Reviewing theory, design, and analysis of tethering experiments to enhance our understanding of predation

IF 2.1 3区 生物学 Q2 MARINE & FRESHWATER BIOLOGY
O. Kennedy Rhoades, Christopher J. Patrick, Matthew B. Ogburn
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Abstract

Predation is a key process that influences the structure and functioning of ecosystems. Tethering experiments, which involve restraining prey or prey analogs in field settings, are used to evaluate predation with minimal manipulation of predators and the environment. However, tethering experiments alter the behavior of mobile prey, an issue that increases in severity with prey mobility and reliance on that mobility to evade predators, resulting in artifacts that complicate the interpretation of experimental findings. Given their widespread and rapidly evolving use, we review and reconsider the applications of tethering experiments in marine ecosystems, their utility in measuring predation, associated artifacts, theoretical, methodological, and statistical considerations and challenges, and how to overcome these. Breaking down the predation process into its successive stages (encounter, attack, capture, and consumption), we consider that tethering experiments effectively measure two major aspects of predation: (1) relative predation rates (requiring all four stages, and resulting in successful predation) and (2) predation risk (requiring only encounter and attack). We suggest that tethering experiments be designed to test hypotheses that target particular stages or all stages of the predation process and its drivers, through manipulating tethering experimental designs, conducting direct observations of tethering experiments, collecting additional community or environmental data, combining tethering with other experimental approaches, and through statistical analyses. This general approach facilitates both our understanding of the limitations and utility of tethering experiments to compare patterns and identify drivers of predation rates and risk in the field, topics of study that remain underrepresented in the literature.

Abstract Image

回顾系留实验的理论、设计和分析,加深我们对捕食的理解
捕食是影响生态系统结构和功能的一个关键过程。系留实验涉及在野外环境中束缚猎物或猎物类似物,用于评估捕食行为,只需对捕食者和环境进行最小程度的操作。然而,系留实验会改变移动猎物的行为,这一问题会随着猎物的移动性和依靠这种移动性躲避捕食者而变得更加严重,从而造成假象,使实验结果的解释变得复杂。鉴于系留实验的广泛应用和快速发展,我们回顾并重新考虑了系留实验在海洋生态系统中的应用、其在测量捕食方面的效用、相关伪影、理论、方法和统计方面的考虑因素和挑战,以及如何克服这些问题。我们将捕食过程分解为连续的阶段(遭遇、攻击、捕获和消耗),认为系留实验可以有效测量捕食的两个主要方面:(1) 相对捕食率(需要所有四个阶段,并导致成功捕食)和 (2) 捕食风险(只需要遭遇和攻击)。我们建议设计系留实验,通过操纵系留实验设计、对系留实验进行直接观察、收集更多的群落或环境数据、将系留与其他实验方法相结合以及通过统计分析,检验针对捕食过程特定阶段或所有阶段及其驱动因素的假设。这种通用方法有助于我们了解系留实验的局限性和实用性,以比较模式并确定野外捕食率和风险的驱动因素,而这些研究课题在文献中的代表性仍然不足。
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来源期刊
Marine Biology
Marine Biology 生物-海洋与淡水生物学
CiteScore
4.20
自引率
8.30%
发文量
133
审稿时长
3-6 weeks
期刊介绍: Marine Biology publishes original and internationally significant contributions from all fields of marine biology. Special emphasis is given to articles which promote the understanding of life in the sea, organism-environment interactions, interactions between organisms, and the functioning of the marine biosphere.
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