On the Role of Spatial,Temporal, and Climatic Forces on Stream Sediment Loading from Rural and Urban Ecosystems |
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Authors: | Audrey L. Squires Jan Boll Erin S. Brooks |
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Affiliation: | 1. Water Resources, University of Idaho, Moscow, Idaho;2. Middle Fork Willamette Watershed Council, Lowell, Oregon;3. Department of Civil and Environmental Engineering, Washington State University, Pullman, Washington;4. Department of Biological and Agricultural Engineering, University of Idaho, Moscow, Idaho |
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Abstract: | In this study, we characterize the greatest sediment loading events by their sediment delivery behavior; dominant climate, watershed, and antecedent conditions; and their seasonal distribution for rural and urban land uses. The study area is Paradise Creek Watershed, a mixed land use watershed in northern Idaho dominated by saturation excess processes in the upstream rural area and infiltration excess in the downstream urban area. We analyzed 12 years of continuous streamflow, precipitation, and watershed data at two monitoring stations. We identified 137 sediment loading events in the upstream rural section of the watershed and 191 events in the downstream urban section. During the majority of these events conditions were transport limited and the sediment flush occurred early in the event, generally in the first 20% of elapsed event time. Statistical analysis including two dozen explanatory variables showed peak discharge, event duration, and antecedent baseflow explained most of the variation in event sediment load at both stations and for the watershed as a whole (R2 = 0.73‐0.78). In the rural area, saturated soils combined with spring snowmelt in March led to the greatest loading events. The urban area load contribution peaked in January, which could be a re‐suspension of streambed sediments from the previous water year. Throughout the study period, one event contributed, on average, 33% of the annual sediment load but only accounted for 2% of the time in a year. |
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Keywords: | sediment loading events sediment delivery behavior runoff watershed conditions nonpoint source pollution total maximum daily loading surface water hydrology |
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