about
P185
Influence of the Madden-Julian oscillation on Tibetan Plateau snow cover at the intraseasonal time-scale.Evaluation of forest snow processes models (SnowMIP2)Water Balance in the Amazon Basin from a Land Surface Model EnsembleModeling the Spatial Distribution of Snow Cover in the Dudhkoshi Region of the Nepal HimalayasStem–root flow effect on soil–atmosphere interactions and uncertainty assessmentsFire-induced albedo change and surface radiative forcing in sub-Saharan Africa savanna ecosystems: Implications for the energy balanceInvestigation of North American vegetation variability under recent climate: A study using the SSiB4/TRIFFID biophysical/dynamic vegetation modelIntercomparison and analyses of the climatology of the West African Monsoon in the West African Monsoon Modeling and Evaluation project (WAMME) first model intercomparison experimentGLACE: The Global Land–Atmosphere Coupling Experiment. Part I: OverviewGLACE: The Global Land–Atmosphere Coupling Experiment. Part II: AnalysisRegions of Strong Coupling Between Soil Moisture and PrecipitationImpact of different initial soil moisture fields on Eta model weather forecasts for South AmericaTerrestrial biosphere models need better representation of vegetation phenology: results from the North American Carbon Program Site SynthesisQuasi-decadal signals of Sahel rainfall and West African monsoon since the mid-twentieth centurySimulation of high latitude hydrological processes in the Torne–Kalix basin: PILPS Phase 2(e)Simulation of high-latitude hydrological processes in the Torne–Kalix basin: PILPS Phase 2(e)Assessment of uncertainties in the response of the African monsoon precipitation to land use change simulated by a regional modelA review on regional dynamical downscaling in intraseasonal to seasonal simulation/prediction and major factors that affect downscaling abilityThe Project for Intercomparison of Land-surface Parameterization Schemes (PILPS) Phase 2(c) Red–Arkansas River basin experiment:The Project for Intercomparison of Land-surface Parameterization Schemes (PILPS) phase 2(c) Red-Arkansas River basin experiment:The Project for Intercomparison of Land-surface Parameterization Schemes (PILPS) phase 2(c) Red–Arkansas River basin experiment:Assessment of dynamic downscaling of the extreme rainfall over East Asia using a regional climate modelReview of Recent Developments and the Future Prospective in West African Atmosphere/Land Interaction StudiesGlobal vegetation variability and its response to elevated CO₂, global warming, and climate variability – a study using the offline SSiB4/TRIFFID model and satellite dataSpring Land Surface and Subsurface Temperature Anomalies and Subsequent Downstream Late Spring-Summer Droughts/Floods in North America and East AsiaSatellite Chlorophyll Fluorescence and Soil Moisture Observations Lead to Advances in the Predictive Understanding of Global Terrestrial Coupled Carbon-Water CyclesDevelopment of a land surface model with coupled snow and frozen soil physicsValidating the dynamic downscaling ability of WRF for East Asian summer climateWest African monsoon decadal variability and surface-related forcings: second West African Monsoon Modeling and Evaluation Project Experiment (WAMME II)Impact of burned areas on the northern African seasonal climate from the perspective of regional modelingImplementation and evaluation of a generalized radiative transfer scheme within canopy in the soil-vegetation-atmosphere transfer (SVAT) modelModeling the potential contribution of land cover changes to the late twentieth century Sahel drought using a regional climate model: impact of lateral boundary conditionsSensitivity of a regional climate model to land surface parameterization schemes for East Asian summer monsoon simulationSpring land temperature anomalies in northwestern US and the summer drought over Southern Plains and adjacent areasThe regional impact of Land-Use Land-cover Change (LULCC) over West Africa from an ensemble of global climate models under the auspices of the WAMME2 projectVariability and predictability of West African monsoon on seasonal and decadal scalesVegetation Responses to Climate Variability in the Northern Arid to Sub-Humid Zones of Sub-Saharan AfricaImproving snow albedo processes in WRF/SSiB regional climate model to assess impact of dust and black carbon in snow on surface energy balance and hydrology over western U.SIntegrated simulation of snow and glacier melt in water and energy balance-based, distributed hydrological modeling framework at Hunza River Basin of Pakistan Karakoram regionVariability and Predictability of West African Droughts: A Review on the Role of Sea Surface Temperature Anomalies
P50
Q37134224-5544A3CD-9D68-450E-A34F-30BCE7296C80Q57058618-C6054F92-E94F-4889-9959-198D118CBAD6Q57632657-C154CDD1-952E-4538-9B22-52264C7EF1B0Q57703174-62F5E745-3FCD-4BA3-9D16-66E7473EE051Q57863447-9DD39488-B97D-4B7F-B85E-021462985F22Q57866090-D12ECCB1-A631-4787-ABB2-B51EBACAF7B6Q57914924-DC851CDF-4170-40BC-9F57-70160890F8C5Q58068209-8B099321-910E-4A3B-8FAE-EA1664247299Q58068273-C228F276-6E8E-4CD4-B1E6-A7E8B8B8B9B1Q58068275-25646708-CC90-4A39-958B-43D0D26F523FQ58068298-B5DC6DDE-EE25-4FB4-AFC2-2E09D11AD752Q58101673-C8D5CC79-E252-43D0-AD73-14126E6AAF31Q58112884-644AF123-31CD-426C-A4D6-AAE01ADD28FEQ58212920-7FE047B5-7B66-4625-A870-8AB7CB9E7E01Q58315649-F314F5C4-EF13-41AE-8FCF-DB65D7A495A5Q58315650-BA450E35-48D7-4F24-A753-C0DAEC17D1B9Q58381255-58E02E14-471D-42F9-8D66-E097E3161325Q58383184-54424D7D-8281-4870-A487-76A026FC54F7Q58404592-9B57BB31-466E-4586-88E1-D8E937C525F0Q58404596-EE214F6F-5F07-410A-87E6-0EBC5A70A462Q58404599-DC09B95A-3679-42A8-BFF7-527ECB80330EQ58405932-09198F0A-07D9-48F2-BFAF-E67B0240F117Q58704393-54003D64-2459-4B3E-B808-FC37144D0198Q59809192-1EE69899-3E19-40A9-B2EB-D74268072C11Q59809196-12042404-725B-4B33-AA22-3DC768816553Q59809199-2556E0E7-21F5-4C6B-90B6-BAAFFE9D336FQ59809203-FD472F1E-AA91-48AA-BD24-08EB3BFBABE8Q59809209-11E7F8AA-D594-4D4A-90F1-FDF075B0CE5CQ59809212-0786D5B9-05C4-4526-A364-25DD5B0D144BQ59809220-3B9DBDC2-D8F8-43BB-834D-AB1B30B79F3EQ59809223-3236CBD2-EDF0-4B66-AC95-1C411227B4F0Q59809227-548260F4-D8C8-4FF6-957C-94A6A54ED25CQ59809229-7B428ACF-C8F6-46B2-8C2F-C0ADA529E9DDQ59809233-9C110175-25BA-4D4D-8D41-01D0080CF0C4Q59809235-37539625-D680-4ACA-A76A-DF981AC30333Q59809237-B2293CA0-6210-4E35-9153-D00D87E17443Q59809240-48BF80E9-B57F-4D5A-A20C-CB8DD58FCD58Q59809242-F8B831EF-0742-4D04-8BF4-C6E1E7AD365CQ59809244-7F2182D6-01D2-472B-9127-5A1779084928Q59809246-52952A5A-6DD7-47D8-B408-6993AA289C98
P50
description
geofysicus
@nl
geophysicist
@en
name
Yongkang Xue
@ast
Yongkang Xue
@en
Yongkang Xue
@es
Yongkang Xue
@nl
薛永康
@zh
type
label
Yongkang Xue
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Yongkang Xue
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Yongkang Xue
@es
Yongkang Xue
@nl
薛永康
@zh
altLabel
Yong-kang Xue
@en
prefLabel
Yongkang Xue
@ast
Yongkang Xue
@en
Yongkang Xue
@es
Yongkang Xue
@nl
薛永康
@zh
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7402270607
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a6CCWdMAAAAJ
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0000-0002-6169-9631