Research

My research program is dedicated to advancing our understanding of the Earth’s critical zone by developing innovative computational frameworks that quantify the exchange of energy, water, and carbon across the atmosphere-plant-soil continuum. By integrating process-based modeling with physics-informed machine learning, I bridge the gap between site-level mechanistic observations (e.g., eddy-covariance) and regional-scale remote sensing. My goal is to translate complex ecohydrological processes into actionable intelligence, fostering the resilience of ecosystems and human communities in a changing climate.