Contrasting effects of an extended fall period and winter heatwaves on the overwintering fitness of diapausing disease vector, Aedes albopictus

IF 2.2 Q1 ENTOMOLOGY Current Research in Insect Science Pub Date : 2023-01-01 DOI:10.1016/j.cris.2023.100067
Samantha L. Sturiale, Peter A. Armbruster
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Abstract

Climate change is expected to dramatically alter autumnal and winter conditions in many temperate regions. However, limited data is available to accurately predict how these changes will impact species’ overwinter survival and post-winter fitness. Here, we determine how a longer, warmer fall period and winter heatwaves affect overwintering fitness and post-winter performance of the invasive mosquito vector, Aedes albopictus. We found that a longer, warmer fall period representative of early entry into diapause did not affect overwinter survival but did lead to reduced post-winter performance for multiple traits. Specifically, larvae that experienced longer, warmer fall conditions as diapause embryos exhibited reduced post-diapause larval starvation tolerance, increased post-diapause larval mortality, and longer post-diapause larval development compared to individuals from the short-fall treatments. These negative post-diapause fitness effects likely resulted from the greater energetic demands and/or damage incurred during the warmer, longer fall period. In contrast, exposure to winter heatwaves increased overwinter survival, possibly by allowing diapausing embryos to escape or repair cold injury. Finally, fall treatment and winter heatwaves had an interactive effect on male development time, while neither treatment impacted pupal mass in either sex. Overall, our results highlight that experiments that fail to measure post-diapause fitness are likely to substantially under-estimate the impacts of climate change on post-winter performance. Additionally, our results emphasize that it is crucial to consider the potentially conflicting effects of different aspects of climate change on a species’ overall overwintering success.

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延长的秋季和冬季热浪对滞育病媒白纹伊蚊越冬适宜性的对比影响
气候变化预计将极大地改变许多温带地区的秋冬状况。然而,有限的数据可以准确地预测这些变化将如何影响物种的越冬生存和冬后适应性。在这里,我们确定了更长、更温暖的秋季和冬季热浪如何影响入侵蚊子载体白纹伊蚊的越冬适应性和冬后表现。我们发现,较长的、较暖的秋季(代表早期进入滞育)并不影响越冬存活,但确实导致多个性状的越冬后表现下降。具体来说,与短时间低温处理的个体相比,经历更长、更温暖的低温条件的滞育胚胎幼虫表现出更低的滞育后饥饿耐受性,更高的滞育后幼虫死亡率,以及更长的滞育后幼虫发育。这些消极的滞育后适合度效应可能是由于更大的能量需求和/或在更温暖、更长的秋季期间遭受的伤害。相比之下,暴露在冬季热浪中增加了越冬存活率,可能是通过让滞育胚胎逃脱或修复寒冷的伤害。最后,秋季处理和冬季热浪对雄性发育时间有交互影响,而对雌雄蛹质量没有影响。总之,我们的研究结果强调,未能测量滞育后适合度的实验可能大大低估了气候变化对冬后表现的影响。此外,我们的研究结果强调,考虑气候变化的不同方面对物种整体越冬成功的潜在冲突影响是至关重要的。
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来源期刊
Current Research in Insect Science
Current Research in Insect Science Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
3.20
自引率
0.00%
发文量
22
审稿时长
36 days
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