再版:自然酸化系统在海洋酸化研究中的重要性:我们学到了什么?

Advances in marine biology Pub Date : 2024-01-01 Epub Date: 2024-09-05 DOI:10.1016/bs.amb.2024.08.004
Sara González-Delgado, José Carlos Hernández
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引用次数: 0

摘要

人类活动造成大气中二氧化碳过量,导致我们所熟知的海洋酸化,使海洋生态系统发生变化。直到最近,该领域的大部分研究都是在小规模实验室条件下进行的,使用的变量、物种和生命周期阶段都很少。这些局限性对环境的可重复性以及间接效应和协同作用在这些实验最终结果中的重要性提出了质疑。解决这些实验问题的方法之一是在原地进行研究,即在预计未来 pH 条件已经出现的自然区域,如二氧化碳喷口系统。在本报告中,我们对在这些自然实验室中开展的最新研究进行了梳理和讨论,目的是总结它们的优缺点,以改进这些研究,从而更好地帮助我们了解未来海洋将如何变化。
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Reprint: The Importance of Natural Acidified Systems in the Study of Ocean Acidification: What Have We Learned?

Human activity is generating an excess of atmospheric CO2, resulting in what we know as ocean acidification, which produces changes in marine ecosystems. Until recently, most of the research in this area had been done under small-scale, laboratory conditions, using few variables, few species and few life cycle stages. These limitations raise questions about the reproducibility of the environment and about the importance of indirect effects and synergies in the final results of these experiments. One way to address these experimental problems is by conducting studies in situ, in natural areas where expected future pH conditions already occur, such as CO2 vent systems. In the present work, we compile and discuss the latest research carried out in these natural laboratories, with the objective to summarize their advantages and disadvantages for research to improve these investigations so they can better help us understand how the oceans of the future will change.

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