Rising water temperature in rivers: Ecological impacts and future resilience

WIREs Water Pub Date : 2024-03-05 DOI:10.1002/wat2.1724
Matthew F. Johnson, Lindsey K. Albertson, Adam C. Algar, Stephen J. Dugdale, Patrick Edwards, Judy England, Christopher Gibbins, So Kazama, Daisuke Komori, Andrew D. C. MacColl, Eric A. Scholl, Robert L. Wilby, Fabio de Oliveira Roque, Paul J. Wood
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Abstract

Rising water temperatures in rivers due to climate change are already having observable impacts on river ecosystems. Warming water has both direct and indirect impacts on aquatic life, and further aggravates pervasive issues such as eutrophication, pollution, and the spread of disease. Animals can survive higher temperatures through physiological and/or genetic acclimation, behavioral and phenological change, and range shifts to more suitable locations. As such, those animals that are adapted to cool-water regions typically found in high altitudes and latitudes where there are fewer dispersal opportunities are most at risk of future extinction. However, sub-lethal impacts on animal physiology and phenology, body-size, and trophic interactions could have significant population-level effects elsewhere. Rivers are vulnerable to warming because historic management has typically left them exposed to solar radiation through the removal of riparian shade, and hydrologically disconnected longitudinally, laterally, and vertically. The resilience of riverine ecosystems is also limited by anthropogenic simplification of habitats, with implications for the dispersal and resource use of resident organisms. Due to the complex indirect impacts of warming on ecosystems, and the species-specific physiological and behavioral response of organisms to warming, predicting how river ecosystems will change in the future is challenging. Restoring rivers to provide connectivity and heterogeneity of conditions would provide resilience to a range of expected co-occurring pressures, including warming, and should be considered a priority as part of global strategies for climate adaptation and mitigation.

Abstract Image

河流水温上升:生态影响与未来恢复能力
气候变化导致河流水温上升,已经对河流生态系统产生了明显的影响。水温升高会对水生生物产生直接和间接影响,并进一步加剧富营养化、污染和疾病传播等普遍问题。动物可以通过生理和/或基因适应、行为和物候变化以及迁移到更合适的地点来适应更高的温度。因此,那些适应冷水区域的动物,通常分布在高海拔和高纬度地区,这些地区的动物扩散机会较少,未来灭绝的风险最大。然而,对动物生理和物候、体型和营养相互作用的亚致死影响可能会对其他地方的种群产生重大影响。河流容易受到气候变暖的影响,因为历史上的管理方式通常是通过移除河岸遮荫物使河流暴露在太阳辐射下,并在纵向、横向和纵向上造成水文断裂。河流生态系统的恢复能力也受到人为简化栖息地的限制,这对常住生物的扩散和资源利用产生了影响。由于气候变暖对生态系统的间接影响十分复杂,而且生物对气候变暖的生理和行为反应也因物种而异,因此预测河流生态系统未来将如何变化具有挑战性。恢复河流以提供连通性和条件的异质性,将为包括气候变暖在内的一系列预期同时出现的压力提供复原力,应被视为全球气候适应和减缓战略的优先事项。
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