We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Soil and water assessment tool model for runoff reaction to land use variations by SWAT model package
Summary
Researchers applied the Soil and Water Assessment Tool (SWAT) model to evaluate how land use variations affect runoff responses across a watershed, using the SWAT model package to simulate hydrological processes under different land use scenarios. The study provided quantitative insights into how land use change influences surface runoff generation at local and regional scales.
ACTA HYDROLOGICA
Sign in to start a discussion.
More Papers Like This
Wastewater matters: incorporating wastewater treatment and reuse into a process-based hydrological model (CWatM v1.08)
This study integrated wastewater treatment and reuse processes into the CWatM hydrological model, enabling large-scale simulation of how wastewater management affects urban water availability and hydrological dynamics.
Modelling Microplastic Transport in River Systems Using the SWAT Hydrological Model
Researchers developed a novel modelling approach using the SWAT hydrological model to simulate microplastic transport through river basin systems, integrating hydrological and physical plastic properties. The model provides a tool for understanding the spatial and temporal dynamics of freshwater microplastic pollution to support mitigation planning.
Quantifying soil surface erosion
This study quantified soil surface erosion rates using a combination of field measurements and modeling, examining how land use, vegetation cover, and rainfall intensity interact to drive soil loss. The findings provide improved estimates for erosion-driven microplastic transport in agricultural landscapes.
Modelling land use influence on polymer-specific microplastics abundance and transportation from terrestrial to aquatic environments
Researchers developed a model to understand how land use patterns influence the abundance and transport of specific microplastic polymers from land into waterways. The study found that different land uses contribute distinct polymer types to the environment, providing evidence that targeted land management strategies could help reduce microplastic pollution in aquatic systems.
Global and local sensitivity analysis to improve the understanding of physically-based urban wash-off models from high-resolution laboratory experiments
A global and local sensitivity analysis was conducted on an urban stormwater runoff model to understand which parameters most influence how particles and pollutants are washed off city surfaces during rain events. Better stormwater models help quantify how microplastics from roads and urban surfaces reach waterways.