NIOZ Royal Netherlands Institute for Sea Research, Department of Coastal Systems, Utrecht University, PO Box 59, 1790 AB Den Burg, The Netherlands.
Department of Ecology, Faculty of Environmental Sciences, Czech University of Life Sciences Prague, Kamýcká 129, 165 21 Prague 6, Suchdol, Czech Republic.
Philos Trans R Soc Lond B Biol Sci. 2017 Nov 19;372(1734). doi: 10.1098/rstb.2016.0253.
Marine organisms adapt to complex temporal environments that include daily, tidal, semi-lunar, lunar and seasonal cycles. However, our understanding of marine biological rhythms and their underlying molecular basis is mainly confined to a few model organisms in rather simplistic laboratory settings. Here, we use new empirical data and recent examples of marine biorhythms to highlight how field ecologists and laboratory chronobiologists can complement each other's efforts. First, with continuous tracking of intertidal shorebirds in the field, we reveal individual differences in tidal and circadian foraging rhythms. Second, we demonstrate that shorebird species that spend 8-10 months in tidal environments rarely maintain such tidal or circadian rhythms during breeding, likely because of other, more pertinent, temporally structured, local ecological pressures such as predation or social environment. Finally, we use examples of initial findings from invertebrates (arthropods and polychaete worms) that are being developed as model species to study the molecular bases of lunar-related rhythms. These examples indicate that canonical circadian clock genes (i.e. the homologous clock genes identified in many higher organisms) may not be involved in lunar/tidal phenotypes. Together, our results and the examples we describe emphasize that linking field and laboratory studies is likely to generate a better ecological appreciation of lunar-related rhythms in the wild.This article is part of the themed issue 'Wild clocks: integrating chronobiology and ecology to understand timekeeping in free-living animals'.
海洋生物适应包括每日、潮汐、半月、月和季节周期等复杂的时间环境。然而,我们对海洋生物节律及其潜在分子基础的理解主要局限于少数几个在相当简单的实验室环境下的模式生物。在这里,我们利用新的实证数据和最近的海洋生物节律的例子,强调了野外生态学家和实验室时间生物学家如何能够相互补充。首先,通过在野外对潮间带涉禽进行连续跟踪,我们揭示了个体在潮汐和昼夜觅食节律方面的差异。其次,我们证明了那些在潮汐环境中度过 8-10 个月的涉禽物种在繁殖期间很少保持这种潮汐或昼夜节律,这可能是因为其他更相关的、时间结构更有序的局部生态压力,如捕食或社会环境。最后,我们利用作为研究与月球相关节律的分子基础的模型物种的无脊椎动物(节肢动物和多毛环节动物)的初步研究结果的例子。这些例子表明,典型的生物钟基因(即许多高等生物中鉴定出的同源生物钟基因)可能不参与与月球/潮汐有关的表型。总之,我们的研究结果和描述的例子强调了将野外和实验室研究联系起来,很可能会对野生动物中与月球相关的节律产生更好的生态认识。本文是主题为“野生时钟:整合时间生物学和生态学以了解自由生活动物的计时”的特刊的一部分。
