Stormwater Management and Late-Winter Chloride Runoff into an Urban Lake in Minnesota, USA

Stormwater Management and Late-Winter Chloride Runoff into an Urban Lake in Minnesota, USA

Stormwater runoff containing road deicing salts has led to the increasing salinization of surface waters in northern climates, and urban municipalities are increasingly being mandated to manage stormwater runoff to improve water quality. We assessed chloride concentrations in runoff from late-winter...

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Bibliographic Details
Main Authors: Neal D. Mundahl, John Howard
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Hydrology
Subjects:
salinization
road deicing salts
urban stormwater management
lake chloride monitoring
Online Access:https://www.mdpi.com/2306-5338/12/4/76
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Summary:Stormwater runoff containing road deicing salts has led to the increasing salinization of surface waters in northern climates, and urban municipalities are increasingly being mandated to manage stormwater runoff to improve water quality. We assessed chloride concentrations in runoff from late-winter snowmelt and rainfall events flowing into an urban Minnesota, USA, lake during two different years, predicting that specific stormwater drainages with greater concentrations of roadways and parking lots would produce higher chloride loads during runoff than other drainages with fewer impervious surfaces. Chloride levels were measured in runoff draining into Lake Winona via 11 stormwater outfalls, a single channelized creek inlet, and two in-lake locations during each snowmelt or rainfall event from mid-February through early April in 2021 and 2023. In total, 33% of outfall runoff samples entering the lake collected over two years had chloride concentrations exceeding the 230 ppm chronic standard for aquatic life in USA surface waters, but no sample exceeded the 860 ppm acute standard. Chloride concentrations in outfall runoff (mean ± SD; 190 ± 191 ppm, <i>n</i> = 143) were significantly higher than in-lake concentrations (43 ± 14 ppm, <i>n</i> = 25), but chloride levels did not differ significantly between snowmelt and rainfall runoff events. Runoff from highway locations had higher chloride concentrations than runoff from residential areas. Site-specific chloride levels were highly variable both within and between years, with only a single monitored outfall displaying high chloride levels in both years. There are several possible avenues available within the city to reduce deicer use, capture and treat salt-laden runoff, and prevent or reduce the delivery of chlorides to the lake.
ISSN:2306-5338

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