Identifying threshold storm events and quantifying potential impacts of climate change on sediment yield in a small upland agricultural watershed of Ontario
ATHABASCA RIVER-BASIN
; SOIL-EROSION
; QUALITY
; FLOW
; PHOSPHORUS
; INDEXES
; CREEK
; MODEL
WOS学科分类:
Water Resources
WOS研究方向:
Water Resources
英文摘要:
Agricultural zones are significant sediment sources, but it is crucial to identify critical source areas (CSAs) of sediment yield within these zones where best management practices (BMPs) can be applied to the best effect in reducing sediment delivery to receiving water bodies rather than the economically nonviable alternative of randomly or sweepingly implementing BMPs. A storm event of a specific magnitude and hyetograph profile may, at different times, generate a greater or lesser sediment yield. The widely used agricultural nonpoint source (AGNPS) model was used to identify CSAs for sediment losses in Southwestern Ontario's agriculture-dominated 374-ha Holtby watershed. A storm threshold approach was adopted to identify critical periods for higher sediment losses. An AGNPS model for the Holtby watershed was set up, calibrated, and validated for run-off volume, peak flow rate, and sediment yield for several storms. The calibrated and validated model was run for storms of increasing return periods to identify threshold storm events that would generate sediment yield greater than an acceptable value for early and late spring, summer, and fall seasons. Finally, to evaluate the potential impacts of climate change, we shifted shorter duration summer storms into spring conditions and quantified the changes in sediment yield dynamics. A 6-hr, 7.5-year early spring storm would generate sediment losses exceeding the acceptable limit of 0.34 t ha(-1) for the season. However, summer storms (2 hr, up to 100 years) tended to generate sediment yields below those of an identifiable threshold storm. If such shorter duration summer storms occurred in spring, the sediment yield would increase by more than fivefold. A 5-year future storm would generate an equivalent effect of a 100-year current spring event. The high sediment delivery to be expected will have significant implications regarding the future management of water quality of receiving waters. Appropriate placement of BMPs at CSAs will thus be needed to reduce such high sediment delivery to receiving waters.
1.Univ Guelph, Sch Engn, Guelph, ON N1G 2W1, Canada 2.Minist Environm Conservat & Pk, Groundwater & Stream Water Monitoring Unit, Toronto, ON, Canada
Recommended Citation:
Shrestha, Narayan Kumar,Allataifeh, Nabil,Rudra, Ramesh,et al. Identifying threshold storm events and quantifying potential impacts of climate change on sediment yield in a small upland agricultural watershed of Ontario[J]. HYDROLOGICAL PROCESSES,2019-01-01,33(6):920-931