Add to ORKGDeveloping models to predict on-site soil erosion and off-site sediment transport at the agricultural watershed scale represent an on-going challenge in research today. This study attempts to simulate the daily discharge and sediment loss using a distributed model that combines surface and sub-surface runoffs in a small hilly watershed (<1km(2)). The semi-quantitative model, Predict and Localize Erosion and Runoff (PLER), integrates the Manning-Strickler equation to simulate runoff and the Griffith University Erosion System Template equation to simulate soil detachment, sediment storage and soil loss based on a map resolution of 30m x 30m and over a daily time interval. By using a basic input data set and only two calibration coefficient...
Soil erosion and soil conservation are two of the biggest challenges for farmers, economic developme...
This research developed a method for parameterizing a physically-based distributed rainfall-runoff m...
This paper presents an approach to model runoff and erosion risk in a context of data scarcity, wher...
Developing models to predict on-site soil erosion and off-site sediment transport at the agricultura...
Developing models to predict on-site soil erosion and off-site sediment transport at the agricultura...
Paper presented at the 2nd International Conference on "Sustainable Sloping Lands and Watershed Mana...
Erosion is one of the most serious agricultural problems in the world.It is a primary source of sedi...
<p>Soil erosion by water is a major driven force causing land degradation. Laboratory experiments, o...
In attempts to better manage soil and water resources, soil erosion models have received increasing ...
The revised Morgan, Morgan and Finney (rMMF) water erosion model calculates annual surface runoff an...
WOS: 000339733200001Climate change can escalate rainfall intensity and cause further increase in sed...
Soil and water conservation practices are increasingly being considered for curbing non-point source...
In this paper, we present the Daily based Morgan–Morgan–Finney model. The main processes in this mod...
The prediction and estimate of soil erosion is fundamental important for understanding the effect of...
Soil water erosion is a major global environmental problem. In order to develop a comprehensive soil...
Soil erosion and soil conservation are two of the biggest challenges for farmers, economic developme...
This research developed a method for parameterizing a physically-based distributed rainfall-runoff m...
This paper presents an approach to model runoff and erosion risk in a context of data scarcity, wher...
Developing models to predict on-site soil erosion and off-site sediment transport at the agricultura...
Developing models to predict on-site soil erosion and off-site sediment transport at the agricultura...
Paper presented at the 2nd International Conference on "Sustainable Sloping Lands and Watershed Mana...
Erosion is one of the most serious agricultural problems in the world.It is a primary source of sedi...
<p>Soil erosion by water is a major driven force causing land degradation. Laboratory experiments, o...
In attempts to better manage soil and water resources, soil erosion models have received increasing ...
The revised Morgan, Morgan and Finney (rMMF) water erosion model calculates annual surface runoff an...
WOS: 000339733200001Climate change can escalate rainfall intensity and cause further increase in sed...
Soil and water conservation practices are increasingly being considered for curbing non-point source...
In this paper, we present the Daily based Morgan–Morgan–Finney model. The main processes in this mod...
The prediction and estimate of soil erosion is fundamental important for understanding the effect of...
Soil water erosion is a major global environmental problem. In order to develop a comprehensive soil...
Soil erosion and soil conservation are two of the biggest challenges for farmers, economic developme...
This research developed a method for parameterizing a physically-based distributed rainfall-runoff m...
This paper presents an approach to model runoff and erosion risk in a context of data scarcity, wher...