Joost Buitink

TL;DR: In this paper, the authors simulate the distribution of average evapotranspiration and streamflow at high resolution (1 km 2 ) by combining (a) a steady-state Budyko model for water balance partitioning constrained by long-term (lysimeter) observations across different land use types, (b) a novel decadal high-resolution historical land use reconstruction, and (c) gridded observations of key meteorological variables.

TL;DR: In this paper, the authors quantified the critical soil moisture content by comparison of in situ soil moisture profile measurements of the Raam and Twente networks in the Netherlands, with two satellite-derived vegetation indices (near-infrared reflectance of terrestrial vegetation, NIRv, and vegetation optical depth, VOD) during the 2018 summer drought.

TL;DR: In this article, a comparison of streamflow models with similar internal states and fluxes was conducted using remotely-sensed products of evaporation, snow cover, soil moisture and total storage anomalies.

TL;DR: In this article, the distribution of green and blue water fluxes at high-resolution (1'×'1'km) by combining (a) a steady-state Budyko model for water balance partitioning constrained by long-term (lysimeter) observations across different land-use types, (b) a novel decadal highresolution historical land use reconstruction, and (c) gridded observations of key meteorological variables.

TL;DR: An adaptation evaluation framework aimed at closing the water gap is presented, which is applied offline at the global scale, and made available for regional decision making as a web service.