about
A comprehensive data set of lake surface water temperature over the Tibetan Plateau derived from MODIS LST products 2001-2015Global models underestimate large decadal declining and rising water storage trends relative to GRACE satellite data.Systematic Anomalies Over Inland Water Bodies of High Mountain Asia in TRMM Precipitation Estimates: No Longer a Problem for the GPM Era?Global evaluation of new GRACE mascon products for hydrologic applicationsDeveloping a composite daily snow cover extent record over the Tibetan Plateau from 1981 to 2016 using multisource dataDischarge estimation in high-mountain regions with improved methods using multisource remote sensing: A case study of the Upper Brahmaputra RiverExploring Deep Neural Networks to Retrieve Rain and Snow in High Latitudes Using Multisensor and Reanalysis DataA two-step framework for reconstructing remotely sensed land surface temperatures contaminated by cloudAn improved approach to monitoring Brahmaputra River water levels using retracked altimetry dataClimatology of snow phenology over the Tibetan plateau for the period 2001-2014 using multisource dataAccounting for spatiotemporal errors of gauges: A critical step to evaluate gridded precipitation productsDocumentation of multifactorial relationships between precipitation and topography of the Tibetan Plateau using spaceborne precipitation radarsPerformance of Optimally Merged Multisatellite Precipitation Products Using the Dynamic Bayesian Model Averaging Scheme Over the Tibetan PlateauAssessing the potential of satellite-based precipitation estimates for flood frequency analysis in ungauged or poorly gauged tributaries of China’s Yangtze River basinObserved radiative cooling over the Tibetan Plateau for the past three decades driven by snow cover-induced surface albedo anomalySimilarities and differences between three coexisting spaceborne radars in global rainfall and snowfall estimationGlobal analysis of spatiotemporal variability in merged total water storage changes using multiple GRACE products and global hydrological modelsImproved modeling of snow and glacier melting by a progressive two-stage calibration strategy with GRACE and multisource data: How snow and glacier meltwater contributes to the runoff of the Upper Brahmaputra River basin?Validation and reconstruction of FY-3B/MWRI soil moisture using an artificial neural network based on reconstructed MODIS optical products over the Tibetan PlateauDensified multi-mission observations by developed optical water levels show marked increases in lake water storage and overflow floods on the Tibetan Plateau
P50
Q38662612-440C8595-3402-4C64-9ADC-696318F3183CQ47705972-5D77D32A-600D-4168-A4BB-5E851256344CQ56747721-99856F1D-BE8D-4B58-98DC-D2FF4C6E834FQ57874376-81129765-D8F1-4C4E-9988-F37C34A8EFB8Q58194597-53C2540E-D8F1-4B41-9B77-FCF48A6A7DDFQ60058728-E80E2E53-31EC-4047-AE45-537109C2BEA4Q60058729-AF44E040-B815-4C4F-A767-A736AEA029B7Q60058731-AF55C0C4-311B-4829-9FA1-446DF9D7AAA8Q60058733-5C065317-2853-4DF2-A691-90EEF709A31FQ60058735-17905FE3-7DAB-4E3C-A220-39CF6EAD5D21Q60058736-C9D9A643-4B62-47B4-8EC0-3F1F74715DC9Q60058737-F5848A47-50E2-4987-A0F9-3B4EBE01CB47Q60058738-77A84667-1049-498C-8C38-F0B25EB709C4Q60058739-022403FD-7D25-4CBB-8DFB-303CEF61368CQ60058740-34140930-E7EF-4329-B728-4EFAF824E286Q60058742-A2EADFC6-60CB-4EB3-9D22-3034613AD4B4Q60058744-D2B63051-97BD-4545-A906-8C7294470178Q60058745-7822745B-4061-47E5-AA8F-D31BEF5FED5BQ60058747-D38FFF4F-103F-4F9C-B0C5-23551D7D51B8Q63951459-F054419D-C485-4A51-BAC6-E7BE1921739A
P50
description
researcher, ORCID id # 0000-0001-9033-5039
@en
wetenschapper
@nl
name
Di Long
@ast
Di Long
@en
Di Long
@nl
type
label
Di Long
@ast
Di Long
@en
Di Long
@nl
prefLabel
Di Long
@ast
Di Long
@en
Di Long
@nl
P106
P31
P496
0000-0001-9033-5039