Affiliation:
1. College of Water Resources Science and Engineering, Taiyuan University of Technology, Taiyuan 030024, China
Abstract
This study examined the impacts of climate change and human activities on runoff within the Feiling Hydrological Station watershed in the Qinhe River basin, utilizing the SWAT (Soil and Water Assessment Tool) model. Several climate change and extreme land-use scenarios were evaluated for their effects on runoff. Results demonstrated the SWAT model’s suitability for runoff simulation in the watershed, revealing a negative correlation between runoff and temperature changes, and a positive correlation with precipitation changes. Significantly, runoff responses to precipitation variations of ±10% and ±20% were more marked than those to temperature changes of ±1 °C and ±2 °C. In scenarios of extreme woodland and fallow land, runoff decreased, whereas in scenarios of extreme cropland and grassland, it increased, particularly in the extreme farmland scenario. The study’s findings are important for the sensible management of soil and water resources and the enhancement of the natural environment in the studied area.
Reference42 articles.
1. Future global urban water scarcity and potential solutions;He;J. Nat. Commun.,2021
2. Carbon neutrality and socio-economic development;Mi;J. Chin. Econ. Bus. Stud.,2023
3. Climate change attribution of the 2021 Henan extreme precipitation: Impacts of convective organization;Qin;J. Sci. China Earth Sci.,2022
4. Wu, L., Chen, D., and Yang, D. (2023). Response of runoff change to extreme climate evolution in a typical watershed of Karst trough valley, SW China. J. Atmos., 14.
5. Impact of climate change and human activities on vegetation coverage in the Songhua-Liaohe River Basin;Jia;J. Ecol. Environ. Sci.,2023