在不同温度和初始幼虫密度条件下,Wolbachia pipientis(立克次体:立克次体科)对埃及伊蚊(双翅目:Culicidae)的适应性和表现的介导效应。

Sebastian Duran-Ahumada, Luiza Karrer, Chun Cheng, Isabella Roeske, Josie Pilchik, David Jimenez-Vallejo, Emily Smith, Kristina Roy, Oscar D Kirstein, Abdiel Martin-Park, Yamili Contreras-Perera, Azael Che-Mendoza, Gabriela Gonzalez-Olvera, Henry N Puerta-Guardo, Sandra I Uribe-Soto, Pablo Manrique-Saide, Gonzalo Vazquez-Prokopec
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引用次数: 0

摘要

Wolbachia pipientis(Hertig,1936 年),又称 Wolbachia,是一种存在于昆虫类群中的细菌,其某些菌株已被证明会影响蚊子,尤其是埃及伊蚊(林奈,1762 年)的适应性和传播病毒的能力。大多数研究都是在有限的环境条件下研究这些影响的。在此,我们试图了解幼虫密度、温度等环境相关条件及其相互作用对受 wAlbB 感染的埃及伊蚊的影响。使用因子设计,我们测量了 wAlbB 的稳定性(相对密度、在雌蚊和后代中的萌发后)、wAlbB 诱导细胞质不相容的能力,以及细菌在两种温度制度(波动和恒定)和两种初始幼虫密度(低和高)下对蚊子体能(繁殖力、生育能力和体质)和性能(成蚊存活率和化蛹时间)的影响。与恒温(27 °C)相比,日温度波动制度(27 °C至40 °C)导致萌发后 wAlbB 密度降低,卵中 wAlbB 密度增加。与未感染的野生型雌虫相比,在波动温度下饲养的携带 wAlbB 的雌虫的繁殖力提高了。相反,携带 wAlbB 的雄性成虫的存活率明显低于野生型雄性成虫。我们发现,在蚊子的不同性别和生命阶段,所评估的处理方法(沃尔巴克氏体感染状况、温度和幼虫密度)会产生不同的影响。总之,我们的研究结果表明,现实条件可能不会对埃及蝇中 wAlbB 感染的稳定性产生重大影响。然而,由于在自然种群所面临的条件下生活史的权衡,了解埃及疟蚊与 wAlbB 相互作用的生态后果是复杂的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wolbachia pipientis (Rickettsiales: Rickettsiaceae) mediated effects on the fitness and performance of Aedes aegypti (Diptera: Culicidae) under variable temperatures and initial larval densities.

Wolbachia pipientis (Hertig, 1936), also referred as Wolbachia, is a bacterium present across insect taxa, certain strains of which have been demonstrated to impact the fitness and capacity to transmit viruses in mosquitoes, particularly Aedes aegypti (Linnaeus, 1762). Most studies examine these impacts in limited sets of environmental regimes. Here we seek to understand the impacts of environmentally relevant conditions such as larval density, temperature, and their interaction on wAlbB-infected A. aegypti. Using a factorial design, we measured wAlbB stability (relative density, post-emergence in females, and in progeny), the ability for wAlbB to induce cytoplasmic incompatibility, and bacterial effects on mosquito fitness (fecundity, fertility, and body mass) and performance (adult survival and time to pupation) across 2 temperature regimes (fluctuating and constant) and 2 initial larval densities (low and high). Fluctuating daily regimes of temperature (27 to 40 °C) led to decreased post-emergence wAlbB density and increased wAlbB density in eggs compared to constant temperature (27 °C). An increased fecundity was found in wAlbB-carrying females reared at fluctuating temperatures compared to uninfected wild-type females. wAlbB-carrying adult females showed significantly increased survival than wild-type females. Contrarily, wAlbB-carrying adult males exhibited a significantly lower survival than wild-type males. We found differential effects of assessed treatments (Wolbachia infection status, temperature, and larval density) across mosquito sexes and life stages. Taken together, our results indicate that realistic conditions may not impact dramatically the stability of wAlbB infection in A. aegypti. Nonetheless, understanding the ecological consequence of A. aegypti-wAlbB interaction is complex due to life history tradeoffs under conditions faced by natural populations.

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