长期运行的生物截留系统下的渗金属浓度

IF 2.3 Q3 ENVIRONMENTAL SCIENCES
Arne Reck, Mogens Thalmann, E. Paton, B. Kluge
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引用次数: 1

摘要

生物滞留系统通过延缓、储存和蒸发雨水径流,维持自然水循环,并有助于减轻极端气候对城市地区的影响。尽管生物滞留系统已经运行了25年以上,但对旧系统的水文功能和污染物滞留性能的系统研究很少。我们采用实验室和现场实验研究了德国三个长期运行的生物滞留系统,目的如下:(i)物理化学底物表征;(ii)覆盖22个月的基于事件的流入和流出痕量金属浓度监测,以及(iii)金属保留率的计算。关于污染状况,我们发现土壤基质中的微量金属含量显著增加,这主要是排水区类型和流入方式的函数。尽管如此,所有测得的金属渗漏浓度都低于德国立法规定的触发值。我们目前的研究结果表明,即使是旧的生物滞留系统也没有地下水退化的风险,这表明生物滞留是一种强大而可持续的雨水管理工具。进一步的研究需要处理雨水渗透改性的土壤基质,显示出微量金属含量增加和一定量的技术成因沉积物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Seepage metal concentrations beneath long-term operated bioretention systems
Bioretention systems maintain the natural water cycle and help to mitigate climatic extremes impact on urban areas by retarding, storing, and evaporating stormwater runoff. Although bioretention systems have been operated for more than 25 years, systematic investigations on the hydrological functionality and pollutant retention performance of older systems are rare. We employed laboratory and field experiments to investigate three long-term operated bioretention systems in Germany with the following objectives: (i) physico-chemical substrate characterisation; (ii) an event-based influent and effluent trace metal concentration monitoring covering 22 months and (iii) the calculation of metal retention rates. Regarding the pollution status, we found significantly increased trace metal contents in the soil substrate mainly as a function of the drainage area type and the inflow regime. Nonetheless, all measured metal seepage concentrations fall below the German legislative trigger values. Our current findings demonstrate no risk of groundwater degradation even for old bioretention systems suggesting bioretention as a powerful and sustainable tool for stormwater management. Further research requires the handling of soil substrates modified by stormwater infiltration showing enhanced trace metal contents and a certain amount of technogenic sediments.
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来源期刊
Blue-Green Systems
Blue-Green Systems Multiple-
CiteScore
8.70
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