棉铃虫对氰戊菊酯抗性遗传分析

本文采用剂量对数-死亡机率值回归线(LD-P线)分析法, 利用室内选育的棉铃虫 Heliccverpa armitera(Hubner)对氰戊菊酯抗性晶系和敏感品系,研究了棉铃虫对氰戊菊酯的抗性遗传规律。结果表明,棉铃虫对氰戊菊酯的抗性为多基因遗传,其主要基因为不完全显性,抗性不属性连锁遗传。利用增效剂对抗性机理进行的研究表明,多功能氧化酶(MFO)是棉铃虫对氰戊菊酯产生抗药性的主要因子,因此,可以推断多功能氧化酶基因为不完全显性。     

SURVIVAL OF HELICOVERPA PUNCTIGERA (WALLENGREN) AND H. ARMIGERA (HÜBNER) (LEPIDOPTERA: NOCTUIDAE) PUPAE SUBMERGED IN WATER

The effect of varying periods of submersion in water on survival of non-diapausing pupae of Helicoverpa punctigera (Wallengren) and H. armigera (Hübner) was investigated. At 25°C the submersion time to kill 50% of pupae was 49 h for H. punctigera and 35 h for H. armigera . Since pupae survive relatively long periods under water, drowning may not be an important mortality factor in the field except when prolonged waterlogging occurs.     

CYTOCHROME P450 MONOOXYGENASES ASSOCIATED WITH PYRETHROID RESISTANCE IN HELICOVERPA ARMIGERA (HÜBNER)

Abstract  The relationship between the cytochrome P-450 (cytP⁴⁵⁰ monooxygenase and insecticide resistance mechanisms in Helicoverpa armigera was studied. The level of cytP450 and activity of p -ni-troanisole ( p -NA) O-demethylase in resistant strain were 1. 71 times and 2. 21 times respectively higher as compared with those of the susceptible strain. Aldrin epoxidase activity showed 1. 35 fold strain difference. Therefore aldrin epoxidase might not be important for H. armigera resistance mechanism, the level of cytP450 and activity of p -NA O-demethylase might play a vital role in H. armigera resistance mechanisms. The reason of different resistance mechanisms among different H. armigera resistant strains is discussed.     

EFFECT OF SOIL MOISTURE AND SIMULATED RAINFALL ON PUPAL SURVIVAL AND MOTH EMERGENCE OF HELICOVERPA PUNCTIGERA (WALLENGREN) AND H. ARMIGERA (HÜBNER) (LEPIDOPTERA: NOCTUIDAE)

Prepupae of Helicoverpa punctigera (Wallengren) and H. armigera (Hübner) were allowed to pupate in a black cracking-clay soil at different moisture levels. No differences in pupal survival and moth emergence were recorded where soil moisture ranged from dry to very wet when prepupae tunnelled into the soil. In a second experiment, simulated rainfall after pupation, but before moth emergence, reduced survival by disrupting emergence tunnels and trapping moths in their tunnels. This effect was greater where prepupae had tunnelled into dry soil than where they had tunnelled into wet soil.