Max Perutz Labs, University of Vienna, Vienna BioCenter, Vienna, Austria; email:
Research Platform "Rhythms of Life," University of Vienna, Vienna BioCenter, Vienna, Austria.
Ann Rev Mar Sci. 2023 Jan 16;15:509-538. doi: 10.1146/annurev-marine-030422-113038. Epub 2022 Aug 26.
The regular movements of waves and tides are obvious representations of the oceans' rhythmicity. But the rhythms of marine life span across ecological niches and timescales, including short (in the range of hours) and long (in the range of days and months) periods. These rhythms regulate the physiology and behavior of individuals, as well as their interactions with each other and with the environment. This review highlights examples of rhythmicity in marine animals and algae that represent important groups of marine life across different habitats. The examples cover ecologically highly relevant species and a growing number of laboratory model systems that are used to disentangle key mechanistic principles. The review introduces fundamental concepts of chronobiology, such as the distinction between rhythmic and endogenous oscillator-driven processes. It also addresses the relevance of studying diverse rhythms and oscillators, as well as their interconnection, for making better predictions of how species will respond to environmental perturbations, including climate change. As the review aims to address scientists from the diverse fields of marine biology, ecology, and molecular chronobiology, all of which have their own scientific terms, we provide definitions of key terms throughout the article.
波浪和潮汐的有规律运动是海洋周期性的明显表现。但海洋生物的节奏跨越生态位和时间尺度,包括短时间(数小时范围内)和长时间(数天和数月范围内)。这些节奏调节个体的生理和行为,以及它们彼此之间以及与环境的相互作用。这篇综述强调了海洋动物和藻类的节奏性的例子,这些例子代表了不同生境中重要的海洋生物群体。这些例子涵盖了生态上非常相关的物种,以及越来越多的用于分离关键机械原理的实验室模型系统。该综述介绍了时间生物学的基本概念,例如区分节律和内源性振荡器驱动的过程。它还讨论了研究不同节奏和振荡器及其相互连接的相关性,以便更好地预测物种将如何对环境干扰(包括气候变化)做出反应。由于该综述旨在面向来自海洋生物学、生态学和分子时间生物学等不同领域的科学家,所有这些领域都有自己的科学术语,因此我们在整篇文章中提供了关键术语的定义。
