ZOOPLANKTON DIEL VERTICAL MIGRATION — A REVIEW OF PROXIMATE CONTROL

1区 生物学 Q1 Agricultural and Biological Sciences
Jonathan H. Cohen, R. Forward
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引用次数: 223

Abstract

Diel vertical migration (DVM) is a characteristic behavioural pattern performed by zooplankton in which their vertical distribution changes over the 24-h day. Here the proximate control of zooplankton DVM is reviewed. Light has emerged as the major proximate cue controlling DVM behaviour and the understanding of zooplankton visual physiology and the light-mediated behaviour underlying DVM is expanding. Field and laboratory evidence exist to support each of the three major hypotheses for the exogenous role of light in DVM: (1) preferendum or isolume, (2) absolute intensity threshold, and (3) relative rate of change. Light may also play an endogenous role in DVM by entraining circadian rhythms in vertical movement or activity. This appreciation of the role of light has improved modelling efforts into the causes and consequences of DVM. The most important recent advance in the study of DVM is the recognition that this behaviour is a phenotypic response in many species and is most commonly activated by chemical cues (kairomones) from fish predators. High levels of kairomones signal high levels of predation pressure, and DVM-related photobehaviours, such as swimming responses on relative rates of irradiance change, are altered such that migration occurs and zooplankton achieve a refuge from visual predators.
浮游动物死于垂直迁移——近因控制综述
Diel vertical migration (DVM)是浮游动物在24小时内垂直分布变化的一种特有的行为模式。本文就浮游动物DVM的近因控制作一综述。光已经成为控制DVM行为的主要直接线索,并且对浮游动物视觉生理和光介导的DVM行为的理解正在扩大。现有的现场和实验室证据支持光在DVM中外源作用的三个主要假设:(1)首选或等量,(2)绝对强度阈值,(3)相对变化率。光也可能通过在垂直运动或活动中引入昼夜节律而在DVM中发挥内源性作用。这种对光的作用的认识已经改进了对DVM的原因和后果的建模工作。DVM研究中最重要的最新进展是认识到这种行为是许多物种的一种表型反应,最常见的是由来自鱼类捕食者的化学线索(kairomones)激活。高水平的kairomones表示高水平的捕食压力,并且与dvm相关的光行为,例如对相对辐照率变化的游泳反应,被改变,从而发生迁移,浮游动物获得了躲避视觉捕食者的避难所。
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期刊介绍: With increasing interest in the field and its relevance in global environmental issues, Oceanography and Marine Biology: An Annual Review provides authoritative reviews that summarize results of recent research in basic areas of marine research, exploring topics of special and topical importance while adding to new areas as they arise
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