Hydropower impacts on riverine biodiversity

Fengzhi He  , Christiane Zarfl, Klement Tockner, Julian D. Olden, Zilca Campos, Fábio Muniz, Jens-Christian Svenning, Sonja C. Jähnig
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Abstract

Hydropower is a rapidly developing and globally important source of renewable electricity. Globally, over 60% of rivers longer than 500 km are already fragmented and thousands of dams are proposed on rivers in biodiversity hotspots. In this Review, we discuss the impacts of hydropower on aquatic and semi-aquatic species in riverine ecosystems and how these impacts accumulate spatially and temporally across basins. Dams act as physical barriers that disrupt longitudinal connectivity and upstream–downstream movement of species. Impoundment creates still-water habitats upstream of dams and leads to declines in lotic-adapted species. Intermittent water releases modify the natural flow, sediment and thermal regimes in downstream channels, altering water quality, substrate structure and environmental cues that are vital for species to complete their life cycles, resulting in reduced reproduction success. Moreover, retention effects of reservoirs and flow regulation alter river–floodplain exchanges of water, sediment and nutrients, modifying the habitats on which riverine species depend. Improvements to flow regulation, fishway design and sediment redistribution can mitigate these ecological impacts. Future research should support reforms to dam operations and design adaptations to balance renewable electricity development and biodiversity conservation through systematic basin-scale planning, long-term monitoring, adaptive management and involving multiple actors in decision-making. Hydropower is a renewable energy source that can contribute to growing energy demands. This Review considers the ecological consequences of hydropower plants on riverine systems and emphasizes the urgent need to mitigate ecological impacts to ensure sustainable development.

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水力发电对河流生物多样性的影响
水力发电是一种快速发展的全球重要可再生能源。在全球范围内,超过 60% 长度超过 500 千米的河流已经支离破碎,在生物多样性热点地区的河流上还拟建数千座水坝。在本《综述》中,我们将讨论水电对河流生态系统中水生和半水生物种的影响,以及这些影响如何在流域的空间和时间上累积。水坝作为物理屏障,破坏了物种的纵向联系和上下游运动。蓄水在大坝上游形成静水生境,导致适应水域的物种减少。间歇性放水改变了下游河道的自然水流、沉积物和热量机制,改变了水质、底质结构和对物种完成生命周期至关重要的环境线索,导致繁殖成功率下降。此外,水库和水流调节的滞留效应改变了河流与洪泛平原之间的水、沉积物和养分交换,改变了河流物种赖以生存的栖息地。改进水流调节、鱼道设计和沉积物重新分布可以减轻这些生态影响。未来的研究应支持大坝运营改革和设计调整,通过系统的流域尺度规划、长期监测、适应性管理和多方参与决策,在可再生能源开发和生物多样性保护之间取得平衡。水电是一种可再生能源,可满足日益增长的能源需求。本报告探讨了水电站对河流系统造成的生态后果,并强调迫切需要减轻对生态的影响,以确保可持续发展。
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