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"The progress of science depends on careful observation and precise interpretation of facts." —— John Locke (1632–1704)

Global climate change and human activities have exerted significant and complex influences on hydrological and ecological processes across multiple spatial and temporal scales. Elucidating the underlying physical mechanisms is essential for informing strategies and decision-making to mitigate hydrological, meteorological, and engineering-related risks associated with these changes. My research focuses on the impacts of anthropogenic activities, such as large-scale engineering projects and watershed geomorphic transformations, on regional groundwater flow dynamics and the stability of seepage in engineered structures. Furthermore, my work addresses hydrological hazards arising from extreme events, such as floods and debris flows, and examines the mechanisms governing surface water–groundwater interactions and their environmental consequences.

My research group is open to individuals who are determined to improve themselves and are willing to put in the effort. If you are interested in my research and have the necessary research training background, I welcome you to join us for graduate studies. This will offer us the opportunity to work together on interesting scientific questions and engineering challenges.