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交配行为、生活史和对杀虫剂的适应决定了粉虱之间的物种排斥。

Mating behaviour, life history and adaptation to insecticides determine species exclusion between whiteflies.

机构信息

Department of Entomology, University of Arizona, 410 Forbes Bldg, Tucson, AZ 85721, USA.

出版信息

J Anim Ecol. 2010 May;79(3):563-70. doi: 10.1111/j.1365-2656.2010.01666.x. Epub 2010 Feb 15.

DOI:10.1111/j.1365-2656.2010.01666.x
PMID:20163491
Abstract
  1. Negative interspecific interactions, such as resource competition or reproductive interference, can lead to the displacement of species (species exclusion). 2. Here, we investigated the effect of life history, mating behaviour and adaptation to insecticides on species exclusion between cryptic whitefly species that make up the Bemisia tabaci species complex. We conducted population cage experiments independently in China, Australia, the United States and Israel to observe patterns of species exclusion between an invasive species commonly referred to as the B biotype and three other species commonly known as biotypes ZHJ1, AN and Q. 3. Although experimental conditions and species varied between regions, we were able to predict the observed patterns of exclusion in each region using a stochastic model that incorporated data on development time, mating behaviour and resistance to insecticides. 4. Between-species variation in mating behaviour was a more significant factor affecting species exclusion than variation in development time. Specifically, the ability of B to copulate more effectively than other species resulted in a faster rate of population increase for B, as well as a reduced rate of population growth for other species, leading to species exclusion. The greater ability of B to evolve resistance to insecticides also contributed to exclusion of other species in some cases. 5. Results indicate that an integrative analysis of the consequences of variation in life-history traits, mating behaviours and adaption to insecticides could provide a robust framework for predicting species exclusion following whitefly invasions.
摘要

  1. 种间的负相互作用,如资源竞争或生殖干扰,可以导致物种的取代(物种排斥)。

  2. 在这里,我们研究了生活史、交配行为和对杀虫剂的适应对构成烟粉虱复合种的隐种之间物种排斥的影响。我们在中国、澳大利亚、美国和以色列分别进行了种群笼实验,以观察一种常见的入侵物种(通常称为 B 生物型)与其他三种通常被称为 ZHJ1、AN 和 Q 生物型的物种之间的排斥模式。

  3. 尽管实验条件和物种在不同地区有所不同,但我们能够使用一个随机模型来预测每个地区观察到的排斥模式,该模型结合了发育时间、交配行为和对杀虫剂的抗性数据。

  4. 种间交配行为的差异是影响物种排斥的更重要因素,而发育时间的差异则不那么重要。具体来说,B 比其他物种更有效地交配的能力导致 B 的种群增长率更快,而其他物种的种群增长率降低,从而导致物种排斥。B 对杀虫剂的抗药性更强的能力在某些情况下也导致了其他物种的排斥。

  5. 结果表明,对生活史特征、交配行为和对杀虫剂适应的变化后果进行综合分析,可以为预测粉虱入侵后的物种排斥提供一个稳健的框架。

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