Using explainable artificial intelligence (XAI) as a diagnostic tool: An application for deducing hydrologic connectivity at watershed scale (2509.02127v1)

Abstract: Explainable artificial intelligence (XAI) methods have been applied to interpret deep learning model results. However, applications that integrate XAI with established hydrologic knowledge for process understanding remain limited. Here we present a framework that apply XAI method at point-scale to provide granular interpretation and enable cross-scale aggregation of hydrologic responses. Hydrologic connectivity is used as a demonstration of the value of this approach. Soil moisture and its movement generated by physically based hydrologic model were used to train a long short-term memory (LSTM) network, whose impacts of inputs were evaluated by XAI methods. Our results suggest that XAI-based classification can effectively identify the differences in the functional roles of various sub-regions at watershed scale. The aggregated XAI results provide an explicit and quantitative indicator of hydrologic connectivity development, offering insights to streamflow variation. This framework could be used to facilitate aggregation of other hydrologic responses to advance process understandings.