Vertical profiles of carbon dioxide (CO₂) concentration have been retrieved from thermal infrared spectra obtained by thermal infrared (TIR) band of TANSO-FTS (Thermal And Near-infrared Sensor for carbon Observation – Fourier Transform Spectrometer) on board GOSAT (Greenhouse gases Observing SATellite) [Saitoh et al., 2016]. In this study, we have calculated increases in CO₂ concentration from 2010 to 2012 in each retrieval layer from surface to 161.56 hPa in the globe using the vertical CO₂ profile data.
Saitoh et al. [2016, 2017] reported that the TANSO-FTS TIR original CO₂ concentration data had negative biases. Therefore, we have corrected the biases by the bias correction values evaluated through comparisons of TANSO-FTS TIR CO₂ data and CO₂ data obtained by CME (Comprehensive CO₂ Measurement Equipment) of CONTRAIL (Comprehensive Observation Network for Trace gases by Airliner) project [Machida et al., 2008]. Then, we have calculated increases in CO₂ concentration from 2010 to 2012 using the method of Nakazawa et al. [1998]. The calculated increasing rate of the TIR bias-corrected CO₂ data were generally ~0.1-0.6 ppmv/yr larger than that of the original CO₂ data.
Our results show that increases in CO₂ concentration in the UTLS (upper troposphere and lower stratosphere) region were larger than those in the LTMT (lower and middle troposphere) region in most of the analysis regions. In the European region, for example, the CO₂ increase on ~260 hPa was 1.95 ppmv/yr, while the increase on ~800 hPa was 1.56 ppmv/yr. This may be attributed to the difference in the bias correction methods for the TIR CO₂ data between UTLS and LTMT regions; it is suggested that biases in the original TIR CO₂ data in LTMT were not corrected sufficiently.