The ticking clock in the dark: Review of biological rhythms in cave invertebrates.

IF 2.2 4区 医学 Q2 BIOLOGY
Chronobiology International Pub Date : 2024-05-01 Epub Date: 2024-05-09 DOI:10.1080/07420528.2024.2348010
Priscila Emanuela de Souza, Marconi Souza-Silva, Rodrigo Lopes Ferreira
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引用次数: 0

Abstract

Circadian clocks, internal mechanisms that generate 24-hour rhythms, play a crucial role in coordinating biological events with day-night cycles. In light-deprived environments such as caves, species, particularly isolated obligatory troglobites, may exhibit evolutionary adaptations in biological rhythms due to light exposure. To explore rhythm expression in these settings, we conducted a comprehensive literature review on invertebrate chronobiology in global subterranean ecosystems, analyzing 44 selected studies out of over 480 identified as of September 2023. These studies revealed significant taxonomic diversity, primarily among terrestrial species like Coleoptera, with research concentrated in the United States, Italy, France, Australia, and Brazil, and a notable gap in African records. Troglobite species displayed a higher incidence of aperiodic behavior, while troglophiles showed a robust association with rhythm expression. Locomotor activity was the most studied aspect (>60%). However, approximately 4% of studies lacked information on periodicity or rhythm asynchrony, and limited research under constant light conditions hindered definitive conclusions. This review underscores the need to expand chronobiological research globally, encompassing diverse geographical regions and taxa, to deepen our understanding of biological rhythms in subterranean species. Such insights are crucial for preserving the resilience of subsurface ecosystems facing threats like climate change and habitat loss.

黑暗中的滴答声洞穴无脊椎动物的生物节律回顾。
昼夜节律钟是产生 24 小时节律的内部机制,在协调生物事件与昼夜周期方面起着至关重要的作用。在洞穴等光照不足的环境中,物种(尤其是孤立的强制性蛙类)可能会因光照而在生物节律方面表现出进化适应性。为了探索这些环境中的节律表达,我们对全球地下生态系统中的无脊椎动物时间生物学进行了全面的文献综述,分析了截至2023年9月所发现的480多项研究中的44项精选研究。这些研究揭示了分类学的巨大多样性,主要集中在鞘翅目等陆生物种中,研究主要集中在美国、意大利、法国、澳大利亚和巴西,而非洲的记录则明显不足。嗜蛙性物种的非周期性行为发生率较高,而嗜蛙性物种则与节律表现密切相关。运动活动是研究最多的方面(超过 60%)。然而,约有 4% 的研究缺乏有关周期性或节律不同步的信息,在恒定光照条件下进行的有限研究也阻碍了最终结论的得出。本综述强调了在全球范围内扩大时间生物学研究的必要性,包括不同的地理区域和类群,以加深我们对地下物种生物节律的了解。这些见解对于保护面临气候变化和栖息地丧失等威胁的地下生态系统的恢复能力至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Chronobiology International
Chronobiology International 生物-生理学
CiteScore
5.60
自引率
7.10%
发文量
110
审稿时长
1 months
期刊介绍: Chronobiology International is the journal of biological and medical rhythm research. It is a transdisciplinary journal focusing on biological rhythm phenomena of all life forms. The journal publishes groundbreaking articles plus authoritative review papers, short communications of work in progress, case studies, and letters to the editor, for example, on genetic and molecular mechanisms of insect, animal and human biological timekeeping, including melatonin and pineal gland rhythms. It also publishes applied topics, for example, shiftwork, chronotypes, and associated personality traits; chronobiology and chronotherapy of sleep, cardiovascular, pulmonary, psychiatric, and other medical conditions. Articles in the journal pertain to basic and applied chronobiology, and to methods, statistics, and instrumentation for biological rhythm study. Read More: http://informahealthcare.com/page/cbi/Description
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