Limited sex differences in plastic responses suggest evolutionary conservatism of thermal reaction norms: A meta-analysis in insects.

IF 3.4 1区 生物学 Q2 EVOLUTIONARY BIOLOGY Evolution Letters Pub Date : 2022-11-02 eCollection Date: 2022-12-01 DOI:10.1002/evl3.299
Tiit Teder, Kristiina Taits, Ants Kaasik, Toomas Tammaru
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Abstract

Temperature has a profound effect on the growth and development of ectothermic animals. However, the extent to which ecologically driven selection pressures can adjust thermal plastic responses in growth schedules is not well understood. Comparing temperature-induced plastic responses between sexes provides a promising but underexploited approach to evaluating the evolvability of thermal reaction norms: males and females share largely the same genes and immature environments but typically experience different ecological selection pressures. We proceed from the idea that substantial sex differences in plastic responses could be interpreted as resulting from sex-specific life-history optimization, whereas similarity among the sexes should rather be seen as evidence of an essential role of physiological constraints. In this study, we performed a meta-analysis of sex-specific thermal responses in insect development times, using data on 161 species with comprehensive phylogenetic and ecological coverage. As a reference for judging the magnitude of sex specificity in thermal plasticity, we compared the magnitude of sex differences in plastic responses to temperature with those in response to diet. We show that sex-specific responses of development times to temperature variation are broadly similar. We also found no strong evidence for sex specificity in thermal responses to depend on the magnitude or direction of sex differences in development time. Sex differences in temperature-induced plastic responses were systematically less pronounced than sex differences in responses induced by variations in larval diet. Our results point to the existence of substantial constraints on the evolvability of thermal reaction norms in insects as the most likely explanation. If confirmed, the low evolvability of thermal response is an essential aspect to consider in predicting evolutionary responses to climate warming.

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可塑性反应的有限性别差异表明热反应规范在进化过程中是保守的:昆虫荟萃分析
温度对外温动物的生长和发育有着深远的影响。然而,人们对生态驱动的选择压力能在多大程度上调整生长时间表中的热可塑性反应还不甚了解。比较不同性别的温度诱导可塑性反应为评估热反应规范的可进化性提供了一种前景广阔但尚未得到充分利用的方法:雄性和雌性具有大致相同的基因和未成熟环境,但通常会经历不同的生态选择压力。我们的出发点是,可塑性反应中的实质性性别差异可被解释为性别特异性生命史优化的结果,而性别间的相似性则应被视为生理约束起重要作用的证据。在这项研究中,我们利用全面系统发育和生态学覆盖的 161 个物种的数据,对昆虫发育时间的性别特异性热反应进行了荟萃分析。作为判断热可塑性中性别特异性大小的参考,我们比较了对温度的可塑性反应和对饮食反应的性别差异大小。我们发现,发育时间对温度变化的性别特异性反应大致相似。我们还发现,没有强有力的证据表明热反应的性别特异性取决于发育时间性别差异的大小或方向。温度引起的可塑性反应的性别差异不如幼虫饮食变化引起的反应的性别差异那么明显。我们的研究结果表明,昆虫热反应规范的可进化性受到很大限制,这是最有可能的解释。如果得到证实,热反应的低进化性是预测气候变暖的进化反应时需要考虑的一个重要方面。
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来源期刊
Evolution Letters
Evolution Letters EVOLUTIONARY BIOLOGY-
CiteScore
13.00
自引率
2.00%
发文量
35
审稿时长
10 weeks
期刊介绍: Evolution Letters publishes cutting-edge new research in all areas of Evolutionary Biology. Available exclusively online, and entirely open access, Evolution Letters consists of Letters - original pieces of research which form the bulk of papers - and Comments and Opinion - a forum for highlighting timely new research ideas for the evolutionary community.
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