Investigating Nonpoint Source and Pollutant Reduction Effects under Future Climate Scenarios: A SWAT-Based Study in a Highland Agricultural Watershed in Korea

Abstract: This study investigated the effects of nonpoint source (NPS) pollution reduction and pollutant dynamics in a highland agricultural watershed in Korea. We employed the SWAT model to simulate hydrological processes and pollution transport within the watershed. The model incorporates future climatic scenarios derived from downscaled climate projections to assess their impacts on NPS pollution and pollutant reduction methods. These changes lead to heightened surface runoff and erosion rates, resulting in elevated … Show more

“…These projections suggest a future climate regime characterized by heightened temperatures and augmented rainfall, particularly in the later part of the year. The enhanced precipitation can be attributed to the increased capacity of warmer air to retain and subsequently release more water vapor, a phenomenon that underscores the likelihood of intensified hydrological cycles [72]. Consequently, these findings highlight the need for adaptive watershed management strategies to accommodate the expected changes in seasonal precipitation patterns and their ramifications for water resource allocation, agricultural activities, and environmental conservation.…”

Assessing Future Hydrological Variability in a Semi-Arid Mediterranean Basin: Soil and Water Assessment Tool Model Projections under Shared Socioeconomic Pathways Climate Scenarios

“…These projections suggest a future climate regime characterized by heightened temperatures and augmented rainfall, particularly in the later part of the year. The enhanced precipitation can be attributed to the increased capacity of warmer air to retain and subsequently release more water vapor, a phenomenon that underscores the likelihood of intensified hydrological cycles [72]. Consequently, these findings highlight the need for adaptive watershed management strategies to accommodate the expected changes in seasonal precipitation patterns and their ramifications for water resource allocation, agricultural activities, and environmental conservation.…”

Assessing Future Hydrological Variability in a Semi-Arid Mediterranean Basin: Soil and Water Assessment Tool Model Projections under Shared Socioeconomic Pathways Climate Scenarios