Physiological and behavioural strategies of aquatic animals living in fluctuating environments.

T. Blewett, S. Binning, A. Weinrauch, C. Ivy, Giulia S. Rossi, B. Borowiec, G. Lau, Sienna L Overduin, Isabel Aragao, T. Norin
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引用次数: 9

Abstract

Shallow or near-shore environments, such as ponds, estuaries and intertidal zones, are among the most physiologically challenging of all aquatic settings. Animals inhabiting these environments experience conditions that fluctuate markedly over relatively short temporal and spatial scales. Living in these habitats requires the ability to tolerate the physiological disturbances incurred by these environmental fluctuations. This tolerance is achieved through a suite of physiological and behavioural responses that allow animals to maintain homeostasis, including the ability to dynamically modulate their physiology through reversible phenotypic plasticity. However, maintaining the plasticity to adjust to some stresses in a dynamic environment may trade off with the capacity to deal with other stressors. This paper will explore studies on select fishes and invertebrates exposed to fluctuations in dissolved oxygen, salinity and pH. We assess the physiological mechanisms these species employ to achieve homeostasis, with a focus on the plasticity of their responses, and consider the resulting physiological trade-offs in function. Finally, we discuss additional factors that may influence organismal responses to fluctuating environments, such as the presence of multiple stressors, including parasites. We echo recent calls from experimental biologists to consider physiological responses to life in naturally fluctuating environments, not only because they are interesting in their own right but also because they can reveal mechanisms that may be crucial for living with increasing environmental instability as a consequence of climate change.
水生动物在波动环境中的生理和行为策略。
浅水或近岸环境,如池塘、河口和潮间带,是所有水生环境中生理上最具挑战性的环境之一。生活在这些环境中的动物在相对较短的时间和空间尺度上经历着显著波动的条件。生活在这些栖息地需要有能力忍受这些环境波动所引起的生理干扰。这种耐受性是通过一系列生理和行为反应来实现的,这些反应允许动物维持体内平衡,包括通过可逆的表型可塑性动态调节其生理的能力。然而,在动态环境中保持可塑性以适应某些压力可能会与处理其他压力源的能力相权衡。本文将对暴露于溶解氧、盐度和ph波动下的鱼类和无脊椎动物进行研究。我们评估了这些物种实现体内平衡的生理机制,重点关注了它们的反应的可塑性,并考虑了由此产生的生理功能权衡。最后,我们讨论了可能影响生物体对波动环境反应的其他因素,例如多种应激源(包括寄生虫)的存在。我们响应了实验生物学家最近的呼吁,考虑在自然波动的环境中对生命的生理反应,不仅因为它们本身很有趣,而且因为它们可以揭示出在气候变化导致的日益不稳定的环境中生存的关键机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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