An erosion and sediment transport component incorporated in the HYdrology Simulation using Time-ARea method (HYSTAR) upland watershed model provides grid-based prediction of erosion, transport and deposition of sediment in a dynamic, continuous, and fully distributed framework. The model represents the spatiotemporally varied flow in sediment transport simulation by coupling the time-area routing method and sediment transport capacity approach within a grid-based spatial data model. This avoids the common, and simplistic, approach of using the Universal Soil Loss Equation (USLE) to estimate erosion rates with a delivery ratio to relate gross soil erosion to sediment yield of a watershed, while enabling us to simulate two-dimensional sediment transport processes without the complexity of numerical solution of the partial differential governing equations. In using the time-area method for routing sediment, the model offers a novel alternative to watershed-scale sediment transport simulation that provides detailed spatial representation. In predicting four-year sediment hydrographs of a watershed in Virginia, the model provided good performance with R-2 of 0.82 and 0.78 and relative error of -35% and 11% using the Yalin and Yang's sediment transport capacity equations, respectively. Prediction of spatiotemporal variation in sediment transport processes was evaluated using maps of sediment transport rates, concentrations, and erosion and deposition mass, which compare well with expected behavior of flow hydraulics and sediment transport processes.

• 出版日期2016
• 单位美国弗吉尼亚理工大学(Virginia Tech)