LAAuthors: Su, Z.; Francés, A.P.; Advisor: -; Participants: - (2015)
Thesis present methodologies based on hydrogeophysics, remote sensing and geostatistics to contribute to the design of hydro- geological conceptual model; presents the development of the coupled MARMITES-MODFLOW model of surface, unsaturated and saturated zones that computes spatio-temporally the water fluxes at the catchment scale and integrates the sourcing and partitioning of the evapotranspiration; presents the integration of MRS-based hydrogeophysics into the coupled model.