Impact of de-icing salt runoff in spring on bioretention efficiency

IF 2.3 Q3 ENVIRONMENTAL SCIENCES Blue-Green Systems Pub Date : 2023-11-06 DOI:10.2166/bgs.2023.036
Henry Beral, Danielle Dagenais, Jacques Brisson, Margit Kõiv-Vainik
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Abstract

Abstract We investigated the effect of de-icing salt in stormwater runoff on bioretention system hydrology and filtration of contaminants. Salt runoffs during the snow melt period were simulated in 20 mesocosms planted with 1 of 3 plant species (Cornus sericea, Juncus effusus and Iris versicolor) or left unplanted, and then watered with semi-synthetic stormwater runoffs supplemented with 4 NaCl concentrations (0, 250, 1,000 or 4,000 mg Cl/L). All bioretention mesocosms, irrespective of treatment, were efficient in reducing water volume, flow and pollution level. There was no phytotoxic effect of NaCl on plants, even at the highest NaCl concentration tested. Water volume reduction and flow rate were influenced by plant species, but salt concentration had no effect. Salt runoffs significantly increased the removal of some metals, such as Cr, Ni, Pb and Zn, but had no effect on nutrient removal. Because snowmelt laden with de-icing salt is of short duration and occurs during plant dormancy, plants in bioretention may be less affected by de-icing salt than previously thought, provided that salinity decreases rapidly to normal level in the soil water. The long-term effects of de-icing salt and general performance of bioretention should be further studied under full-scale conditions.
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春季除冰盐径流对生物滞留效率的影响
摘要研究了雨水径流中除冰盐对生物滞留系统水文和污染物过滤的影响。在20个生态系统中分别种植3种植物(Cornus sericea, Juncus effusus和Iris versicolor)中的1种或不种植,然后用添加4种NaCl浓度(0,250,1,000和4,000 mg Cl/L)的半合成雨水径流进行灌溉,模拟融雪期的盐径流。所有的生物滞留生态系统,无论处理方式如何,都能有效地减少水量、流量和污染水平。即使在最高NaCl浓度下,NaCl对植物也没有毒性作用。水量减少和流速受植物种类的影响,但盐浓度没有影响。盐径流显著提高了对铬、镍、铅和锌等金属的去除率,但对营养物的去除率没有影响。由于含有除冰盐的融雪持续时间短,发生在植物休眠期间,如果土壤水中的盐度迅速下降到正常水平,处于生物滞留状态的植物受除冰盐的影响可能比以前认为的要小。除冰盐的长期作用和生物滞留的一般性能有待进一步的研究。
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Blue-Green Systems
Blue-Green Systems Multiple-
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8.70
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