基于自然的解决方案在集水区范围内对水文影响的科学证据

WIREs Water Pub Date : 2024-07-05 DOI:10.1002/wat2.1744
Morgane Lalonde, Fabian Drenkhan, Pedro Rau, Jan R. Baiker, Wouter Buytaert
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引用次数: 0

摘要

在集水区引入基于自然的解决方案(NbS)有可能提高旨在改善水安全的水资源管理方法的成本效益、灵活性和可靠性。然而,有关 NbS 对水文影响的科学证据基础仍然薄弱,因此集水区干预措施可能不会带来预期的水文结果。在实施基于 NbS 的集水区干预措施之前对其进行评估时,这一点尤为重要,因为这需要能够有效管理与未来预测相关的不确定性的强大模拟工具。本研究旨在审查不同 NbS 干预类型对水资源管理的水文影响。首先,我们介绍了 NbS 类型和相应的主要水文影响。然后,我们利用这种类型学回顾了目前关于 NbS 干预措施对流域尺度水文响应影响的证据的强度。我们的研究结果表明,每种 NbS 类型的有效性都取决于具体条件,如位置、设计和环境因素。例如,微型水库可显著提高地表蓄水量和蒸发量,而渗透沟可减少径流,但会加剧水土流失。我们的全球分析突出表明,需要更好地了解氮氧化物蓄水系统对集水区的影响,并对氮氧化物蓄水系统干预措施进行精心规划,这是长期成功实施氮氧化物蓄水系统的关键。这包括利益相关者参与NbS共同设计的参与式方法、知识的共同生产以及新颖的数据收集,以支持与当地相关的适应战略,并提高长期的水安全:水科学;水文过程;水工程;水规划;水与生命;保护、管理和认识
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Scientific evidence of the hydrological impacts of nature‐based solutions at the catchment scale
The introduction of nature‐based solutions (NbS) in catchments has the potential to increase the cost‐effectiveness, flexibility, and reliability of water management practices aimed at improving water security. However, the scientific‐evidence base of the hydrological impacts of NbS is still weak, and there is therefore a risk that catchment interventions might not lead to the desired hydrological outcomes. This is especially important when assessing NbS‐based catchment interventions before their implementation, as this requires robust simulation tools capable of effectively managing the uncertainties associated with future forecasts. This study aims to review the hydrological impacts of different NbS intervention types for water management. First, we present an NbS typology and the corresponding dominant hydrological impacts. We then use this typology to review the strength of the current evidence of the effect of NbS interventions on the hydrological response at the catchment‐scale. Our results demonstrate that the effectiveness of each NbS type hinges on specific conditions such as location, design, and environmental factors. For instance, micro‐reservoirs notably enhance surface storage and evaporation, while infiltration trenches reduce runoff but can increase soil erosion. Our global analysis highlights the need for an improved understanding of NbS catchment impacts and careful planning of NbS interventions as a key for successful long‐term implementation of NbS. These include participatory approaches with stakeholder involvement in NbS co‐design, knowledge co‐production, and novel data collection to support locally relevant adaptation strategies, and to increase water security on the long term.This article is categorized under: Science of Water > Hydrological Processes Engineering Water > Planning Water Water and Life > Conservation, Management, and Awareness
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