Highway deicing salt dynamic runoff to surface water and subsequent infiltration to groundwater during severe UK winters
Rivett, Michael O. and Cuthbert, Mark O. and Gamble, Richard and Connon, Lucy E. and Pearson, Andrew and Shepley, Martin G. and Davis, John (2016) Highway deicing salt dynamic runoff to surface water and subsequent infiltration to groundwater during severe UK winters. Science of the Total Environment, 565. pp. 324-338. ISSN 1879-1026 (https://doi.org/10.1016/j.scitotenv.2016.04.095)
Preview |
Text.
Filename: Rivett_etal_STE_2016_Highway_deicing_salt_dynamic_runoff_to_surface_water.pdf
Accepted Author Manuscript License: Download (2MB)| Preview |
Abstract
Dynamic impact to the water environment of deicing salt application at a major highway (motorway) interchange in the UK is quantitatively evaluated for two recent severe UK winters. The contaminant transport pathway studied allowed controls on dynamic highway runoff and storm-sewer discharge to a receiving stream and its subsequent leakage to an underlying sandstone aquifer, including possible contribution to long-term chloride increases in supply wells, to be evaluated. Logged stream electrical-conductivity (EC) to estimate chloride concentrations, stream flow, climate and motorway salt application data were used to assess salt fate. Stream loading was responsive to salt applications and climate variability influencing salt release. Chloride (via EC) was predicted to exceed the stream Environmental Quality Standard (250 mg/l) for 33% and 18% of the two winters. Maximum stream concentrations (3500 mg/l, 15% sea water salinity) were ascribed to salt-induced melting and drainage of highway snowfall without dilution from, still frozen, catchment water. Salt persistance on the highway under dry-cold conditions was inferred from stream observations of delayed salt removal. Streambed and stream-loss data demonstrated chloride infiltration could occur to the underlying aquifer with mild and severe winter stream leakage estimated to account for 21 to 54% respectively of the 70 t of increased chloride (over baseline) annually abstracted by supply wells. Deicing salt infiltration lateral to the highway alongside other urban/natural sources were inferred to contribute the shortfall. Challenges in quantifying chloride mass/fluxes (flow gauge accuracy at high flows, salt loading from other roads, weaker chloride-EC correlation at low concentrations), may be largely overcome by modest investment in enhanced data acquisition or minor approach modification. The increased understanding of deicing salt dynamic loading to the water environment obtained is relevant to improved groundwater resource management, highway salt application practice, surface-water - ecosystem management, and decision making on highway drainage to ground.
ORCID iDs
Rivett, Michael O. ORCID: https://orcid.org/0000-0003-4626-7985, Cuthbert, Mark O., Gamble, Richard, Connon, Lucy E., Pearson, Andrew, Shepley, Martin G. and Davis, John;-
-
Item type: Article ID code: 62348 Dates: DateEvent15 September 2016Published10 May 2016Published Online13 April 2016AcceptedSubjects: Geography. Anthropology. Recreation > Physical geography > Hydrology. Water
Technology > Engineering (General). Civil engineering (General) > Environmental engineeringDepartment: Faculty of Engineering > Civil and Environmental Engineering Depositing user: Pure Administrator Date deposited: 15 Nov 2017 09:26 Last modified: 28 Dec 2024 01:21 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/62348