再版:海洋物种在不断变化的海洋中的适应性和适应能力。

Advances in marine biology Pub Date : 2024-01-01 Epub Date: 2024-09-04 DOI:10.1016/bs.amb.2024.08.007
Shawna A Foo, Maria Byrne
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引用次数: 0

摘要

为了在温度、pH 值和其他与气候变化有关的压力因素不断变化的海洋中生存下去,许多海洋物种可能需要进行适应或调整,以避免灭绝。如果海洋种群在耐受气候变化压力因子方面拥有足够的遗传变异,物种就有可能适应环境变化。海洋气候变化研究正从将个体直接置于预测情景("未来冲击 "方法)的单一生命阶段研究转向关注种群在未来几十年将逐渐变化的海洋中的适应潜力。本综述总结了考虑海洋无脊椎动物对气候变化压力因素的适应潜力的研究以及应用于该研究的方法,包括定量遗传学、实验室选择研究以及跨代和多代实验。表型可塑性可能有助于种群的持久性,为遗传适应提供时间。跨代和表观遗传效应表明,父母的环境和生理历史会影响后代的表现。需要进行长期的多代实验,以确定表型可塑性、遗传变异和跨代效应对物种在不断变化的海洋中持续生存能力的影响。然而,多代研究只适用于短代物种。考虑多种形态和生理特征,包括分子过程(如 DNA 甲基化)的变化,以及促进适应性的长期研究,对于明智预测气候变化将如何改变海景和海洋生物群落至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reprint: Acclimatization and Adaptive Capacity of Marine Species in a Changing Ocean.

To persist in an ocean changing in temperature, pH and other stressors related to climate change, many marine species will likely need to acclimatize or adapt to avoid extinction. If marine populations possess adequate genetic variation in tolerance to climate change stressors, species might be able to adapt to environmental change. Marine climate change research is moving away from single life stage studies where individuals are directly placed into projected scenarios ('future shock' approach), to focus on the adaptive potential of populations in an ocean that will gradually change over coming decades. This review summarizes studies that consider the adaptive potential of marine invertebrates to climate change stressors and the methods that have been applied to this research, including quantitative genetics, laboratory selection studies and trans- and multigenerational experiments. Phenotypic plasticity is likely to contribute to population persistence providing time for genetic adaptation to occur. Transgenerational and epigenetic effects indicate that the environmental and physiological history of the parents can affect offspring performance. There is a need for long-term, multigenerational experiments to determine the influence of phenotypic plasticity, genetic variation and transgenerational effects on species' capacity to persist in a changing ocean. However, multigenerational studies are only practicable for short generation species. Consideration of multiple morphological and physiological traits, including changes in molecular processes (eg, DNA methylation) and long-term studies that facilitate acclimatization will be essential in making informed predictions of how the seascape and marine communities will be altered by climate change.

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