about
Estimating the Lyapunov-exponent spectrum from short time series of low precisionDo dynamic global vegetation models capture the seasonality of carbon fluxes in the Amazon basin? A data-model intercomparison.Ecological dynamic model of grassland and its practical verification.Natural and drought scenarios in an east central Amazon forest: Fidelity of the Community Land Model 3.5 with three biogeochemical modelsDevelopment of the Regional Arctic System Model (RASM): Near-Surface Atmospheric Climate SensitivityLand Surface Climate in the Regional Arctic System ModelAtmosphere-terrestrial ecosystem interactions: implications for coupled modelingEvaluation of Greenland near surface air temperature datasetsCO2diffusion into pore spaces limits weathering rate of an experimental basalt landscapeChallenges and Opportunities in NASA Weather ResearchMechanisms of water supply and vegetation demand govern the seasonality and magnitude of evapotranspiration in Amazonia and CerradoOverview of the Large-Scale Biosphere–Atmosphere Experiment in Amazonia Data Model Intercomparison Project (LBA-DMIP)Hillslope-scale experiment demonstrates the role of convergence during two-step saturationAssessment of CMIP5 Model Simulations of the North American Monsoon SystemThe Common Land ModelInteractions between the atmosphere and terrestrial ecosystems: influence on weather and climateSEAFLUXSoil microbial respiration from observations and Earth System ModelsParameterization improvements and functional and structural advances in Version 4 of the Community Land ModelThe Community Land Model and Its Climate Statistics as a Component of the Community Climate System ModelImproving the representation of hydrologic processes in Earth System ModelsThe Landscape Evolution Observatory: A large-scale controllable infrastructure to study coupled Earth-surface processesIncipient subsurface heterogeneity and its effect on overland flow generation – insight from a modeling study of the first experiment at the Biosphere 2 Landscape Evolution ObservatoryDoes Soil Moisture Affect Warm Season Precipitation Over the Southern Great Plains?Assessing the performance of a physically-based soil moisture module integrated within the Soil and Water Assessment ToolControlled Experiments of Hillslope Coevolution at the Biosphere 2 Landscape Evolution Observatory: Toward Prediction of Coupled Hydrological, Biogeochemical, and Ecological ChangeLarge and local-scale features associated with heat waves in the United States in reanalysis products and the NARCCAP model ensembleFuture Community Efforts in Understanding and Modeling Atmospheric ProcessesEvaluation of SMAP Soil Moisture Relative to Five Other Satellite Products Using the Climate Reference Network Measurements Over USAThe Impact of a Low Bias in Snow Water Equivalent Initialization on CFS Seasonal ForecastsA Hydrometeorological Perspective on the Karakoram Anomaly Using Unique Valley-Based Synoptic Weather ObservationsImpacts of internal climate variability on meteorological drought changes in ChinaImpact of Irrigation over the California Central Valley on Regional ClimateRelationships between giant sea salt particles and clouds inferred from aircraft physicochemical dataAdvancing Understanding of Hydrological and Biogeochemical Interactions in Evolving Landscapes through Controlled Experimentation at the Landscape Evolution ObservatoryA New Snow Density Parameterization for Land Data InitializationWhy Do Global Reanalyses and Land Data Assimilation Products Underestimate Snow Water Equivalent?Global warming projection in the 21st century based on an observational data-driven modelDevelopment of a 0.5° global monthly raining day product from 1901 to 2010Estimates of Global Surface Hydrology and Heat Fluxes from the Community Land Model (CLM4.5) with Four Atmospheric Forcing Datasets
P50
Q27346891-D65296E0-B46F-4DA9-BA00-AFF432A40CEDQ31115944-3B72AFFA-38A8-41F8-9001-6DCB1F0735B1Q50760031-BC1F50FA-8618-44A1-8E4E-3C9C8FED323AQ57183063-557C4EC0-105A-4BF0-AFCA-19118535DC5CQ57573911-25E52CE1-2FA1-4300-B5AB-F7518F2BBFB5Q57573915-1CF35753-02EB-464C-BFC1-A9CB63D722E1Q57722863-74290A1F-3381-4148-AD27-C0BD32BA1E08Q57879461-4AC697BC-EFA1-4BD7-9D29-1C82F4A57903Q57978565-05E1EF7B-9D66-41BE-B832-C11A9866D941Q58005071-FE36A116-DE1E-4247-AFFB-F0682F0B7CB9Q58053501-23CC2AB8-BAA3-4ABC-830D-900A17937287Q58053527-87D2387C-401D-4E9D-A18C-3A6A1BD5B353Q58056013-3A399DE5-EF15-42F0-BFA3-71DB0099ADA5Q58063970-004282A6-5692-4D5B-9532-7E737AACDFCAQ58068314-324B6D27-EACA-493E-9BD9-838894099F51Q58069050-F96009B9-E038-4652-86C8-43B1E00FF425Q58243932-0C09AE94-D59C-4443-8B61-30AD9EF9F34AQ58260168-82BB31F4-5B64-44C0-AFD0-6A344B2C2926Q58311189-F35C88C0-F656-4AA6-9A36-BD5AF3E2F40AQ58311202-53873FBE-3887-4D56-903B-7412B25083BEQ58319820-B838C8F7-FD3A-4D05-AD28-A0880360AAC7Q58363780-A1FAB1B8-DC79-4565-865F-EDBD4FFB2C19Q58363788-991BB119-A023-4A58-B30A-A90167B20098Q58401268-D1FAFC22-7E12-4C87-B839-658304886D43Q58401271-CED07EA3-B892-44DA-8EF0-90DAE1282337Q58401277-5DDC432D-2111-4BC7-8BD6-160ED710261CQ58401283-84267F66-8B32-4DB7-BF5D-F101EBE1706EQ58401289-98C94DB8-882C-4115-BC77-4B808B4AFF25Q58401295-9D4872DE-DBD4-44E9-B6FE-B3D758EAFF9EQ58401300-6B549B95-2FA6-4099-BB65-C1CAEF520D40Q58401303-F1534E8C-6E8E-4E2A-948B-3FE7856A862CQ58401309-CD7360AC-449D-40F0-97AA-D9EA5B50660DQ58401318-1EDCA997-B01A-45FA-BCE8-F63743894F88Q58401324-B5261F46-AE92-4170-AF18-778D4FD74CEBQ58401329-1A94D5C5-AF77-4BB2-B191-E31784F9C2E3Q58401332-CAA8F284-FCC0-4B23-A3C5-B46318C87E34Q58401339-A01D0F67-3182-4D82-916B-3BE9D2B059CDQ58401346-5BA6B2D9-F769-4DD8-8111-B98C31D0949DQ58401351-288A426E-2177-47C1-9E07-706F5D04D607Q58401357-11F42BCA-AC87-4FF6-9C06-2897F0AC4F11
P50
description
researcher, ORCID id # 0000-0001-7352-2764
@en
wetenschapper
@nl
name
Xubin Zeng
@ast
Xubin Zeng
@en
Xubin Zeng
@es
Xubin Zeng
@nl
type
label
Xubin Zeng
@ast
Xubin Zeng
@en
Xubin Zeng
@es
Xubin Zeng
@nl
prefLabel
Xubin Zeng
@ast
Xubin Zeng
@en
Xubin Zeng
@es
Xubin Zeng
@nl
P106
P2456
P31
P496
0000-0001-7352-2764