A comparative analysis between land surface temperature and outgoing long wave radiation based on the application of earthquake monitoring
JING Feng1, SHEN Xuhui1, KANG Chunli2, XIONG Pan1
1. Institute of Earthquake Science, China Earthquake Administration, Beijing 100036, China;
2. China Earthquake Networks Center, China Earthquake Administration, Beijing 100045, China
Land surface temperature (LST) and outgoing long wave radiation (OLR), which are commonly used in seismic monitoring, were compared and analyzed from their own characteristics and seismic applications. The analytical results of the global data show that LST and OLR at high latitudes and mid-latitudes have the consistency in spatial distribution, but show a significant difference in equatorial and low-latitude regions, and this difference is closely related to the global total cloud amount. The results of feature points selected according to the cloudiness distribution in China's mainland show that LST and OLR have poor synchronization in the region whose cloud amount is greater than 65% and show better synchronization in the region whose cloud amount is less than 65%. On such a basis, the authors selected Qinghai region where the synchronization is relatively good and mid-south China where the synchronization is poor as the test areas. The results achieved show that the spatial, temporal and intensity characteristics of two types of data can be either identical or different, as shown by the comparison between the two computing results using the vorticity method. LST mainly reflects the warming temperature phenomenon whereas OLR is focused on a comprehensive reflection of the whole earth-atmosphere system.
荆凤, 申旭辉, 康春丽, 熊攀. 基于地震监测应用的地表温度和长波辐射数据对比分析[J]. 国土资源遥感, 2015, 27(1): 81-86.
JING Feng, SHEN Xuhui, KANG Chunli, XIONG Pan. A comparative analysis between land surface temperature and outgoing long wave radiation based on the application of earthquake monitoring. REMOTE SENSING FOR LAND & RESOURCES, 2015, 27(1): 81-86.
[1] Gorny V I,Sal'man A G,Tronin A A,et al.Outgoing infrared radiation of the earth as an indicator of seismic activity [J].Proc Acad Sci USSR,l988,30(1):67-69.[2] 刘德富,罗灼礼,彭克银.强烈地震前的OLR异常现象[J].地震,1997,17(2):126-132. Liu D F,Luo Z L,Peng K Y.OLR anomalous phenomena before strong earthquakes[J].Earthquake,1997,17(2):126-132.[3] 康春丽,刘德富,陈艳,等.长波辐射(OLR)信息预测华北地震的方法研究[J].西北地震学报,2006,28(1):59-63. Kang C L,Liu D F,Chen Y,et al.Research on earthquake prediction method in North China using outgoing-longwave-radiation information[J].Northwestern Seismological Journal,2006,28(1):59-63.[4] Dey S,Singh R P.Surface latent heat flux as an earthquake precursor [J].Natural Hazards and Earth System Sciences,2003,3:749- 755.[5] Chen M H,Deng Z H,Ma X J.Probable surface latent heat flux anomalies before the 2010 Chile Ms 8.8 earthquake and its relationship to the variations of surface temperature[J].Chinese Journal of Geophysics,2011,54(7):1738-1744.[6] 刘善军,吴立新,李金平,等.台湾恒春地震前的卫星热红外异常特征及其机理[J].科技导报,2007,25(6):32-37. Liu S J,Wu L X,Li J P,et al.Features and mechanisms of the satellite thermal infrared anomaly before Hengchun earthquake in Taiwan region[J].Science & Technology Review,2007,25(6):32-37.[7] 杨青生,刘闯.MODIS数据陆面温度反演研究[J].遥感技术与应用,2004,19(2):90-94. Yang Q S,Liu C.Retrieving land surface temperature from MODIS data[J].Remote Sensing Technology and Application,2004,19(2):90-94.[8] George O,Arnold G,Robert E.Satellite determinations of the relationship between total longwave radiation flux and infrared window radiance[J].Journal of Climate and Applied Meteorology,1984,23(3):416-425.[9] Dobrovolsky I P,Zubkov S I,Miachkin V I.Estimation of the size of earthquake preparation zones[J].Pure and Applied Geophysics,1979,117(5):1025-1044.[10] 王旻燕,王伯民.ISCCP产品和我国地面观测总云量差异[J].应用气象学报,2009,20(4):411-418. Wang M Y,Wang B M.Total cloud amount difference between ISCCP product and ground observation over China[J].Journal of Applied Meteorological Science,2009,20(4):411-418.[11] 高蓉,陈少勇,董安祥.青藏高原低云量的年际变化及其稳定性[J].干旱区研究,2007,24(6):760-765. Gao R,Chen S Y,Dong A X.Study on the annual change and stability of low-cloud amount over the Qinghai-Tibetan plateau[J].Arid Zone Research,2007,24(6):760-765.[12] Jing F,Gu X F,Shen X H.Study on outgoing longwave radiation variations associated with strong earthquake[C]//Ma X R,Yang B H,Li M.International Conference on Space Information Technology 2009.Beijing:International Society for Optics and Photonics,2009:765113-765113-6.[13] Rawat V,Saraf A K,Das J,et al.Anomalous land surface temperature and outgoing long-wave radiation observations prior to earthquakes in India and Romania[J].Natural Hazards,2011,59(1):33-46.[14] Ouzounov D,Liu D F,Chunli K,et al.Outgoing long wave radiation variability from IR satellite data prior to major earthquakes[J].Tectonophysics,2007,431(1-4):211-220.[15] Ouzounov D,Bryant N,Logan T,et al.Satellite thermal IR phenomena associated with some of the major earthquakes in 1999–2003[J].Physics and Chemistry of the Earth,Parts A/B/C,2006,31(4-9):154-163.[16] 吴立新,刘善军,陈云浩,等.汶川地震前卫星热红外异常与云异常现象[J].科技导报,2008,26(10):32-36. Wu L X,Liu S J,Chen Y H,et al.Satellite thermal infrared and cloud abnormities before wenchuan earthquake[J].Science and Technology Review,2008,26(10):32-36.[17] Dey S,Sarkar S,Singh R P.Anomalous changes in column water vapor after Gujarat earthquake[J].Advances in Space Research,2004,33(3):274-278.[18] Pulinets S A,Dunajecka M A.Specific variations of air temperature and relative humidity around the time of Michoacan earthquake M 8.1 Sept 19,1985 as a possible indicator of interaction between tectonic plates[J].Tectonophysics,2007,431(1-4):221-230.