Add to ORKGNumerous large river basins of the world have few and irregular observations of the components of the terrestrial hydrological cycle with the exception of stream gauges at a few locations and at the outlet along with sparsely distributed rain gauges. Using observations from satellite sensors and output from global land surface models, it is possible to study these under-observed river basins. With populations greater than a billion people, some of these rivers (e.g., the Ganga-Brahmaputra, the Yangtze, the Nile and the Mekong) are the economic engines of the countries they transect, yet thorough assessment of their flow dynamics and variability in regard to water resource management is still lacking. In this paper, we use soil moisture (0-2...
Satellite-informed estimates of distributed hydrologic fluxes and storages in remote, ungauged, or c...
Water level (WL) measurements denote surface conditions that are useful for monitoring hydrological ...
Surface water storage is a key component of the terrestrial hydrological and biogeochemical cycles t...
The increasing competition for water resources requires a better understanding of flows, fluxes, sto...
A thorough assessment of evapotranspiration (ET) pervades several important issues of the 21st centu...
The increasing competition for water resources requires a better understanding of flows, fluxes, sto...
This study represents the first attempt to examine spatial and seasonal variations of the surface wa...
International audienceFor the period 2003–2004 and for six large river basins, the present study com...
(GRACE) satellites have produced an unprecedented data set of terrestrial water storage (TWS) change...
This book is a collection of overview articles showing how space-based observations, combined with h...
The total terrestrial water storage (TWS) in six major river basins of the world for the period 1986...
International audienceSurface water storage is a key component of the terrestrial hydrological and b...
Water is diminishing in many places of the globe due to human intervention and climate variability. ...
Satellite-informed estimates of distributed hydrologic fluxes and storages in remote, ungauged, or c...
Water level (WL) measurements denote surface conditions that are useful for monitoring hydrological ...
Surface water storage is a key component of the terrestrial hydrological and biogeochemical cycles t...
The increasing competition for water resources requires a better understanding of flows, fluxes, sto...
A thorough assessment of evapotranspiration (ET) pervades several important issues of the 21st centu...
The increasing competition for water resources requires a better understanding of flows, fluxes, sto...
This study represents the first attempt to examine spatial and seasonal variations of the surface wa...
International audienceFor the period 2003–2004 and for six large river basins, the present study com...
(GRACE) satellites have produced an unprecedented data set of terrestrial water storage (TWS) change...
This book is a collection of overview articles showing how space-based observations, combined with h...
The total terrestrial water storage (TWS) in six major river basins of the world for the period 1986...
International audienceSurface water storage is a key component of the terrestrial hydrological and b...
Water is diminishing in many places of the globe due to human intervention and climate variability. ...
Satellite-informed estimates of distributed hydrologic fluxes and storages in remote, ungauged, or c...
Water level (WL) measurements denote surface conditions that are useful for monitoring hydrological ...
Surface water storage is a key component of the terrestrial hydrological and biogeochemical cycles t...