Assessing the Impact of BMPs on Water Quality and Quantity in a Flat Agricultural Watershed in Southern Ontario

Non-point source pollution poses a continuous threat to the quality of Great Lakes waters. To abate this problem, the Great Lakes Agricultural Stewardship Initiative (GLASI) was initiated in Ontario, Canada, with the primary aim of reducing phosphorus pollution. Therefore, a case-study analysis of t...

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Bibliographic Details
Published in:Resources (Basel) 2023-12, Vol.12 (12), p.142
Main Authors: Miele, Peter, Shukla, Rituraj, Prasher, Shiv, Rudra, Ramesh Pal, Daggupati, Prasad, Goel, Pradeep Kumar, Stammler, Katie, Gupta, Anand Krishna
Format: Article
Language:English
Subjects:
Agricultural land
Agricultural practices
Agricultural research
Agricultural watersheds
Agriculture
Best management practices
BMPs
Canada
Cereal crops
Cover crops
Datasets
Digital Elevation Models
Environmental aspects
Hydrologic models
Hydrology
Lakes
Land use planning
Management
Methods
No-till cropping
Nonpoint source pollution
Pasture
Phosphorus
phosphorus pollution
Point source pollution
Pollution control
Pollution sources
Sediments
Social aspects
Soil erosion
Soil water
Stream flow
Streams
SWAT
Topography
Triticum aestivum
Water
Water quality
Water-supply
watershed modeling
Watersheds
Wheat
Winter wheat
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Summary:Non-point source pollution poses a continuous threat to the quality of Great Lakes waters. To abate this problem, the Great Lakes Agricultural Stewardship Initiative (GLASI) was initiated in Ontario, Canada, with the primary aim of reducing phosphorus pollution. Therefore, a case-study analysis of the Wigle Creek watershed, one of the six priority watersheds under the GLASI program, was undertaken to evaluate the effectiveness of various existing and potential future Best Management Practices (BMPs) and to identify BMPs that might aid in mitigating the watershed’s contribution to phosphorus loads reaching Lake Erie. Given the watershed’s very flat topography, hydrological/nutrient modeling proved an extremely challenging exercise. The Soil and Water Assessment Tool (SWAT) model was used in this evaluation. Several digital elevation model (DEM) options were considered to accurately describe the watershed and represent flow conditions. A 30 m resolution DEM, implementing a modified burning in of streams based on ground truthing, was finally employed to develop the SWAT model’s drainage framework. The model was first calibrated for flow, sediment, and phosphorus loads. The calibrated model was used to evaluate the ability of potential BMPs (minimum tillage, no-till, retiring croplands into pasture, retiring croplands into forest, winter wheat cover crop, and vegetative filter strips) to reduce phosphorus loads compared to implemented practice. Converting all croplands into pasture or forest significantly decreased P loads reaching Lake Erie. Comparatively, a winter wheat cover crop had minimal effect on reducing phosphorus loading.
ISSN:2079-9276
2079-9276
DOI:10.3390/resources12120142