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Publication Additional Information Download
Publication Type
Journal Article
Authorship
Kokulan, V., Macrae, M.L., Lobb, D.A. and Ali, G.A
Title
Temporal variability in water and nutrient movement through vertisols into agricultural tile drains in the Northern Great Plains
Year
2021
Publication Outlet
Journal of Soil and Water Conservation
DOI
https://doi.org/10.2489/jswc.2021.00099
Citation
Kokulan, V., Macrae, M.L., Lobb, D.A. and Ali, G.A. (2021). Temporal variability in water and nutrient movement through vertisols into agricultural tile drains in the Northern Great Plains in Journal of Soil and Water Conservation
Abstract
Agricultural tile drainage is expanding in the northern Great Plains of North America. Given ongoing environmental and political concerns related to the eutrophication of Lake Winnipeg in Canada and the potential for tile drains to transport significant quantities of nutrients from agricultural fields, an improved understanding of nutrient dynamics in tile drains in this region is needed. This study characterized seasonal patterns in tile flow and chemistry under variable hydroclimatic conditions and related this variance to temporal variability in soil hydraulic properties in a farm in southern Manitoba, Canada, from 2015 to 2017. Tile flow, soil hydraulic properties, and groundwater table position all varied seasonally, as did the chemistry of tile drain effluent. The majority of annual tile discharge, which occurred in late spring, appears to have been contributed by shallow groundwater, primarily through soil matrix pathways. At these greater tile flow rates, concentrations of soluble reactive phosphorus (SRP) and total phosphorus (TP) were low (<0.03 mg L–1 SRP, <0.04 mg L–1 TP), but concentrations of nitrate (NO3–N) were high (20 to 25 mg L–1 NO3–N). In contrast, tile flows outside of this peak period appeared to be primarily attributed to preferential flow pathways through frozen (snowmelt) and dry soil cracks (summer). Phosphorus (P) concentrations were greater during snowmelt and summer (~0.05 mg L–1 SRP, ~0.1 mg L–1 TP) but did not produce significant nutrient loads due to the minimal tile discharge rates (<1 mm d–1). This work suggests that the expansion of tile drainage may not exacerbate water quality issues involving P in the northern Great Plains but may increase nitrogen (N) loads in local water bodies.
Program Affiliations
GWF: Global Water Futures
Project Affiliations
GWF-AWF: Agricultural Water Futures
Publication Stage
Published
Additional Information
AWF
Download Links
Download link https://www.jswconline.org/content/early/2021/05/21/jswc.2021.00099 DOI link https://doi.org/10.2489/jswc.2021.00099
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