氧在生物体对气候变暖的反应中有争议的作用。

IF 2.1 4区 生物学 Q2 BIOLOGY Biological Bulletin Pub Date : 2022-10-01 DOI:10.1086/722471
David Atkinson, Garrath Leighton, Michael Berenbrink
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引用次数: 4

摘要

摘要尽管气候变化对全球生态具有重要意义,但围绕氧气如何影响变暖下水生变温动物的命运仍存在争议。分歧延伸到氧气生物利用度的性质,以及氧气是否通常在变暖条件下限制生长,这解释了成虫体型较小的原因。这些争议影响了两个有影响力的假设:鳃限氧和限氧和限能耐热性。在这里,我们促进生理和进化机制的更深层次的整合。我们首先澄清了水中氧气生物利用度的本质,开发了一个新的传质模型,可以用于比较具有不同呼吸系统和流动机制的生物对变暖的影响。通过区分将氧气从环境转移到组织的有氧能量成本和所有其他功能的成本,我们预测在达到临界低环境氧之前,尽管总代谢率大致恒定,但在缺氧期间,能量依赖的适应度会下降。一种保持产生水对流成本不变的氧气生物利用度的新测量方法预测,在片脚类动物模型中,与以前的氧气供应指数相比,氧气摄取的热敏性更高。更重要的是,通过结合产生水流的尺寸和温度依赖的成本,我们提出不同体型和温度下的氧气限制可以机械地建模。然后,我们报告了在良性变暖下氧气限制生长和成体大小的证据。然而,我们认为,偶尔的氧气限制可能与其他选择性压力一起,有助于维持对变暖的适应性塑料反应。最后,我们讨论了如何克服常用增长模型中破坏变暖影响预测的缺陷。
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Controversial Roles of Oxygen in Organismal Responses to Climate Warming.

AbstractDespite the global ecological importance of climate change, controversy surrounds how oxygen affects the fate of aquatic ectotherms under warming. Disagreements extend to the nature of oxygen bioavailability and whether oxygen usually limits growth under warming, explaining smaller adult size. These controversies affect two influential hypotheses: gill oxygen limitation and oxygen- and capacity-limited thermal tolerance. Here, we promote deeper integration of physiological and evolutionary mechanisms. We first clarify the nature of oxygen bioavailability in water, developing a new mass-transfer model that can be adapted to compare warming impacts on organisms with different respiratory systems and flow regimes. By distinguishing aerobic energy costs of moving oxygen from environment to tissues from costs of all other functions, we predict a decline in energy-dependent fitness during hypoxia despite approximately constant total metabolic rate before reaching critically low environmental oxygen. A new measure of oxygen bioavailability that keeps costs of generating water convection constant predicts a higher thermal sensitivity of oxygen uptake in an amphipod model than do previous oxygen supply indices. More importantly, by incorporating size- and temperature-dependent costs of generating water flow, we propose that oxygen limitation at different body sizes and temperatures can be modeled mechanistically. We then report little evidence for oxygen limitation of growth and adult size under benign warming. Yet occasional oxygen limitation, we argue, may, along with other selective pressures, help maintain adaptive plastic responses to warming. Finally, we discuss how to overcome flaws in a commonly used growth model that undermine predictions of warming impacts.

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来源期刊
Biological Bulletin
Biological Bulletin 生物-海洋与淡水生物学
CiteScore
3.30
自引率
6.20%
发文量
47
审稿时长
6-12 weeks
期刊介绍: The Biological Bulletin disseminates novel scientific results in broadly related fields of biology in keeping with more than 100 years of a tradition of excellence. The Bulletin publishes outstanding original research with an overarching goal of explaining how organisms develop, function, and evolve in their natural environments. To that end, the journal publishes papers in the fields of Neurobiology and Behavior, Physiology and Biomechanics, Ecology and Evolution, Development and Reproduction, Cell Biology, Symbiosis and Systematics. The Bulletin emphasizes basic research on marine model systems but includes articles of an interdisciplinary nature when appropriate.
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