Litcius/Paper detail

Evaluation of GPM Dual-Frequency Precipitation Radar (DPR) Rainfall Products Using the Rain Gauge Network over China

Yang Gao, Tongwen Wu, Jun Wang, Shihao Tang

2020Journal of Hydrometeorology23 citationsDOIOpen Access PDF

Abstract

Abstract The Dual-Frequency Precipitation Radar (DPR) on board the Global Precipitation Measurement (GPM) mission core satellite provides the new-generation global observation of rain since 2014. The main objective of this paper is to evaluate the suitability and limitation of GPM-DPR level-2 products over China. The DPR rain rate products are compared with rain gauge data during the summers of 5 years (2014–18). The ground observation network is composed of more than 50 000 rain gauges. The DPR precipitation products for all scans (DPR_NS, DPR_MS, and DPR_HS) generally underestimate rain rates. However, DPR_MS agrees better with gauge estimates than DPR_NS and DPR_HS, yielding the lowest mean error, systematic deviation, and highest Pearson correlation coefficient. In addition, all three swath types show obvious overestimation over gauge estimates between 0.5 and 1 mm h −1 and underestimation when gauge estimates are larger than 1 mm h −1 . The DPR_HS and DPR_MS agree better with gauge estimates below and above 2.5 mm h −1 , respectively. A deeper investigation was carried out to analyze the variation of DPR_MS’s performance with respect to terrains over China. An obvious underestimation, relative to gauge estimates, occurs in Tibetan Plateau while a slight overestimation occurs in the North China Plain. Furthermore, our comprehensive analysis suggests that in Sichuan Basin, the DPR_MS exhibit the best agreement with gauge estimates.

Topics & Concepts

Rain gaugeGlobal Precipitation MeasurementEnvironmental sciencePrecipitationRadarPlateau (mathematics)SatelliteMeteorologyAtmospheric sciencesMathematicsGeologyPhysicsMathematical analysisTelecommunicationsComputer scienceAstronomyPrecipitation Measurement and AnalysisSoil Moisture and Remote SensingMeteorological Phenomena and Simulations