Soil erosion modelling has a large sensitivity to soil water content as it greatly affects soil erodibility. Knowing soil moisture and water content along a soil profile can help to understand the soil ability to absorb water before runoff occurs, then, to predict runoff and potential erosion. This study presents a combined approach of direct and indirect methods to monitor soil moisture content on a slope, with the goal of using this data in the future for modelling water erosion processes in soils.
Correlating different evaluation methods for SWC as support for soil processes modelling / Innocenti A.; Pazzi V.; Fanti R.. - ELETTRONICO. - (2024). [10.5194/egusphere-egu24-10794]
Correlating different evaluation methods for SWC as support for soil processes modelling
Innocenti A.;Pazzi V.;Fanti R.
2024
Abstract
Soil erosion modelling has a large sensitivity to soil water content as it greatly affects soil erodibility. Knowing soil moisture and water content along a soil profile can help to understand the soil ability to absorb water before runoff occurs, then, to predict runoff and potential erosion. This study presents a combined approach of direct and indirect methods to monitor soil moisture content on a slope, with the goal of using this data in the future for modelling water erosion processes in soils.
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