适应气候变化的进化

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-02-01 DOI:10.1093/evlett/qrad070
Allan H. Edelsparre, Mark J. Fitzpatrick, M. Saastamoinen, C. Teplitsky
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引用次数: 0

摘要

摘要 200 多年前,当气候变化的概念出现时,很少有人推测大气温度上升对生物生命的影响。几十年后的今天,研究清楚地表明,气候变化对地球生命的影响是巨大的、持续的,而且可以预见其影响将持续到下个世纪。对气候变化的反应已被广泛记录在案。然而,进化适应气候变化所涉及的表型特征的广度仍不清楚。此外,很难确定适应气候变化的表型的遗传和/或表观遗传基础,部分原因是通常不清楚这种变化是可塑的、遗传的还是两者的结合。对气候驱动的选择的适应性反应还与其他驱动遗传变化的过程相互作用,包括人口统计以及其他因素驱动的选择。在本特刊中,我们将探讨影响气候变化适应总体结果的因素。我们的研究成果解释了气候变化适应所涉及的性状不仅包括典型的现象,如范围转移和依赖环境的性别决定,还包括经常被忽视的现象,如社会和性冲突以及压力荷尔蒙的表达。我们将了解气候驱动的选择如何通过自然选择和性选择进行调解,从而有效影响与适应性相关的关键特征,如后代的生长和生育能力以及进化潜力。最后,我们探讨了预测对气候变化的适应性反应的局限性和机遇。这篇论文构成了 10 项行动的基础,我们相信这些行动将改善对生物何时以及如何在基因上适应气候变化的预测。我们预计,本特刊将为气候变化的影响如何从表型向基因型发展的新研究提供信息,尤其是当研究人员越来越多地在野外实验中研究选择的方法时。
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Evolutionary adaptation to climate change
Abstract When the notion of climate change emerged over 200 years ago, few speculated as to the impact of rising atmospheric temperatures on biological life. Tens of decades later, research clearly demonstrates that the impact of climate change on life on Earth is enormous, ongoing, and with foreseen effects lasting well into the next century. Responses to climate change have been widely documented. However, the breadth of phenotypic traits involved with evolutionary adaptation to climate change remains unclear. In addition, it is difficult to identify the genetic and/or epigenetic bases of phenotypes adaptive to climate change, in part because it often is not clear whether this change is plastic, genetic, or some combination of the two. Adaptive responses to climate-driven selection also interact with other processes driving genetic changes in general, including demography as well as selection driven by other factors. In this Special Issue, we explore the factors that will impact the overall outcome of climate change adaptation. Our contributions explain that traits involved in climate change adaptation include not only classic phenomena, such as range shifts and environmentally dependent sex determination, but also often overlooked phenomena such as social and sexual conflicts and the expression of stress hormones. We learn how climate-driven selection can be mediated via both natural and sexual selection, effectively influencing key fitness-related traits such as offspring growth and fertility as well as evolutionary potential. Finally, we explore the limits and opportunities for predicting adaptive responses to climate change. This contribution forms the basis of 10 actions that we believe will improve predictions of when and how organisms may adapt genetically to climate change. We anticipate that this Special Issue will inform novel investigations into how the effects of climate change unfold from phenotypes to genotypes, particularly as methodologies increasingly allow researchers to study selection in field experiments.
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CiteScore
7.20
自引率
4.30%
发文量
567
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