Comprehensive evaluation of satellite-based and reanalysis soil moisture products using in situ observations over China

摘要

Soil moisture?(SM) plays a critical role in the water and energy cycles of the Earth system; consequently, a long-term SM?product with high quality is urgently needed. In this study, five SM?products, including one microwave remote sensing product – the European Space Agency's Climate Change Initiative?(ESA?CCI) – and four reanalysis data sets – European Centre for Medium-Range Weather Forecasts?(ECMWF) Reanalysis – Interim?(ERA-Interim), National Centers for Environmental Prediction?(NCEP), the 20th Century Reanalysis Project from National Oceanic and Atmospheric Administration?(NOAA), and the ECMWF Reanalysis?5?(ERA5) – are systematically evaluated using in situ measurements during?1981–2013 in four climate regions at different timescales over the Chinese mainland. The results show that ESA CCI is closest to the observations in terms of both the spatial distributions and magnitude of the monthly?SM. All reanalysis products tend to overestimate soil moisture in all regions but have higher correlations than the remote sensing product except in Northwest China. The largest inconsistency is found in southern Northeast China region, with an unbiased root mean square error?(ubRMSE) value larger than?0.04. However, all products exhibit certain weaknesses in representing the interannual variation in?SM. The largest relative bias of 144.4?% is found for the ERA-Interim SM?product under extreme and severe wet conditions in northeastern China, and the lowest relative bias is found for the ESA CCI SM?product, with the minimum of 0.48?% under extreme and severe wet conditions in northwestern China. Decomposing mean square errors suggests that the bias terms are the dominant contribution for all products, and the correlation term is large for ESA CCI. As a result, the ESA CCI SM?product is a good option for long-term hydrometeorological applications on the Chinese mainland. ERA5 is also a promising product, especially in northern and northwestern China in terms of low bias and high correlation coefficient. This long-term intercomparison study provides clues for SM?product enhancement and further hydrological applications.