Greenhouse gases Observing SATellite (GOSAT) is the first satellite that was dedicated to the global observations of CO₂ and CH₄, and was launched on January 23, 2009. CH₄ profiles can be retrieved from the thermal infrared (TIR) band of Thermal and Near-infrared Sensor for Carbon Observation Fourier Transform Spectrometer (TANSO-FTS) on board the GOSAT. In this study, we compared CH₄ data from the TIR band of TANSO-FTS with CH₄ data from Nonhydrostatic ICosahedral Atmospheric Model-based Transport Model (NICAM-TM) [Niwa et al., 2011] and aircraft measurements to evaluate the quality of the TIR CH₄ data. First, we compared TIR, NICAM-TM, and CONTRAIL/GRENE CH₄ data [Sawa et al., 2015] on the isentropic surfaces in the upper troposphere and lower stratosphere. Second, we compared TIR CH₄ data with JMA aircraft CH₄ measurement data over Minamitorishima [Niwa et al., 2014] in the upper and middle troposphere. Here, we adopted a distance between TANSO-FTS and the aircraft measurement locations within ±3 degree and a time difference between the two observations within ±3 days as criteria for the comparisons.
From the isentropic analysis, we found that the CONTRAIL/GRENE CH₄ concentrations showed a large seasonal variation in the lower stratosphere, while the TIR CH₄ data had higher concentrations there than the CONTRAIL/GRENE data and showed a relatively small seasonal variation; the seasonal variation of the NICAM-TM CH₄ data were smaller than that of the TIR data. From the profile comparisons over Minamitorishima, we found that the TIR and aircraft CH₄ data agreed to each other within 30 ppb at around 6 km in winter and spring, while their differences increased to 30 – 50 ppb in summer. We also investigated the impact of the coincident criteria on the comparisons results. Besides, we analyzed latitudinal distribution of TIR and aircraft CH₄ data in the upper troposphere between Atsugi and Minamitorishima.

Acknowledgements
CONTRAIL/GRENE flask sampling data over Siberia was conducted under the GRENE Arctic Climate Change Research Project. Aircraft measurements between Atsugi and Minamitorishima were conducted by the Japan Meteorological Agency.