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한반도 지역에서의 이산화탄소 변화 경향과 AIRS, GOSAT 위성 자료의 정확도 비교
이상희 ( Sang Hee Lee ),김준 ( Jhoon Kim ),조희구 ( Hi Ku Cho ),구태영 ( Tae Young Goo ),오미림 ( Mi Lim Ou ),이종호 ( Jong Ho Lee ),( Tatsuya Yokota ) 대한원격탐사학회 2015 大韓遠隔探査學會誌 Vol.31 No.6
With the global scale impact of atmospheric CO2 in global warming and climate system, it is necessary to monitor the CO2 concentration continuously on a global scale, where satellite remote sensing has played a significant role recently. In this study, global monthly CO2 concentrations obtained by satellite remote sensing were compared with ground-based measurements at Anmyeon-do and Gosan Korean Global Atmosphere Watch Center. Atmospheric CO2 concentration has increased from 371.87 ppm in January 1999 to 405.50 ppm in December 2013 at Anmyeon-do station (KMA, 2013). Comparison of the continuous measurements by flask air sampling at Anmyeon-do shows the same trend and seasonal variations with those of global monthly mean dataset. Nevertheless, the trends of CO2 over Northeast Asia showed the higher than those of global and the trends also changes with different slope. CO2 products derived from Greenhouse Gases Observing Satellite (GOSAT) and Atmospheric Infrared Sounder (AIRS) were compared with ground-based measurement at Anmyeon-do. The monthly mean values of GOSAT and AIRS data are systemically lower than those obtained at Anmyeon-do, however, the seasonal cycle of satellite products present the similar trend with values of global and Anmyeon-do. The accuracy of CO2 products from GOSAT and AIRS were evaluated statistically for two years from January 2011 to December 2012. GOSAT showed good correlation with the correlation coefficient, RMSD and bias of 0.947, 5.610 and -5.280 to ground-based measurements respectively, while AIRS showed reasonable comparison with 0.737, 8.574 and -7.316 at Anmyeon-do station, respectively.