Applicability Assessment of the 1998–2018 CLDAS Multi-Source Precipitation Fusion Dataset over China
作者:Shuai SUN,Chunxiang SHI,Yang PAN,Lei BAI,Bin XU,Tao ZHANG,Shuai HAN,Lipeng JIANG
摘要:Traditional hourly rain gauges and automatic weather stations rarely measure solid precipitation, except for those stations with weighing-type precipitation sensors. Microwave remote sensing has only a low ability to retrieve solid precipitation. In addition, there are no long-term, high-quality precipitation data in China that can be used to drive land surface models. To address these issues, in the China Meteorological Administration(CMA) Land Data Assimilation System(CLDAS), we blended the Climate Prediction Center(CPC) morphing technique(CMORPH) and Modern-Era Retrospective analysis for Research and Applications version 2(MERRA2) precipitation datasets with observed temperature and precipitation data on various temporal scales using multigrid variational analysis and temporal downscaling to produce a multi-source precipitation fusion dataset for China(CLDAS-Prcp). This dataset covers all of China at a resolution of 6.25 km at hourly intervals from 1998 to 2018. We performed dependent and independent evaluations of the CLDAS-Prcp dataset from the perspectives of seasonal total precipitation and land surface model simulation. Our results show that the CLDAS-Prcp dataset represents reasonably the spatial distribution of precipitation in China. The dependent evaluation indicates that the CLDAS-Prcp performs better than the MERRA2 precipitation, CMORPH precipitation, Global Land Data Assimilation System version 2(GLDAS-V2.1) precipitation,and CLDAS-V2.0 winter precipitation, as compared to the meteorological observational precipitation. The independent evaluation indicates that the CLDAS-Prcp dataset performs better than the Global Precipitation Measurement(GPM) precipitation dataset and is similar to the CLDAS-V2.0 summer precipitation dataset based on the hydrological observational precipitation. The simulated soil moisture content driven by CLDAS-Prcp is slightly better than that driven by the CLDAS-V2.0 precipitation, whereas the snow depth simulation driven by CLDAS-Prcp is much better than that driven by the
發文機構:National Meteorological Information Center
關鍵詞:ChinaMeteorologicalAdministrationLandDataAssimilationSystem(CLDAS)PRECIPITATIONdatafusionModern-EraRetrospectiveanalysisforResearchandApplicationsversion2(MERRA2)ClimatePredictionCenter(CPC)morphingtechnique(CMORPH)Space–TimeMultiscaleVariationalAnalysisSystem(STMAS)Noahlandsurfacemodelwithmultiparameterizationoptions(Noah-MP)
分類號: P73[天文地球—海洋科學]
CSCD- Major Scientific Achievements of the First China–Japan Cooperative GAME/HUBEX Experiment: A Historical Review
- Identifying and Quantifying Pixel-Level Uncertainty among Major Satellite Derived Global Land Cover Products
- A Multivariable Approach for Estimating Soil Moisture from Microwave Radiation Imager(MWRI)
- Spatial Distribution and Temporal Trend Characteristics of Agro-Climatic Resources and Extreme Climate Events during the Soybean Growing Season in Northeast China from 1981 to 2017
- Bias Analysis and Correction of Ground Surface Temperature Observations across China
- Research Progress on Estimation of the Atmospheric Boundary Layer Height
- Joint Effect of East Asia-Pacific and Eurasian Teleconnections on the Summer Precipitation in North Asia
- Increasing Trend of Summertime Synoptic Wave Train Activity over the Western North Pacific since 1950
- Spatiotemporal Drought Assessment over Sahelian Countries from 1985 to 2015
- Climate Sensitivity and Feedbacks of BCC-CSM to Idealized CO2 Forcing from CMIP5 to CMIP6