多个高时空分辨率降水产品在珠江三角洲地区的多尺度精度评估
Multi-scale accuracy assessment of multiple high spatial and temporal resolution precipitation products in the Pearl River Delta region
- 中山大学学报(自然科学版)(中英文) 2024年63卷第3期 页码:21-31
- 作者机构:
1.中山大学土木工程学院,广东 珠海 519082
2.珠江水利委员会珠江水利科学研究院,广东 广州 510611
3.广州市水务科学研究所,广东 广州 510220
4.青海省水旱灾害防御服务中心,青海 西宁 810001
5.乌兰察布市水利事业发展中心,内蒙古 乌兰察布 012000
- 作者简介:
麦杞莹(1998年生),女;研究方向:水文水资源;E-mail:maiqy7@mail2.sysu.edu.cn
谭学志(1987年生),男;研究方向:水文水资源;E-mail:tanxuezhi@mail.sysu.edu.cn
- 基金信息:国家重点研发计划(2021YFC3001004);国家自然科学基金(52179030;51809295);广州市科技计划项目(201904010097)
DOI:10.13471/j.cnki.acta.snus.2022D083
中图分类号: P339纸质出版日期:2024-05-25,
网络出版日期:2024-02-21,
收稿日期:2022-11-10,
录用日期:2023-03-31
扫 描 看 全 文
麦杞莹,谭学志,吴欣欣等.多个高时空分辨率降水产品在珠江三角洲地区的多尺度精度评估[J].中山大学学报(自然科学版)(中英文),2024,63(03):21-31.
MAI Qiying,TAN Xuezhi,WU Xinxin,et al.Multi-scale accuracy assessment of multiple high spatial and temporal resolution precipitation products in the Pearl River Delta region[J].Acta Scientiarum Naturalium Universitatis Sunyatseni,2024,63(03):21-31.
麦杞莹,谭学志,吴欣欣等.多个高时空分辨率降水产品在珠江三角洲地区的多尺度精度评估[J].中山大学学报(自然科学版)(中英文),2024,63(03):21-31. DOI: 10.13471/j.cnki.acta.snus.2022D083.
MAI Qiying,TAN Xuezhi,WU Xinxin,et al.Multi-scale accuracy assessment of multiple high spatial and temporal resolution precipitation products in the Pearl River Delta region[J].Acta Scientiarum Naturalium Universitatis Sunyatseni,2024,63(03):21-31. DOI: 10.13471/j.cnki.acta.snus.2022D083.
摘要
基于2001—2012年珠江三角洲地区28个雨量站逐时实测降水数据,通过计算6个统计指标和研究不同降水事件的出现频率,分别在年、月和日3个尺度上评估了3种降水产品CMORPH、GPM和ERA5在珠江三角洲地区的精度。结果发现:① 对比年、月、日3个时间尺度,3种降水产品在月尺度上均表现出与实测降水数据存在高度正线性关系,而在年和日尺度上的相关关系较弱;② 日尺度下3种降水产品汛期的表现均比非汛期差,在干燥月份对降水事件的探测准确度较其他月份低,但误报率却是秋冬季较高,且沿海附近站点的误报率均较内陆站点高;③ 相较之下,GPM更能准确地反映出珠江三角洲地区降水量的时空变化趋势和空间分布特征;④ CMORPH和GPM对各类型降水事件的估计能力均较好,能较好地反映实测降水数据对不同类型降水事件的贡献。总体而言,3种产品中,GPM最能反映珠江三角洲地区实际降水情况。
Abstract
Based on hourly precipitation data from 28 rainfall stations in the Pearl River Delta (PRD) region from 2001 to 2012,the accuracy of CMORPH,GPM and ERA5 is evaluated in the PRD on the annual,monthly and daily time scales by calculating 6 statistical metrics and exploring the frequency of different precipitation events. The results show that:(1) Compared with the three time scales of year,month and day,three products showed a highly positive correlation with the measured rainfall station on the monthly scale,but the correlation is weak on the annual and daily scales. (2) At the daily scale,all three precipitation products perform worse in the flood season than in the non-flood season. They are less accurate in detecting precipitation events in dry months than in other months,but the false alarm rate is higher in autumn and winter,and they all have a higher false alarm rate for stations near the coast than for inland stations. (3) In contrast,GPM can more accurately reflect the spatio-temporal trend and spatial distribution characteristics of precipitation in the PRD region. (4) Both CMORPH and GPM show high capacity to estimate various types of precipitation events,which can well reflect the contribution of the measured data to different types of precipitation events. Overall,GPM can best reflect the actual situation in the PRD region among the three products.
关键词
降水精度评估CMORPHGPMERA5珠江三角洲
Keywords
precipitation accuracy assessmentCMORPHGPMERA5the Pearl River Delta
references
成璐,沈润平,师春香,等,2014. CMORPH和TRMM 3B42降水估计产品的评估检验[J]. 气象,40(11):1372-1379.
金晓龙,邵华,张弛,等,2016. GPM卫星降水数据在天山山区的适用性分析[J]. 自然资源学报,31(12):2074-2085.
李建,宇如聪,孙溦, 2013. 从小时尺度考察中国中东部极端降水的持续性和季节特征[J]. 气象学报,71(4),652-659.
李麒崙,张万昌,易路,等,2018. GPM与TRMM降水数据在中国大陆的精度评估与对比[J]. 水科学进展,29(3):303-313.
刘婷婷,朱秀芳,郭锐,等,2022. ERA5再分析降水数据在中国的适用性分析[J]. 干旱区地理,45(1):66-79.
宋子珏,何建新,李学华,等,2018. 星载降水测量雷达降水产品研究进展[J]. 气象科技,46(4):631-637.
许时光,牛铮,沈艳,等,2014. CMORPH卫星降水数据在中国区域的误差特征研究[J]. 遥感技术与应用,29(2):189-194.
DEMBÉLÉ M,ZWART S J, 2016. Evaluation and comparison of satellite-based rainfall products in Burkina Faso,West Africa[J]. Int J Remote Sens,37(17):3995-4014.
DUTRA E,VITERBO P,MIRANDA P M A, 2008. ERA-40 reanalysis hydrological applications in the characterization of regional drought[J].Geophys Res Lett, 35(19):116-122.
GUO H,CHEN S,BAO A M,et al, 2015. Inter-comparison of high-resolution satellite precipitation products over Central Asia[J]. Remote Sens, 7(6):7181-7211.
HOU A Y,KAKAR R K,NEECK S,et al, 2014. The global precipitation measurement mission[J]. Bull Amer Meteor Soc, 95(5):701-722.
JIANG Q,LI W Y,FAN Z D,et al, 2021. Evaluation of the ERA5 reanalysis precipitation dataset over Chinese Mainland[J]. J Hydrol,595:125660.
JOYCE R J,JANOWIAK J E,ARKIN P A,et al, 2004. CMORPH:A method that produces global precipitation estimates from passive microwave and infrared data at high spatial and temporal resolution[J]. J Hydrometeorol,5(3):487-503.
KIDD C,BECKER A,HUFFMAN G J,et al, 2017. So,how much of the Earth's surface is covered by rain gauges?[J] Bull Am Meteorol Soc, 98(1):69-78.
MAGGIONI V,MEYERS P C,ROBINSON M D 2016. A review of merged high-resolution satellite precipitation product accuracy during the tropical rainfall measuring mission (TRMM) era[J]. J Hydrometeorol,17(4):1101-1117.
MASOOD M,SHAKIR A S,AZHAR A H,et al, 2020. Assessment of real time,multi-satellite precipitation products under diverse climatic and topographic conditions[J]. Asia Pac J Atmos Sci,56(4):577-591.
MEI Y W,ANAGNOSTOU E N,NIKOLOPOULOS E I,et al, 2014. Error analysis of satellite precipitation products in mountainous basins[J]. J Hydrometeorol,15(5):1778-1793.
SIMPSON J,ADLER R F,NORTH G R 1988. A proposed tropical rainfall measuring mission (TRMM) satellite[J]. Bull Am Meteorol Soc,69(2):278-295.
XIE P P,JOYCE R,WU S R,et al, 2017. Reprocessed,bias-corrected CMORPH global high-resolution precipitation estimates from 1998[J]. J Hydrometeorol,18(6):1617-1641.
YONG B,LIU D,GOURLEY J J,et al, 2015. Global view of real-time TRMM multisatellite precipitation analysis implications for its successor global precipitation measurement mission[J]. Bull Am Meteorol Soc,96(2):283-296.
YUAN F,ZHANG L M,SOE K M W,et al, 2019. Applications of TRMM- and GPM-era multiple-satellite precipitation products for flood simulations at sub-daily scales in a sparsely gauged watershed in Myanmar[J]. Remote Sens,11(2):140.
ZHANG Z X,TIAN J X,HUANG Y H,et al, 2019. Hydrologic Evaluation of TRMM and GPM IMERG Satellite-Based Precipitation in a Humid Basin of China[J]. Remote Sens,11(4):431.
ZHANG Z Y,LOU Y D,ZHANG W X,et al, 2022. Assessment of ERA-Interim and ERA5 reanalysis data on atmospheric corrections for InSAR[J]. Int J Appl Earth Obs Geoinformation,111:102822.
0
浏览量
12
下载量
0
CSCD
- 网络PDF下载
- Meta-XML下载
- BibTeX下载
- Endnote下载
- RefMan 下载
- NoteExpress下载
- NoteFirst下载
关联资源
相关文章
相关作者
相关机构
- 地址:广州市海珠区新港西路135号 中山大学南校园东北区311栋 邮编:510275
- 联系电话:020-84112585,84113223 Email:xuebaozr@mail.sysu.edu.cn
- 技术支持由北京北大方正电子有限公司提供 京ICP备09064830号-19
京公网安备11010802024621 - 本系统建议在Chrome、 IE9+ 以上版本浏览器阅读本站内容,360浏览器请切换至极速模式
- Cookies帮助我们提供服务并提供个性化体验。使用本网站,即表示您同意我们使用Cookies
