found as compared to the unselected strain. Acetylcholineesterase activity was higher in head homogenates of the resistant strain than in the unselected strain. Glutathione-S-transferase activity was highest in whole body homogenates. However, maximum increase was found in gut homogenates of indoxacarb resistant strains over the unselected. Induced resistance was suppressed using known synergists. Maximum synergism occurred using diethyl-maleate (DEM), followed by triphenyl phosphate (TPP).
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