Soil erosion is one of the most important of today's global environmental problems. Over the past few decades, soil conservation practices were implemented to reduce soil erosion in the United States. However, excessive sediment still remains among the most prevalent water quality problems. Agricultural fields and in particular ephemeral gullies (EGs) are considered to be a major contributor of sediment. The overall goal of this study was to improve modeling utility to identify and quantify sources of sediment. Specific objectives were: (1) to develop and demonstrate a method of field-scale targeting using Soil and Water Assessment Tool (SWAT) and to use this method as a targeted, flexible approach to pay explicitly for sediment-yield reductions; (2) to evaluate topographic index models (Slope Area [SA], Compound Topographic Index [CTI], Slope Area Power [SAP] and Wetness Topographic Index [WTI]) and a physical-based model (Overland Flow Turbulent [OFT]) in predicting spatial EG location and lengths.;Black Kettle Creek watershed was the focus of an innovative project to pay for modeled field sediment reductions. An Arc-Geographical Information System (GIS) tool bar was developed that post processed SWAT hydrologic response unit output to field boundaries and prepared maps of high-priority fields by sediment, total nitrogen, and total phosphorus and was demonstrated to be useful for field-scale targeting. Calibrated SWAT model was used to establish baseline sediment yields. Various Best Management Practices (BMPs) were simulated and payments to implement each BMP for a given field were calculated. This study helped to guide determination of appropriate farmer support payments and quantified the important influence of BMP type and site-specific conditions for use in targeting conservation practice funding to achieve maximum soil-loss reductions per dollar spent. Extreme care should be used in selecting the source of spatial model input data when using SWAT for field-level targeting.;Automated geospatial models were developed in a GIS environment to spatially locate and derive length of EGs using topographic index and physical based models. EG predictions were better for the SA model among the four topographic index models tested. Individual calibration of topographic index model threshold for each application site was needed. An OFT model (physical based model), which utilized topography, precipitation, soil, landuse/landcover and SWAT-based runoff estimates, did not need individual site calibration, and may have broader applicability than empirical based models.
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机译:土壤侵蚀是当今全球环境问题中最重要的问题之一。在过去的几十年中,美国采取了土壤保持措施以减少土壤侵蚀。但是,沉积物过多仍然是最普遍的水质问题之一。农业领域,特别是临时性的沟渠(EGs)被认为是沉积物的主要贡献者。这项研究的总体目标是提高建模实用性,以识别和量化沉积物来源。具体目标是:(1)开发和演示使用土壤和水评估工具(SWAT)进行田间规模定标的方法,并将该方法作为一种有针对性的灵活方法来明确为减少沉积物的产量付出代价; (2)评估地形指数模型(坡度[SA],复合地形指数[CTI],坡度功率[SAP]和湿度地形指数[WTI])和基于物理的模型(陆上湍流[OFT])在预测空间EG的位置和长度方面。Black Kettle Creek流域是一项创新项目的重点,该项目要为模拟的田间沉积物减少支付费用。开发了Arc-Geographical Information System(GIS)工具栏,该工具栏将后处理的SWAT水文响应单元输出到田野边界,并通过沉积物,总氮和总磷准备了高优先级田野地图,并被证明可用于田野-规模定位。校准的SWAT模型用于建立基线沉积物产量。模拟了各种最佳管理实践(BMP),并计算了在给定领域实施每个BMP的费用。这项研究有助于指导确定适当的农民抚养费,并量化了BMP类型和特定地点条件的重要影响,以用于保护实践资金,以最大程度地减少每美元花费的土壤损失。在使用SWAT进行场级目标定位时,应格外小心地选择空间模型输入数据的来源。在GIS环境中开发了自动地理空间模型,以使用地形索引和基于物理的模型在空间上定位和推导EG的长度。在所测试的四个地形指数模型中,SA模型的EG预测更好。需要对每个应用程序站点的地形指数模型阈值进行单独校准。 OFT模型(基于物理的模型)利用了地形,降水,土壤,土地利用/土地覆盖和基于SWAT的径流估算,不需要进行单独的站点校准,并且比基于经验的模型具有更广泛的适用性。
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