短时高温暴露对Q型烟粉虱存活和生殖适应性的影响

在室内将Q型烟粉虱Bemisia tabaci Q-biotype成虫在44℃下暴露1 h后观察成虫的存活率、产卵量、雌雄寿命和后代存活能力,以研究短时高温暴露对Q型烟粉虱生物学特性的影响。结果表明,Q型烟粉虱成虫在44℃下暴露1 h后的存活率为43.5%,暴露热激后的单头雌虫的产卵量为77.2粒,低于常温下(26℃)的产卵量(100.1粒);短时高温可显著缩短Q型烟粉虱成虫的寿命,在44℃下暴露1 h后Q型烟粉虱雌雄虫寿命分别为14.5 d和10.2 d,显著低于常温下(26℃)雌虫20.4 d和雄虫18.2 d;短时高温对Q型烟粉虱后代存活率和雌雄性比无显著影响,但其产卵高峰期延迟,产卵持续期缩短。以上结果表明,短时高温热激可影响Q型烟粉虱的生殖情况,造成Q型烟粉虱产卵量降低和寿命缩短,Q型烟粉虱雌虫耐热性强于雄虫。     

Modelling temperature-dependent bionomics of Bemisia tabaci (Q-biotype)

Abstract.  The influence of temperature (17, 21, 25, 30 and 35 °C) on life-history traits of a Q-biotype Bemisia tabaci population on tomato is studied. Temperature-dependent relationships are characterized for immature developmental rate, immature survival, fecundity, longevity and intrinsic rate of increase. Development time vary from 20 days at 30 °C to 56 days at 17 °C and the lowest thermal threshold is estimated at 10.2 °C. The optimal temperature for immature development is 32.5 °C. Total fecundity (eggs per female) ranges from 105.3 (at 21 °C) to 41 (at 35 °C). The longevity decreases with temperature increase. The intrinsic rate of increase ranges from 0.0450 (at 17 °C) to 0.123 (at 30 °C). The functional relationships between temperature and life-history parameters are used to evaluate the effect of temperature on the population dynamics. Such mathematical relationships could provide a basis for future development of population models.