期刊文献+

水体表面温度反演研究综述 被引量:7

Review on Remote Sensing Retrieval of Water Surface Temperature
原文传递
导出
摘要 水体表面温度是研究全球或区域气候变化、数值天气预报的重要参数,是控制水体与大气热量、水分交换的重要变量,对理解水体生物物理过程具有重要意义。卫星观测水表温度具有传统手段不可比拟的技术优势,同时也存在精度和质量上的限制和挑战。本文总结了观测水表温度常用的红外、微波传感器及其分辨率特征,并比较分析了各类传感器的优势、劣势和分辨率适用的时空尺度;在区别不同手段观测的水表温度基础上,分别概述了红外遥感和微波遥感反演水表温度的理论基础,以及常用的算法模型;基于水表温度反演的原理和过程,系统分析了云、水汽、气溶胶、比辐射率等不确定性因素,对反演精度的影响及解决方法,并对精度验证方法做了简单介绍;最后,对水体表面温度反演的发展趋势进行了展望,并指出多源数据的同化融合、优势互补是提升水温反演精度的重要途径。 Water surface temperature(including sea surface temperature and lake water surface temperature) is a key parameter for studying global or regional climate change and numerical weather prediction(NWP), as well as being an essential controlling variable in the exchange of heat, moisture and gases between water surface and atmosphere. It has important significance for understanding the biophysical processes of water body. Satellite measurements of water surface temperature are well established with 30 years' collection of practical data and have incomparable advantages over traditional observations. Their limitations and challenges are also identified at the same time. There are more than 30 types of infrared/microwave radiometers which can be used for measuring SST/LWST, and their resolutions, advantages and disadvantages are summarized and compared in this paper.SST/LWST measurements depend on a combination of atmospheric properties and water surface radiances.Therefore, it is necessary to adjust and correct the atmospheric effect and water surface processes. The basic principles and the main types of algorithms for water surface temperature inversion using infrared and microwave data are illuminated and reviewed briefly. There are many uncertainties associated with SST/LWST measurements,and the magnitude of these uncertainties has put restrictions on the application or interpretation of SST/LWST measurements. A detailed analysis about these uncertainties in both infrared and microwave SST/LWST retrieval including undetected cloud, water vapor, aerosols, emissivity and skin effect is conducted. In order to determine the uncertainties in satellite-derived surface temperature, the validation of surface temperature retrieval is an indispensable step. Finally, a prospection about the trend of water surface temperature retrieval is proposed. Additionally, a strategy is advised for assimilating measurements from multi- sensor data in order to take the advantage of their complementary strengths.
出处 《地球信息科学学报》 CSCD 北大核心 2015年第8期969-978,共10页 Journal of Geo-information Science
基金 国家自然科学基金项目"富营养化水体的比辐射率测定及其红外水温遥感反演"(41371363) 国家自然科学基金项目"浅水下垫面光学效应与水体水质光学辐射传输模型研究"(40701126)
关键词 水体表面温度 遥感定量反演 红外 微波 不确定性分析 water surface temperature RS quantitative inversion infrared microwave uncertainty analysis
  • 相关文献

参考文献45

  • 1Minnett P J, Barton I J. Remote sensing of the Earth´s surface temperature:Radiometric temperature measurements: II Applications[A]. In: Zhang Z M, Tsai B K, Machin G(eds.). Experimental Methods in the Physical Sciences, Vol 43[M]. Salt Lake City: Academic Press, 2010.
  • 2Merchant C J, Matthiesen S, Rayner N A, et al . The surface temperatures of the earth: steps towards integrated understanding of variability and change[J]. Geoscientific Instrumentation Methods and Data Systems, 2013,3:305-345.
  • 3Walton C C, Pichel W G, Sapper J F. The development and operational application of nonlinear algorithms for the measurement of sea surface temperatures with the NOAA polar-orbiting environmental satellites[J]. Journal of Geophysical Research, 1998,103(C12):27999-28012.
  • 4Merchant C J, Harris A R, Maturi E, et al . Sea surface temperature estimation from the Geostationary Operational Environmental Satellite-12 (GOES-12)[J]. Journal of Atmospheric and Oceanic Technology, 2009,26:570-581.
  • 5Karagali I, Hyer J L, Hasager C B. SST diurnal variability in the North Sea and the Baltic Sea[J]. Remote Sensing of Environment, 2012,121:159-170.
  • 6Chelton D B, Wentz F J. Global microwave satellite observations of sea surface temperature for numerical weather prediction and climate research[J]. Bulletin of the American Meteorological Society, 2005,86:1097-1115.
  • 7Hosoda K. A review of satellite-based microwave observations of sea surface temperatures[J]. Journal of Oceanography, 2010,66:430-473.
  • 8Bloszies C, Forman S L. Potential relation between equatorial sea surfacetemperaturesand historic water level variability for LakeTurkana, Kenya[J]. Journal of Hydrology, 2015,520:489-501.
  • 9罗晓凡,魏皓,袁承仪.利用卫星资料分析黄海海表温度的年际与年代际变化[J].中国海洋大学学报(自然科学版),2012,42(10):19-25. 被引量:8
  • 10Committee for Earth Observation Satellites. The Earth Observation Handbook[DB/OL]. http://www.eohandbook.com/,2014-8.

二级参考文献17

  • 1李春,方之芳.北极涛动与东北冬季温度的联系[J].高原气象,2005,24(6):927-934. 被引量:40
  • 2李娜,孙凤琴,张彩云,商少凌,洪华生.台湾海峡及其邻近海域AVHRR遥感SST的初步验证[J].厦门大学学报(自然科学版),2006,45(3):383-387. 被引量:16
  • 3王遵娅,丁一汇.近53年中国寒潮的变化特征及其可能原因[J].大气科学,2006,30(6):1068-1076. 被引量:298
  • 4赵保仁.黄海冷水团锋面与潮混合[J].海洋与湖沼,1985,16(6):451-460.
  • 5Kilpatrick K A, Podesta G P, Evans R. Over view of the NOAA/ NASA advanced very high resolution radiometer Pathfinder algo- rithm for sea surface temperature and associated matchup database [J]. Journal of Geophysical Research, 2001, 106(C5): 9179- 9197.
  • 6Qiu Chunhua, Wang Dongxiao, Kawamura Hiroshi, et al. Valida tion of AVHRR and TMI-derived sea surface temperature in the northern South China Sea[J]. Continental Shelf Research, 2009 , 29: 2358-2366.
  • 7Rodionov S, Overland J E. Application of sequenlial regime shift detection method to the Bering Sea ecosystem [J].ICES Journal ofMarine Science, 2005, 62:328 - 332.
  • 8Wei Hao, Shi Jie, Lu Youyu, et al. Interannual and long-term hydrographic changes in the Yellow Sea during 1977-1998[J]. Deep-Sea Research II: 2010, 57: 1025-1034.
  • 9Tian Yongjun, Kidokoro Hideaki, Watanabe Tatsuro, et al. The late 1980s regime shift in the ecosystem of Tsushima warm cur- rent in the Japan/East Sea: Evidence from historical data and possible mechanisms [J]. Progress in Oceanography, 2008, 77: 127-145.
  • 10Wu Bingyi, Wang Jia. Possible impacts of winter Arctic oscilla- tion on Siberian high,'the east Asian winter monsoon and sea ice extent[J]. Advances in Atmospheric Sciences, 20021 19:297 -230.

共引文献9

同被引文献74

引证文献7

二级引证文献14

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部