水温和栖息地结构复杂性对定居后阶段白鲷常规游泳速度和逃逸反应的影响

Oceans Pub Date : 2024-01-12 DOI:10.3390/oceans5010003
P. Vicente, João Almeida, Laura Ribeiro, S. Castanho, A. Candeias‐Mendes, Pedro Pousão-Ferreira, A. M. Faria
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引用次数: 0

摘要

沿海生境正日益受到多种人为活动的威胁,其中包括海洋变暖和生境结构复杂性的丧失。这两种压力有可能严重影响海洋生物多样性的结构和功能。许多鱼类物种的早期生命阶段在中上层阶段结束后会迁往沿岸生境,以获得食 物、栖息地和保护。然而,温度的变化已被证明会影响定居后阶段鱼类的生态相关行为,栖息地结构复杂性的丧失与沿岸栖息地鱼类的低招募率和有害行为有关。在此,我们评估了长期暴露于升高的温度和结构复杂的栖息地变化对定居后的白鲷鱼(Diplodus sargus,林奈,1758 年)的常规游泳速度和逃逸反应的单独和交互影响。采用交叉实验设计,在不同温度(控制温度 19 °C;高温 22 °C)和结构栖息地复杂度(低和高)条件下饲养白鲷,并在暴露 6 周后分析其常规游泳和逃逸反应。温度的变化并没有引起行为层面的改变,但栖息地结构复杂性的丧失增加了常规游泳的速度和距离,以及逃逸反应行为中对刺激的反应性。这两个因素的相互作用并不影响动物的表现。确定物种如何受到环境变化的影响,以及这些变化的基本机制,对于了解鱼类的繁殖和种群的适应性和存活率至关重要。
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Effects of Water Temperature and Structural Habitat Complexity on the Routine Swimming Speed and Escape Response of Post-Settlement Stage White Seabream
Coastal habitats are increasingly threatened by multiple anthropogenic-related activities, which include ocean warming and loss of structural habitat complexity. These two pressures have the potential to severely affect the structure and function of marine biodiversity. Early life stages of many fish species recruit to coastal habitats at the end of their pelagic phase, benefiting from access to food, shelter and protection. However, changes in temperature have been shown to influence ecologically relevant behaviours in post-settlement stage fish, and the loss of structural habitat complexity has been related to low recruitment and deleterious behaviours of fish in coastal habitats. Here, we evaluated the individual and interactive effects of prolonged exposure to increasing temperature and changed structural habitat complexity on routine swimming speed and escape response of post-settlement white seabream, Diplodus sargus (Linnaeus, 1758). Fish were reared under different temperatures (control 19 °C; high 22 °C) and structural habitat complexity (low and high) scenarios, in a cross-experimental design, and the routine swimming and escape responses were analyzed after 6 weeks of exposure. Change in temperature did not induce alterations at the behavioural level, but loss of structural habitat complexity increased speed and distance travelled during routine swimming, and responsiveness to a stimulus during the escape response behaviour. The interaction of the two factors did not influence performance. Determining how species are affected by changes in their environment, and the mechanisms that underlie these changes, will be critical to understanding the fish recruitment and populations’ fitness and survival.
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