Habitat structural complexity predicts cognitive performance and behaviour in western mosquitofish.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-01 Epub Date: 2024-07-10 DOI:10.1098/rsbl.2023.0394
Kyndal Irwin, Andrea S Aspbury, Timothy Bonner, Caitlin R Gabor
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Abstract

Urban stream syndrome alters stream habitat complexity. We define habitat complexity as the degree of variation in physical habitat structure, with increasing variation equating to higher complexity. Habitat complexity affects species composition and shapes animal ecology, physiology, behaviour and cognition. We used a delayed detour test to measure whether cognitive processes (motor self-regulation) and behaviour (risk-taking) of female Western mosquitofish, Gambusia affinis, varied with habitat structural complexity (low, moderate and high) that was quantified visually for nine populations. We predicted that motor self-regulation and risk-taking behaviour would increase with increasing habitat complexity, yet we found support for the opposite. Lower complexity habitats offer less refuge potentially leading to higher predation pressure and selecting for greater risk-taking by fish with higher motor self-regulation. Our findings provide insight into how habitat complexity can shape cognitive processes and behaviour and offers a broader understanding of why some species may tolerate conditions of urbanized environments.

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栖息地结构复杂性可预测西蚊鱼的认知能力和行为。
城市溪流综合症改变了溪流生境的复杂性。我们将栖息地复杂性定义为物理栖息地结构的变化程度,变化越大,复杂性越高。栖息地的复杂性会影响物种组成,并塑造动物的生态、生理、行为和认知。我们使用延迟迂回测试来测量雌性西蚊鱼(Gambusia affinis)的认知过程(运动自我调节)和行为(冒险)是否会随着栖息地结构复杂度(低、中、高)而变化。我们预测运动自我调节和冒险行为会随着栖息地复杂程度的增加而增加,但我们发现情况恰恰相反。复杂度较低的栖息地提供的避难所较少,可能会导致捕食压力增大,并使运动自我调节能力较强的鱼类承担更大的风险。我们的研究结果让我们深入了解了栖息地的复杂性是如何影响认知过程和行为的,并让我们更广泛地理解了为什么有些物种可以忍受城市化环境的条件。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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