A Critical Review of Nature-Based Systems (NbS) to Treat Stormwater in Response to Climate Change and Urbanization

IF 6.4 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Current Pollution Reports Pub Date : 2024-03-16 DOI:10.1007/s40726-024-00297-8
Shamima Moazzem, Muhammed Bhuiyan, Shobha Muthukumaran, Jill Fagan, Veeriah Jegatheesan
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Therefore, it is crucial to assess the impact of urbanization and climate change on both the quality and quantity of stormwater to effectively mitigate their severe consequences. Nature-based solutions (NbS) for stormwater management are environmentally sustainable options to capture and treat pollutants from stormwater, reduce stormwater volume, and mitigate floods. However, significant modifications are needed in the existing nature-based treatment solutions to control floods and remove pollutants in rapid urban landscapes and extreme climate conditions. This review summarizes the current state of knowledge by (1) examining the potential impacts of urbanization and climate change on the stormwater quantity and quality; (2) assessing the performance of nature-based treatment systems to treat stormwater pollutants; (3) comparing the effectiveness among different nature-based treatment systems and identifying the best ones depending on the conditions; and (4) suggesting improvements to the design of wetlands to capture higher proportions of pollutants under different scenarios.</p><h3>Recent Findings</h3><p>A review of the literature indicates that densely built-up catchments produce increased runoff from impervious surfaces. In addition, industrial catchments generate higher total suspended solids (TSS) loads, while residential and commercial catchments generate more nutrients, such as nitrogen and phosphorous. Besides this, climate change is projected to increase annual runoff volume and mean annual concentrations of pollutants. 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The comparison encompasses their scales, performances in flood attenuation, provision of delay time for peak stormwater flow downstream, and the removal of pollutants from stormwater. Furthermore, a critical evaluation of NbS for stormwater management is presented, considering aspects such as urban ecosystem services and the climate-biodiversity-societal nexus. 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Abstract

Purpose of Review

Rapid urban development significantly contributes to the alterations in watershed hydrology by removing vegetation and soil, increasing imperviousness, and reducing natural infiltration capacity. It also generates more pollutants that deteriorate the stormwater quality. In addition, the escalation of the hydrological cycle due to climate change is expected to lead to more frequent intense rainfall. This extreme rainfall generates more stormwater runoff and releases more pollutants from the catchment, which can degrade downstream waterways. Therefore, it is crucial to assess the impact of urbanization and climate change on both the quality and quantity of stormwater to effectively mitigate their severe consequences. Nature-based solutions (NbS) for stormwater management are environmentally sustainable options to capture and treat pollutants from stormwater, reduce stormwater volume, and mitigate floods. However, significant modifications are needed in the existing nature-based treatment solutions to control floods and remove pollutants in rapid urban landscapes and extreme climate conditions. This review summarizes the current state of knowledge by (1) examining the potential impacts of urbanization and climate change on the stormwater quantity and quality; (2) assessing the performance of nature-based treatment systems to treat stormwater pollutants; (3) comparing the effectiveness among different nature-based treatment systems and identifying the best ones depending on the conditions; and (4) suggesting improvements to the design of wetlands to capture higher proportions of pollutants under different scenarios.

Recent Findings

A review of the literature indicates that densely built-up catchments produce increased runoff from impervious surfaces. In addition, industrial catchments generate higher total suspended solids (TSS) loads, while residential and commercial catchments generate more nutrients, such as nitrogen and phosphorous. Besides this, climate change is projected to increase annual runoff volume and mean annual concentrations of pollutants. For example, in Difficult Run watershed, the largest watershed in Fairfax County VA, an increase of 6.5% annual runoff volume and 7.6%, 7.1%, and 8.1% total suspended solids, nitrogen, and phosphorus mean annual concentrations, respectively, are expected for the simulated time period between 2041 and 2068. NbS such as swales, bioretention, detention ponds, and constructed wetlands have been implemented to remove the pollutants from stormwater, and constructed wetlands (CWs) have shown promising results in removing pollutants compared to other nature-based treatment systems. However, the efficiency of CWs can be improved by changing the filter media and vegetation and modifying the design to adapt to these adverse scenarios generated by rapid urbanization and climate change.

Summary

In the past, researchers have typically examined the impacts of rapid urbanization on stormwater quality, the influence of climate changes on stormwater quality, and the individual performances of various nature-based treatment systems (NbS). However, a comprehensive understanding of stormwater management necessitates exploring the dynamic interactions among multiple factors, including urbanization effects, climate change impacts, stormwater sources, and the effectiveness of NbS. This paper addresses this need by conducting a thorough review of all NbS utilized in stormwater management. The comparison encompasses their scales, performances in flood attenuation, provision of delay time for peak stormwater flow downstream, and the removal of pollutants from stormwater. Furthermore, a critical evaluation of NbS for stormwater management is presented, considering aspects such as urban ecosystem services and the climate-biodiversity-societal nexus. The insights provided in this research aim to inform decision-making processes related to the design, installation, operation, and maintenance of nature-based treatment systems in future stormwater management endeavours.

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以自然为基础的系统(NbS)处理雨水以应对气候变化和城市化的批判性评论
审查目的城市的快速发展通过移除植被和土壤、增加不透水面积和降低自然渗透能力,极大地加剧了流域水文的变化。它还会产生更多的污染物,使雨水质量恶化。此外,气候变化导致的水文循环升级预计将导致更频繁的强降雨。这种极端降雨会产生更多的雨水径流,并从集水区释放出更多的污染物,从而使下游水道的水质恶化。因此,必须评估城市化和气候变化对雨水质和量的影响,以有效减轻其严重后果。以自然为基础的雨水管理解决方案(NbS)是一种环境可持续的选择,可以捕捉和处理雨水中的污染物,减少雨水量,缓解洪水。然而,需要对现有的基于自然的处理方案进行重大修改,以便在快速的城市景观和极端气候条件下控制洪水和清除污染物。本综述总结了当前的知识状况,包括:(1)研究城市化和气候变化对雨水数量和质量的潜在影响;(2)评估基于自然的处理系统处理雨水污染物的性能;(3)比较不同基于自然的处理系统的有效性,并根据不同条件确定最佳系统;以及(4)提出改进湿地设计的建议,以便在不同情况下捕获更多污染物。此外,工业集水区会产生更高的总悬浮固体 (TSS) 负荷,而住宅和商业集水区则会产生更多的营养物质,如氮和磷。除此之外,预计气候变化还会增加年径流量和污染物的年平均浓度。例如,在弗吉尼亚州费尔法克斯县最大的流域 Difficult Run 流域,预计在 2041 年至 2068 年的模拟时间段内,年径流量将增加 6.5%,总悬浮固体、氮和磷的年平均浓度将分别增加 7.6%、7.1% 和 8.1%。为了清除雨水中的污染物,人们采用了诸如沼泽地、生物滞留、滞留池和人工湿地等无生物处理系统,与其他自然处理系统相比,人工湿地在清除污染物方面显示出良好的效果。然而,可以通过改变过滤介质和植被以及修改设计来提高建造湿地的效率,以适应快速城市化和气候变化所带来的不利情况。摘要在过去,研究人员通常研究快速城市化对雨水质量的影响、气候变化对雨水质量的影响以及各种基于自然的处理系统(NbS)的各自性能。然而,要全面了解雨水管理,就必须探索多种因素之间的动态相互作用,包括城市化效应、气候变化影响、雨水来源和 NbS 的有效性。本文通过对雨水管理中使用的所有 NbS 进行全面审查,满足了这一需求。比较内容包括它们的规模、洪水衰减性能、为下游雨水流量峰值提供延迟时间以及清除雨水中的污染物。此外,考虑到城市生态系统服务和气候-生物多样性-社会关系等方面,还对用于雨水管理的 NbS 进行了批判性评估。本研究提供的见解旨在为未来雨水管理努力中与基于自然的处理系统的设计、安装、运行和维护相关的决策过程提供信息。
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来源期刊
Current Pollution Reports
Current Pollution Reports Environmental Science-Water Science and Technology
CiteScore
12.10
自引率
1.40%
发文量
31
期刊介绍: Current Pollution Reports provides in-depth review articles contributed by international experts on the most significant developments in the field of environmental pollution.By presenting clear, insightful, balanced reviews that emphasize recently published papers of major importance, the journal elucidates current and emerging approaches to identification, characterization, treatment, management of pollutants and much more.
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