气候变化中的进化拯救:雄性对产卵日期的间接遗传影响及其对种群持久性的影响

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2023-07-13 eCollection Date: 2024-02-01 DOI:10.1093/evlett/qrad022
Myranda Murray, Jonathan Wright, Yimen G Araya-Ajoy
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引用次数: 0

摘要

鸟类繁殖物候的变化是自由放养种群对气候变化最明显的反应之一。一个关键的问题是人口是否能够跟上预期的环境变化速度。关于鸟类产卵日期跟踪温度变化的机制以及(不良)适应对种群持久性的影响,有大量的研究。经常被忽视的是雄性的作用,它可以通过对产卵环境的影响来影响配偶的产卵日期。我们探讨了社会可塑性导致的男性间接遗传效应如何帮助或阻碍种群持久性,当支持产卵日期的女性基因和影响女性繁殖时间的男性基因都响应气候介导的选择。我们扩展了定量遗传移动最优模型来预测社会可塑性对最大可持续温度变化速率的影响,并使用模拟数据和文献中的经验估计相结合来评估我们的模型。我们的研究结果表明,如果不考虑间接遗传效应和跨性别遗传相关性,对种群持久性的预测可能存在偏差,而且这种偏差的程度取决于环境变化如何影响最佳繁殖时间的性别差异。我们的模型强调,需要更多的实证工作来了解环境变化对物候的性别特异性影响以及种群动态的适应度后果。虽然我们只在鸟类繁殖物候学的背景下讨论我们的结果,但我们在这里采取的方法可以推广到许多不同的背景和社会互动类型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evolutionary rescue from climate change: male indirect genetic effects on lay-dates and their consequences for population persistence.

Changes in avian breeding phenology are among the most apparent responses to climate change in free-ranging populations. A key question is whether populations will be able to keep up with the expected rates of environmental change. There is a large body of research on the mechanisms by which avian lay-dates track temperature change and the consequences of (mal)adaptation on population persistence. Often overlooked is the role of males, which can influence the lay-date of their mate through their effect on the prelaying environment. We explore how social plasticity causing male indirect genetic effects can help or hinder population persistence when female genes underpinning lay-date and male genes influencing female's timing of reproduction both respond to climate-mediated selection. We extend quantitative genetic moving optimum models to predict the consequences of social plasticity on the maximum sustainable rate of temperature change, and evaluate our model using a combination of simulated data and empirical estimates from the literature. Our results suggest that predictions for population persistence may be biased if indirect genetic effects and cross-sex genetic correlations are not considered and that the extent of this bias depends on sex differences in how environmental change affects the optimal timing of reproduction. Our model highlights that more empirical work is needed to understand sex-specific effects of environmental change on phenology and the fitness consequences for population dynamics. While we discuss our results exclusively in the context of avian breeding phenology, the approach we take here can be generalized to many different contexts and types of social interaction.

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CiteScore
7.20
自引率
4.30%
发文量
567
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