International audienceSuccessful implementation of best management practices for reducing non-point source (NPS) pollution requires knowledge of the location of saturated areas that produce runoff. A physically-based, fully-distributed, GIS-integrated model, the Soil Moisture Distribution and Routing (SMDR) model was developed to simulate the hydrologic behavior of small rural upland watersheds with shallow soils and steep to moderate slopes. The model assumes that gravity is the only driving force of water and that most overland flow occurs as saturation excess. The model uses available soil and climatic data, and requires little calibration. The SMDR model was used to simulate runoff production on a 164-ha farm watershed in Delaware Coun...
Rainfall-runoff models that adequately represent the real hydrological processes and that do not hav...
Concentrations of phosphorus (P) in runoff from intensively managed pastures such as those used for ...
Understanding the hydrology of runoff source areas is crucial for predicting floods and evaluating c...
International audienceSuccessful implementation of best management practices for reducing non-point ...
International audienceReducing non-point source phosphorus (P) loss to drinking water reservoirs is ...
AbstractStudy RegionTen watersheds in New York, New Jersey, and Pennsylvania, USA.Study FocusA three...
Eective control of nonpoint source pollution from contaminants transported by runo requires informa...
Critical Source Areas (CSAs) of phosphorus (P) are areas within a watershed that have a high propens...
Rainfall runoff and leaching are the main driving forces that lead the agricultural pollutants into ...
Large scale landuse changes have been making the news throughout the world. However, the assessment ...
Agriculture is a significant contributor to the diffuse loading of phophorus (P) in fresh water syst...
Hydrologic rainfall-runoff models employ numerical equations to simulate the soil absorption of rain...
Very few hydrological models commonly used in watershed management are appropriate for simulating th...
An important cause of freshwater contamination in the United States, soluble reactive phosphorus (SR...
IMPROVING UPON A GIS-BASED SPATIALLY DISTRIBUTED RAINFALL-RUNOFF MODEL James Emerick, M.S.University...
Rainfall-runoff models that adequately represent the real hydrological processes and that do not hav...
Concentrations of phosphorus (P) in runoff from intensively managed pastures such as those used for ...
Understanding the hydrology of runoff source areas is crucial for predicting floods and evaluating c...
International audienceSuccessful implementation of best management practices for reducing non-point ...
International audienceReducing non-point source phosphorus (P) loss to drinking water reservoirs is ...
AbstractStudy RegionTen watersheds in New York, New Jersey, and Pennsylvania, USA.Study FocusA three...
Eective control of nonpoint source pollution from contaminants transported by runo requires informa...
Critical Source Areas (CSAs) of phosphorus (P) are areas within a watershed that have a high propens...
Rainfall runoff and leaching are the main driving forces that lead the agricultural pollutants into ...
Large scale landuse changes have been making the news throughout the world. However, the assessment ...
Agriculture is a significant contributor to the diffuse loading of phophorus (P) in fresh water syst...
Hydrologic rainfall-runoff models employ numerical equations to simulate the soil absorption of rain...
Very few hydrological models commonly used in watershed management are appropriate for simulating th...
An important cause of freshwater contamination in the United States, soluble reactive phosphorus (SR...
IMPROVING UPON A GIS-BASED SPATIALLY DISTRIBUTED RAINFALL-RUNOFF MODEL James Emerick, M.S.University...
Rainfall-runoff models that adequately represent the real hydrological processes and that do not hav...
Concentrations of phosphorus (P) in runoff from intensively managed pastures such as those used for ...
Understanding the hydrology of runoff source areas is crucial for predicting floods and evaluating c...