about
A study of Bangladesh's sub-surface water storages using satellite products and data assimilation scheme.Understanding linkages between global climate indices and terrestrial water storage changes over Africa using GRACE productsUnderstanding the global hydrological droughts of 2003-2016 and their relationships with teleconnectionsMultivariate Prediction of Total Water Storage Changes Over West Africa from Multi-Satellite DataEfficient basin scale filtering of GRACE satellite productsImproving drought simulations within the Murray-Darling Basin by combined calibration/assimilation of GRACE data into the WaterGAP Global Hydrology ModelInterannual variability of temperature in the UTLS region over Ganges–Brahmaputra–Meghna river basin based on COSMIC GNSS RO dataDoes GRACE see the terrestrial water cycle “intensifying”?Mapping probabilities of extreme continental water storage changes from space gravimetryIndependent patterns of water mass anomalies over Australia from satellite data and modelsQuantifying the impacts of ENSO and IOD on rain gauge and remotely sensed precipitation products over AustraliaSeparation of large scale water storage patterns over Iran using GRACE, altimetry and hydrological dataPassive-ocean radial basis function approach to improve temporal gravity recovery from GRACE observationsComparisons of atmospheric data and reduction methods for the analysis of satellite gravimetry observationsSeparation of deterministic signals using independent component analysis (ICA)Understanding the decline of water storage across the Ramser-Lake Naivasha using satellite-based methodsAssessing data assimilation frameworks for using multi-mission satellite products in a hydrological contextUnderstanding the association between climate variability and the Nile's water level fluctuations and water storage changes during 1992-2016
P50
Q47201764-EC4FD3C7-6606-4F6D-8F7E-DC713283A8AEQ57092995-7CE3BADE-3C0E-4A6D-8DDB-15BCD05FEF6FQ57191369-C671A21E-1135-4F9D-AF14-9FAE514DF868Q57874417-A03BB956-F280-4C13-87EC-8D87FC875037Q57876403-F2195779-8C57-4AAE-872E-914371E2380CQ57882502-30B54099-DA1B-4E10-B44F-36373DB27583Q57885453-DAB7428B-1CF9-4EB1-8649-CA4095CB00E9Q58120378-33F72F41-0A3D-4FA9-8A9E-1819549C9796Q58120383-9E7C8FA3-60B4-4431-B13E-7425C4A7EF6FQ58120412-20E1A94E-95F8-46A3-B86B-55FC107206A1Q58258993-3F4B9D40-3CA6-4C43-9B1E-360DC950DDA2Q58266069-A3ECB3CC-6B23-48D1-B7A6-FE3C8951E88CQ58394868-914F8D88-CCF7-436F-9812-66E5A90B0AB5Q58404108-4D79C3C3-4DC8-439E-9ACE-002E0A03E7D8Q58404114-8993FE3F-6969-44CE-A844-67EF7BE4D5C3Q58404115-70F7972B-3D03-4E1D-B681-5E1D1B6ABD2FQ91284578-B9069BD9-B94A-4F4E-BA9E-0C1FE37266F8Q91693273-EB49C8E4-F30A-4B53-A653-F8878FAE78CA
P50
description
aardwetenschapper
@nl
researcher, ORCID id # 0000-0003-3055-041X
@en
name
Ehsan Forootan
@ast
Ehsan Forootan
@en
Ehsan Forootan
@es
Ehsan Forootan
@nl
type
label
Ehsan Forootan
@ast
Ehsan Forootan
@en
Ehsan Forootan
@es
Ehsan Forootan
@nl
prefLabel
Ehsan Forootan
@ast
Ehsan Forootan
@en
Ehsan Forootan
@es
Ehsan Forootan
@nl
P108
P214
P227
P1153
55257503300
P21
P214
P227
1060738333
P31
P496
0000-0003-3055-041X
P7859
viaf-311454232