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分析TRMM卫星降水在径流模拟中的输入不确定性 被引量:3

Multi-source uncertainties in streamflow modeling driven by TRMM satellite precipitation
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摘要 具有较高时空分辨率的卫星降水估计(satellite precipitation estimate,SPE)越来越多地被应用于水文模拟.但是由于包含误差,SPE在水文应用中会带来输入不确定性,相关问题尚未研究清楚.本研究旨在量化两种降水输入:卫星降水产品(热带降水观测任务tropical rainfall measurement mission,TRMM)和相应的站点降水,分别驱动两个水文模型(集总式Ge′nie rural(GR)模型和分布式coupled routing and excess storage(CREST)模型,进行降雨-径流过程模拟时的多源不确定性.使用方差分解法对多源不确定性组分进行划分.为验证所提框架的有效性,选择赣江流域外洲水文站的径流进行模拟.结果表明:卫星降水和站点降水驱动下CREST模拟所得总不确定性,均低于对应情况下GR模拟所得结果;且在两种降水产品和两个水文模型结合的四种情景中,卫星降水驱动CREST模型模拟所得输入不确定性最低.上述结果表明,分布式CREST模型比集总式GR模型能更好地利用TRMM卫星降水的空间分布信息. Satellite Precipitation Estimate(SPE)with high spatio-temporal resolutions is frequently applied to hydrological modeling.However,uncertainty in hydrological modeling due to bias and errors has not been investigated.In the present work multi-source uncertainties in rainfall-runoff of two hydrological models(i.e.,lumped GR model and distributed CREST model)forced by two precipitation inputs(Tropical Rainfall Measurement Mission post-processed 3B42v7 product and corresponding gauge rainfall)were quantified.The multi-source uncertainty components were partitioned by variance decomposition.To verify effect of proposed framework,streamflow at Waizhou outlet in the Ganjiang River Basin was simulated.Total uncertainty in CREST modeling driven by both SPE and gauge precipitation was found to be lower than in Ge’nie Rural(GR)modeling.Among 4 scenarios for 2 precipitation inputs combined with 2 hydrological models,input uncertainty of Coupled Routing and Excess Storage(CREST)modeling driven by SPE was found to be the lowest.These data indicate that distributed CREST model is better than lumped GR model to take advantage of the spatial information in TRMM satellite precipitation data.
作者 马秋梅 熊立华 张验科 纪昌明 MA Qiumei;XIONG Lihua;ZHANG Yanke;JI Changming(Renewable Energy School,North China Electric Power University,102206,Beijing,China;State Key Laboratory of Water Resources and Hydropower Engineering Science,Wuhan University,430072,Wuhan,Hubei,China)
出处 《北京师范大学学报(自然科学版)》 CAS CSCD 北大核心 2020年第2期298-306,共9页 Journal of Beijing Normal University(Natural Science)
基金 国家自然科学基金资助项目(51709105) 中央高校基本科研基金资助项目(2019MS031)。
关键词 不确定性分析 卫星降水 TMPA 水文应用效果 uncertainty analysis satellite precipitation TMPA hydrological application
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