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The temperature-dependent population growth potential of Phenacoccus solenopsis Tinsley, a highly polyphagous and invasive mealybug species, was studied on sprouted potatoes under laboratory conditions at six constant temperatures (15–40 °C). Several non-linear equations were fitted to the obtained data to model temperature-dependent population growth and species life history. The established equations for each life age/stage of the species were compiled to obtain an overall temperature-dependent phenology model. The life table parameters of P. solenopsis were estimated using stochastic simulation centred on a rate summation and cohort up-dating approach. The theoretical lower development threshold temperatures estimated using linear regressions applied to mean development rates were 11.2, 8.9, 9.8 and 12.7 °C, and the thermal constants for development were 93.7, 129.8, 97.1 and 100.0 degree days (DD) for nymph 1, nymph 2, nymph 3 and male pupa stages, respectively. The developed phenology model predicted temperatures between 25 and 35 °C as the favourable range for P. solenopsis development, survival and reproduction. P. solenopsis population attained a maximum net reproductive rate (107–108 females/female/generation) and total fecundity (216.6–226.5 individuals/female/generation) at temperatures between 25 and 30 °C. Mean length of generations decreased from 75.6 days at 15 °C to 21 days at 40 °C. The maximum finite rate of increase (1.12–1.16 females/female/day) and shortest doubling time (4.3–6.1 days) were also observed at temperatures between 25 and 35 °C. The simulation of phenology model at fluctuating temperatures indicated that P. solenopsis populations might potentially increase with a finite rate of 1.06 females/female/day with an average generation time of 58.7 days and a doubling time of 12.1 days. The obtained life table parameters were reasonably similar when compared with literature data. The present model can be simulated spatially for estimating the pest risk and undertaking agro-ecoregion specific pest management strategies. 相似文献
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为明确木瓜秀粉蚧Paracoccus marginatus Williams et Granara de Willink 1922在中国的潜在适生区,基于中国820个气象站点的气象数据和未来气候变化数据,结合木瓜秀粉蚧的生物学特性,利用CLIMEX模型对该虫在中国当前气候以及未来气候条件下的潜在适生区进行预测。结果显示,木瓜秀粉蚧在中国的潜在适生区主要在南方,适生区面积占全国陆地总面积的9.07%。高适生区主要包括海南省、广东省南部、广西壮族自治区南部以及福建省和云南省小部分地区。在未来气候条件下,2050年木瓜秀粉蚧的潜在适生区将进一步扩大,适生区面积所占比例将增加至15.46%,且有向北移动的趋势。表明木瓜秀粉蚧对中国南方地区的农业潜在威胁巨大,建议将该虫增补为检疫对象,并加强检疫监管和种群动态监测。 相似文献
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菠萝凋萎病毒研究进展 总被引:1,自引:0,他引:1
菠萝凋萎病毒的研究对于从根本上控制该病害具有重要意义。 文章介绍了菠萝凋萎病的症状和危害, 综述了菠萝凋萎病毒的分类、 检测、 基因组结构、 致病机制和防治策略等方面的研究现状和动向, 对存在问题进行了探讨。 相似文献
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Enset root mealybug, Cataenococcus ensete Williams and Matile-Ferrero, (Homoptera: Pseudococcidae) is an economically important pest on enset. Adults and nymphs of overlapping generations feed on the corms and roots of enset and are difficult to control once established. Isolates of Beauveria bassiana (Balsamo) Vuillemin and Metarhizium anisopliae (Metschnickoff) Sorokin that originated from Ethiopia were evaluated for their efficacies against enset root mealybugs under laboratory, pots and field conditions. Of the tested isolates, two strains (FF and PPRC-56) of B. bassiana were found to be highly pathogenic to adults, causing 97 and 100% mortality, respectively 20 days after inoculation under laboratory conditions. On the other hand, the isolates PPRC-56, FF, PPRC-6 and Mm induced mean mortalities of 97, 95, 96 and 83%, respectively, to the adult enset root mealybugs on the pot experiment, and 51.33, 38.67, 29.33 and 19.33% mortality at the first site and 54.00, 42.67, 32.00 and 25.33% at the second site, respectively, in field experiments. The study showed B. bassiana and M. anisopliae can be used in the integrated management of enset root mealybug. 相似文献