In-depth characterization of sediment contamination in stormwater infiltration basins

IF 2.3 Q3 ENVIRONMENTAL SCIENCES
Damien Tedoldi, Julien Couvidat, Mathieu Gautier, Qiufang Zhan, Thierry Winiarski, G. Lipeme Kouyi, C. Delolme, V. Chatain
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Abstract

Managing stormwater in infiltration-based systems enables the interception of runoff suspended solids. Accumulated particles form a layer of stormwater sediments, the contamination of which presents a critical challenge for maintenance operations but is still insufficiently understood. This study therefore aims to characterize the main contamination patterns of stormwater sediments. Sediments were sampled from 18 infiltration basins encompassing a diversity of catchments. Eighty-five substances, including metals and six families of organic micropollutants, were targeted, almost all of which were consistently quantified. A significant accumulation relative to baseline levels was ascertained in all sites. The geochemical signature of stormwater sediments was relatively close to that of road dust, but different from continental and marine sediments, revealing the contribution of urban-specific sources of contaminants. Common emission and transfer dynamics were inferred from strong correlations between metals; same observations were made for alkylphenols and the group formed by polycyclic aromatic hydrocarbons, polychlorinated biphenyls, dioxins, and furans. The predominant land use was generally insufficient to explain the inter-site variability of sediment contamination, which could still be understood from an in-depth study of each catchment and the identification of site-specific emission sources. These results constitute a milestone toward stormwater sediment reuse as a resource.
雨水渗透池沉积物污染的深度特征描述
在基于渗透的系统中管理雨水可以拦截径流中的悬浮固体。积聚的颗粒会形成一层雨水沉积物,其污染问题对维护工作提出了严峻的挑战,但人们对其了解仍然不足。因此,本研究旨在描述雨水沉积物的主要污染模式。研究人员从 18 个渗透流域采集了沉积物样本,这些流域包括不同的集水区。包括金属和六种有机微污染物在内的 85 种物质成为研究对象,几乎所有物质都得到了一致的量化。与基线水平相比,所有地点都出现了明显的累积。暴雨沉积物的地球化学特征与道路尘埃的地球化学特征比较接近,但与大陆和海洋沉积物不同,揭示了城市特定污染物来源的贡献。根据金属之间的强相关性推断出了共同的排放和转移动力学;对烷基酚以及由多环芳烃、多氯联苯、二恶英和呋喃组成的组也进行了同样的观察。土地的主要用途通常不足以解释沉积物污染在不同地点之间的差异,而对每个集水区进行深入研究并确定特定地点的排放源,则可以了解沉积物污染在不同地点之间的差异。这些结果是将雨水沉积物作为资源再利用的一个里程碑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Blue-Green Systems
Blue-Green Systems Multiple-
CiteScore
8.70
自引率
0.00%
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