Eels' individual migratory behavior stems from a complex syndrome involving cognition, behavior, physiology, and life history.

IF 9.4 1区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Gaia De Russi, Mattia Lanzoni, Angelo Bisazza, Paolo Domenici, Giuseppe Castaldelli, Cristiano Bertolucci, Tyrone Lucon-Xiccato
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引用次数: 0

Abstract

Variability within species is key for adaptability and biological evolution. To understand individualities in the context of animal movement, we focused on one of the most remarkable migrations-the journey of the endangered European eel from their birthplace in the Sargasso Sea to freshwater environments. Laboratory observations unveiled a continuum of diverse phenotypes of migrating eels: Some displayed a heightened tendency to swim against a constant water flow, while others a greater propensity to climb obstacles. Looking for the biological underpinnings of this migratory diversity, we characterized the eels' individual differences in traits of four key domains: life history, physiology, behavior, and cognition, among which we found significant variance and interconnectedness. Upon reducing this variance to its primary multivariate axes, we found that these predict the migratory types. Eels with 1) low exploration, high activity, low boldness, and high lateralization; 2) strong lateralization, enhanced quantitative abilities, short problem-solving time, high boldness, and low growth rates; or 3) enhanced problem-solving, reduced spatial learning, high cognitive flexibility, and shorter time to solve the cognitive tasks were more likely to display the climbing migratory type. Field sampling revealed how specific traits' combinations seemed to influence the distribution of eels once they begin to settle in the freshwater environment. Our study underscores the impressive diversity of individuals during this critical migration, emphasizing an intrinsic connection to multidomain trait variance. Preserving this diversity becomes paramount, as it likely contributes to the resilience and adaptability of endangered migratory species.

黄鳝的个体洄游行为源于一种复杂的综合征,涉及认知、行为、生理和生活史。
物种内部的变异性是适应性和生物进化的关键。为了了解动物迁徙过程中的个体差异,我们重点研究了最引人注目的迁徙之一--濒临灭绝的欧洲鳗鱼从它们的出生地马尾藻海迁徙到淡水环境的过程。实验室观察发现,洄游鳗鱼的表型多种多样:一些鳗鱼显示出逆流而上的强烈倾向,而另一些则更倾向于攀爬障碍物。为了寻找这种洄游多样性的生物学基础,我们对鳗鱼在生活史、生理、行为和认知四个关键领域的个体差异进行了描述。将这些差异还原为主要的多元轴后,我们发现这些轴可以预测洄游类型。1)低探索性、高活动性、低胆量和高侧向性;2)强侧向性、数量能力增强、解决问题时间短、高胆量和低生长率;或3)解决问题能力增强、空间学习能力降低、认知灵活性高和解决认知任务时间短的鳗鱼更有可能表现出攀爬洄游类型。实地取样显示,一旦鳗鱼开始在淡水环境中定居,特定性状的组合似乎会影响它们的分布。我们的研究强调了个体在这一关键洄游过程中令人印象深刻的多样性,强调了与多域性状变异的内在联系。保护这种多样性至关重要,因为它可能有助于提高濒危洄游物种的恢复力和适应性。
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
CiteScore
19.00
自引率
0.90%
发文量
3575
审稿时长
2.5 months
期刊介绍: The Proceedings of the National Academy of Sciences (PNAS), a peer-reviewed journal of the National Academy of Sciences (NAS), serves as an authoritative source for high-impact, original research across the biological, physical, and social sciences. With a global scope, the journal welcomes submissions from researchers worldwide, making it an inclusive platform for advancing scientific knowledge.
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