Analysis for retrieval and validation results of FY-3 Total Ozone Unit (TOU) 被引量：12

Analysis for retrieval and validation results of FY-3 Total Ozone Unit (TOU)

导出

摘要 Retrieval experiment was made for global total column ozone using the first year measurements of Total Ozone Unit (TOU) on board the second generation polar orbiting meteorological satellite of China, FY-3/A. The retrieval results were analyzed and validated by comparison with AURA/OMI, Meteop/GOME-2 global ozone products and ground-based ozone measurement data. The qualititative comparisons over the globe especially over Antarctica and the Tibetan Plateau show that the spatial and temporal distribution characteristics are consistent with OMI and GOME-2 products. The quantitative comparisons with ground-based measurements and AURA/OMI ozone product were made over 74 stations, the TOU total ozone retrieval has a 3% rms relative error compared with AURA/OMI ozone product and 4.2% rms relative error with ground-based measurements. The maximum difference between satellite retrieval and ground-based measurements was found in the Antarctica ozone hole. The TOU global ozone product is operational and distributed to all users. Retrieval experiment was made for global total column ozone using the first year measurements of Total Ozone Unit （TOU） on board the second generation polar orbiting meteorological satellite of China, FY-3/A. The retrieval results were analyzed and validated by comparison with AURA/OMI, Meteop/GOME-2 global ozone products and ground-based ozone measurement data. The qualititative comparisons over the globe especially over Antarctica and the Tibetan Plateau show that the spatial and temporal distribution characteristics are consistent with OMI and GOME-2 products. The quantitative comparisons with ground-based measurements and AURA/OMI ozone product were made over 74 stations, the TOU total ozone retrieval has a 3% rms relative error compared with AURA/OMI ozone product and 4.2% rms relative error with ground-based measurements. The maximum difference between satellite retrieval and ground-based measurements was found in the Antarctica ozone hole. The TOU global ozone product is operational and distributed to all users.

作者 WANG WeiHe ZHANG XingYing AN XingQin ZHANG Yan HUANG FuXiang WANG YongMei WANG YingJian ZHANG ZhongMou LU JianGong FU LiPing JIANG Fang LIU GuoYang

机构地区 Key Laboratory of Radiometric Calibration and Validation for Environmental Satellites National Satellite Meteorological Center Centre for Atmosphere Watch and Services (CA WAS) Center for Space Science and Applied Research Space Star Technology Company Ltd. State Key Laboratory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry (LAPC)

出处《Chinese Science Bulletin》 SCIE EI CAS 2010年第26期3037-3043,共7页

基金 supported by the National High-Tech Research & Development Program of China (2008AA121703) the National Natural Science Foundation of China (40905056) the State Key Labora-tory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry (LAPC-KF-2008-11) Beijing Urban Meteorology Research Fund (UMRF-200704) the 11th Five-Year Plan of National Science and Technology Key Project (2008BAC34B04-2) the National Basic Research Program of China (2005CB422200x and 2006CB403702)

关键词臭氧总量检索结果验证极轨气象卫星时空分布特征地面测量测量数据相对误差 Total Ozone Unit, total column ozone, FY-3 satellite, retrieval, validation

分类号 P421.33 [天文地球—大气科学及气象学] TP311.135.1 [自动化与计算机技术—计算机软件与理论]

引文网络
相关文献

参考文献2

1WANG YongMei,WANG YingJian,WANG WeiHe,ZHANG ZhongMou,LU JianGong,FU LiPing,JIANG Fang,CHEN Ji,WANG JiHong,GUAN FengJun,HUANG FuXiang,ZHANG XingYing.FY-3 satellite Ultraviolet Total Ozone Unit[J].Chinese Science Bulletin,2010,55(1):84-89. 被引量：11
2BIAN Jianchun,WANG Gengchen,CHEN Hongbin,QI Donglin,LUE Daren,ZHOU Xiuji.Ozone mini-hole occurring over the Tibetan Plateau in December 2003[J].Chinese Science Bulletin,2006,51(7):885-888. 被引量：20

二级参考文献15

1董瑶海,孙允珠,王金华,程卫强.FY-3A极轨气象卫星[J].上海航天,2008,25(5):1-11. 被引量：15
2Donald F. Heath,Carlton L. Mateer,Arlin J. Krueger.The Nimbus-4 Backscatter Ultraviolet (BUV) atmospheric ozone experiment — tow years’ operation[J]. Pure and Applied Geophysics PAGEOPH . 1973 (1)
3Beatty M E,Debnam W J,Meredith B R.Effects of 1and 2-MeV Electrons on Photomultiplier Tube. NASA TN D-8125 .
4Du H,Ye Z H.Handbook of Space Environment at Low Spacecraft Or- bit. . 1996
5Herman J R,Bhartia P K,Krueger A J, et al.Meteor-3 total ozone mapping spectrometer (TOMS) data products user’s guide. NASA RP-96-1393 .
6Krueger A J,Bhartia P K,McPeters R D, et al.ADEOS total ozone mapping spectrometer (TOMS) data products user’s guide. NASA TP-98-206857 .
7Heath,D. F.,Kreuger,A. J.,Roeder,H. A.,Henderson,B. D.The solar backscatter ultraviolet and total ozone mapping spectrometer (SBUV/TOMS) for Nimbus G. Optical Engineering . 1975
8Jaross G,Krueger A J,Cebula C,et al.Calibration and postlaunch performance of the METEOR3/TOMS instrument. Journal of Geophysical Research . 1995
9Krueger A J,Jaross G.TOMS/ADEOS instrument characterization. IEEE Transactions on Geoscience and Remote Sensing . 1999
10Richard D.McPeters,,P.K.Bhartia,,Arlin J.Krueger,,Jay R.Herman.Earth Probe Total Ozone Mapping Spectrometer(TOMS).Data Products User’s Guide. NASA Technical Publication1998-206895 . 1998

共引文献28

1CHEN Zeyu,LIU Renqiang,CHEN Hongbin,CHEN Wen,LU Daren,XU Jiyao,HU Xiong.Advances in the Studies of the Middle and Upper Atmosphere in 2004-2006[J].空间科学学报,2006,26(z1):61-70. 被引量：6
2王维和,Law rence E.Flynn,张兴赢,王咏梅,王英鉴,江芳,张艳,黄富祥,李晓静,刘瑞霞,郑照君,WeiYu,刘国扬.臭氧总量探测仪(TOU)与臭氧监测仪(OMI)和SBUV/2的交叉定标及其在环境中的应用[J].气象科技进展,2013,3(4):97-107. 被引量：5
3Wang Jun,Wang Hui-Jun.The Relationship between Total Ozone and Local Climate at Kunming Using Dobson and TOMS Data[J].Atmospheric and Oceanic Science Letters,2010,3(4):207-212.
4胡波,王跃思,刘广仁.Influences of the Clearness Index on UV Solar Radiation for Two Locations in the Tibetan Plateau——Lhasa and Haibei[J].Advances in Atmospheric Sciences,2008,25(5):885-896. 被引量：3
5卞建春.Features of Ozone Mini-Hole Events over the Tibetan Plateau[J].Advances in Atmospheric Sciences,2009,26(2):305-311. 被引量：10
6黄富祥,刘年庆,赵明现.青藏高原对流层臭氧含量变化的太阳周期活动信号分析[J].地球物理学报,2009,52(9):2201-2209. 被引量：4
7HUANG FuXiang,LIU NianQing,ZHAO MingXian,WANG ShuRong,HUANG Yu.Vertical ozone profiles deduced from measurements of SBUS on FY-3 satellite[J].Chinese Science Bulletin,2010,55(10):943-948. 被引量：9
8康世昌,黄杰,张强弓.雪冰中汞的研究进展[J].地球科学进展,2010,25(8):783-793. 被引量：10
9朱士超,银燕,金莲姬,陈倩.青藏高原一次强对流过程对水汽垂直输送的数值模拟[J].大气科学,2011,35(6):1057-1068. 被引量：15
10韩超,申海玉,刘庆.云杉种子萌发和幼苗生长对气候变暖与UV-B辐射增强的响应[J].西北植物学报,2012,32(8):1632-1638. 被引量：4

同被引文献129

1李燕,蔡旭晖,谢飞钦.近年东亚地区臭氧总量的变化趋势[J].环境科学,2002,23(S1):103-105. 被引量：7
2ZHANG XingYing,ZHANG Peng,ZHANG Yan,LI XiaoJing,QIU Hong.The trend, seasonal cycle, and sources of tropospheric NO_(2) over China during 1997―2006 based on satellite measurement[J].Science China Earth Sciences,2007,50(12):1877-1884. 被引量：31
3张鹏,杨虎,邱红,马刚,杨忠东,卢乃锰,杨军.风云三号卫星的定量遥感应用能力[J].气象科技进展,2012,2(4):6-11. 被引量：37
4卞建春,范秋君,严仁嫦.夏季青藏高原对流层-平流层交换过程及其气候效应的若干问题[J].气象科技进展,2013,3(2):22-28. 被引量：13
5杨忠东,卢乃锰,施进明,张鹏,董超华,杨军.风云三号卫星有效载荷与地面应用系统概述[J].气象科技进展,2013,3(4):6-12. 被引量：23
6王维和,Law rence E.Flynn,张兴赢,王咏梅,王英鉴,江芳,张艳,黄富祥,李晓静,刘瑞霞,郑照君,WeiYu,刘国扬.臭氧总量探测仪(TOU)与臭氧监测仪(OMI)和SBUV/2的交叉定标及其在环境中的应用[J].气象科技进展,2013,3(4):97-107. 被引量：5
7黄富祥,黄煜,Lawrence E.Flynn,王维和,曹冬杰,王淑荣.紫外臭氧垂直探测仪(SBUS)辐射定标和反演臭氧垂直廓线验证[J].气象科技进展,2013,3(4):108-115. 被引量：5
8叶宗海,都亨.中国的空间环境研究[J].地球物理学报,1997,40(S1):429-441. 被引量：9
9邹捍,郜永祺.60～70~oS臭氧总量的QBO和ENSO信号[J].气候与环境研究,1997,0(1):62-71. 被引量：6
10杨健,吕达仁.东亚地区平流层、对流层交换对臭氧分布影响的模拟研究[J].大气科学,2004,28(4):579-588. 被引量：29

引证文献12

1王维和,Law rence E.Flynn,张兴赢,王咏梅,王英鉴,江芳,张艳,黄富祥,李晓静,刘瑞霞,郑照君,WeiYu,刘国扬.臭氧总量探测仪(TOU)与臭氧监测仪(OMI)和SBUV/2的交叉定标及其在环境中的应用[J].气象科技进展,2013,3(4):97-107. 被引量：5
2ZHANG Yan,WANG Weihe,LI Xiaojing,ZHANG Xingying,ZHENG Zhaojun,LIU Ruixia.Anomalously low ozone of 1997 and 2011 Arctic spring: Monitoring results and analysis[J].Advances in Polar Science,2012,23(2):82-86. 被引量：5
3卢乃锰,董超华,杨忠东,施进明,张鹏.我国新一代极轨气象卫星(风云三号)工程地面应用系统[J].中国工程科学,2012,14(9):10-19. 被引量：22
4张艳,王维和,张兴赢,LAWRENCE Flynn.北极臭氧年际变化特征及其与极涡的关系[J].遥感学报,2013,17(3):527-540. 被引量：4
5刘成保,王维和,杨磊.FY-3C/臭氧总量探测仪太阳辐照度偏差的修正[J].光学精密工程,2015,23(7):1859-1866. 被引量：4
6张兴赢,周敏强,王维和,李晓静.全球卫星大气成分遥感探测应用进展及其展望[J].科技导报,2015,33(17):13-22. 被引量：18
7张艳,王维和,张兴赢.卫星遥感监测大气臭氧总量分布和变化[J].科技导报,2015,33(17):23-29. 被引量：18
8刘寅,邹晓蕾.卫星臭氧资料的发展与应用[J].气象学报,2016,74(1):1-17. 被引量：2
9赵富强,王维和,邓小波,杨阳.气溶胶指数与臭氧总量的相关性初步研究[J].成都信息工程大学学报,2017,32(2):147-151.
10杨忠东,张鹏,谷松岩,朱爱军,胡秀清,杨军.FY-3卫星应用和发展[J].上海航天,2017,34(4):1-7. 被引量：18

二级引证文献99

1关敏,屈兴之.风云三号气象卫星地面应用系统工程管理实践[J].项目管理技术,2022,20(4):101-105. 被引量：1
2刘欣,杨荫凯,吕昕.中国城市机动化的基本特征及其宏观发展对策研究[J].地理科学进展,2000,19(1):57-63. 被引量：2
3张艳,王维和,张兴赢,LAWRENCE Flynn.北极臭氧年际变化特征及其与极涡的关系[J].遥感学报,2013,17(3):527-540. 被引量：4
4董超华,杨忠东,施进明,张鹏.系统工程方法在风云三号极轨气象卫星地面应用系统工程中的应用[J].中国工程科学,2013,15(10):24-32. 被引量：6
5陈斌,张鹏,张北斗,贾瑞,张芝娟,王天河,周天.An Overview of Passive and Active Dust Detection Methods Using Satellite Measurements[J].Journal of Meteorological Research,2014,28(6):1029-1040. 被引量：4
6张兴赢,周敏强,王维和,李晓静.全球卫星大气成分遥感探测应用进展及其展望[J].科技导报,2015,33(17):13-22. 被引量：18
7张艳,王维和,张兴赢.卫星遥感监测大气臭氧总量分布和变化[J].科技导报,2015,33(17):23-29. 被引量：18
8刘寅,邹晓蕾.卫星臭氧资料的发展与应用[J].气象学报,2016,74(1):1-17. 被引量：2
9杨凯,宋梦洁,陈晓婷.浅述遥感技术在环境监测中的运用[J].安徽农学通报,2016,22(13):130-131. 被引量：1
10张媛媛,贾树泽,屈兴之,赵现纲,马友,田思维.风三地面应用系统运维辅助系统设计[J].软件导刊,2016,15(9):60-62. 被引量：1

1Lszl Boz,朱志辉.匈牙利19世纪的对流层臭氧测量[J].人类环境杂志,1995,24(2):129-130.
2闻.Aura——了解地球大气的健康[J].遥感信息,2004,26(3):52-52.
3杨云亭.山西六石山铁矿地质特征及成因初探[J].华北国土资源,2016(3):66-68.
4张秀年,常有礼,陈辉,郭世昌,孙正友.VARIATION OF TOTAL OZONE IN LOWER LATITUDE AREA OF CHINA[J].Journal of Tropical Meteorology,2004,10(2):171-177.
5刘忆冰.玩家灯效华硕B150PROGAM-NG／AURA主板[J].微型计算机,2016,0(7):52-53.
6刘厚泉,茅兵,谢立.GOM:一个CSCW设计模型[J].计算机科学,1998,25(6):9-13. 被引量：2
7柳颖,谢立,曹建农.面向图结构的分布式程序设计模型GOM[J].计算机学报,1998,21(1):18-25. 被引量：4
8行.变废为宝 GOM Player专播不完整影片[J].电脑迷,2006,0(22):61-61.
9王志军.不妨试试GOM Player[J].电脑迷,2006,0(8):72-72.
10陈斌,施晓晖,徐祥德,张胜军.利用卫星大气成分资料分析夏季亚洲季风区平流层-对流层输送特征[J].高原气象,2011,30(1):65-73. 被引量：6

Chinese Science Bulletin

2010年第26期

浏览历史

内容加载中请稍等...