城市水文学的概念和演变

Tim D. Fletcher, Matthew J. Burns, Kathryn L. Russell, Perrine Hamel, Sophie Duchesne, Frédéric Cherqui, Allison H. Roy
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引用次数: 0

摘要

城市化和气候变化正在加剧城市集水区的洪水风险和生态系统退化,传统的雨水管理系统往往不堪重负。在本综述中,我们将讨论城市水文和雨水管理方法的变化。在不透水的地面和排水基础设施上,约 90% 的降雨变成了径流,加剧了降雨从城市向外输出,导致当地缺水、下游洪水和污染。预计城市人口的增加(到 2050 年城市人口将增加 68%)和降雨强度的增加(在升温 1.5 °C 的情况下,10 年和 50 年重现期降雨强度将增加约 12%)将加剧这些问题。因此,迫切需要改造雨水系统,以减轻洪水风险,同时满足社区对环境保护和加强水安全的愿望。机遇包括雨水花园和其他基于自然的雨水控制措施(可恢复自然流量并提供其他生态系统服务)、智能传感器监测网络和实时管理(可维持自然流量机制、减轻洪水风险并保护生态系统服务)以及雨水收集(可避免当地水资源短缺)。社区对雨水收集的接受程度高达 96%,雨水是一种可观的资源,在世界某些地区,雨水收集量往往超过需求量。要在全球范围内实现更多转变,需要研究激励参与和投资的战略,以及指导分散网络管理的政策。城市化和气候引起的降雨变化正在增加洪水风险,对城市水文管理提出了更高的要求。本综述总结了雨水管理的观念和方法是如何演变的,并强调了将雨水从灾害转变为资源的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Concepts and evolution of urban hydrology

Concepts and evolution of urban hydrology
Urbanization and climate change are exacerbating the flood risk and ecosystem degradation in urban catchments, with traditional stormwater management systems often overwhelmed. In this Review, we discuss changes in urban hydrology and approaches to stormwater management. Roughly 90% of rainfall on impervious surfaces and drainage infrastructure becomes run-off, enhancing rainfall export away from cities and leading to local water scarcity and downstream flooding and pollution. Projected increases in urban populations (68% in cities by 2050) and rainfall intensity (~12% in the 10-year and 50-year recurrence interval intensity, under 1.5 °C warming) will exacerbate these issues. Transforming stormwater systems is thus urgently needed, to mitigate flood risk and also to address community desires for environmental protection and enhanced water security. Opportunities include rain gardens and other nature-based stormwater control measures (which restore natural flows and offer other ecosystem services), smart sensor monitoring networks and real-time management (which sustain natural flow regimes, mitigate flood risk and protect ecosystem services) and stormwater harvesting (to avoid local water scarcity). Community acceptance of stormwater harvesting is as high as 96% and stormwater is a substantial resource, with volumes often exceeding demand in some parts of the world. Delivering additional transformations globally requires research into strategies to incentivize engagement and investment, and policies to guide governance of decentralized networks. Urbanization and climate-induced rainfall changes are enhancing flood risk, putting increased demand on urban hydrology management. This Review summarizes how perceptions and approaches in stormwater management are evolving, and emphasizes the need to transform stormwater from a hazard to a resource.
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