JpGU-AGU Joint Meeting 2020

Presentation information

[E] Poster

A (Atmospheric and Hydrospheric Sciences ) » A-AS Atmospheric Sciences, Meteorology & Atmospheric Environment

[A-AS07] Atmospheric Chemistry

convener:Naoko Saitoh(Center for Environmental Remote Sensing), Tomoki Nakayama(Graduate School of Fisheries and Environmental Sciences, Nagasaki University), Sakae Toyoda(Department of Chemical Science and Engineering, Tokyo Institute of Technology), Risa Uchida(Japan Automobile Research Institute)

[AAS07-P09] Short-term variations of HCl and HF trends observed with FTIR at Tsukuba

*Isao Murata1, Yoshihiro Tomikawa2,3, Isamu Morino4, Hideaki Nakajima4, Hideharu Akiyoshi4 (1.Graduate School of Environmental Studies, Tohoku University, 2.National Institute of Polar Research, 3.The Graduate University for Advanced Studies, SOKENDAI , 4.National Institute for Environmental Studies)

Keywords:FTIR, Ozone depletion, Chlorine compounds

HCl is a main chlorine reservoir species in the stratosphere. The amount of HCl is a good indicator of the potential for ozone depletion. Observed total column of HCl was decreasing in the 2000s after CFC regulations were introduced but showed increase from 2007 to 2011. Mahieu et al. [2014] investigated that this increase is due to interannual dynamical variability in the northern stratosphere from Fourier Transform Infrared spectrometer (FTIR) observations at 8 sites including Tsukuba and 3D-chemical transport model simulations.
In this study we extended the analysis of HCl total column observed with FTIR at Tsukuba to 2018 and HF total column was also anlyzed. HF is a good tracer of atmospheric transport. The temporal variation of HCl and HF total columns showed decrease again from 2011 to 2014 then increase from 2015 to 2018. Mass stream function was calculated from ERA-Interim meteorological data to confirm that these temporal variations are also due to stratospheric circulation change. The difference of the mass stream function between the average of 2003 - 2006 and the average of 2007 - 2010 shows negative values in the northern lower stratosphere. This means the deceleration of circulation and it is consistent with the result of Mahieu et al. [2014]. The difference between the average of 2007 - 2010 and the average of 2011 - 2014 shows positive values in the northern lower stratosphere that means the acceleration of circulation. These changes correspond to the HCl and HF temporal variation. Thus we confirm that the temporal variation of HCl and HF is basically due to stratospheric circulation change.
The situation is somewhat different for the period after 2015. The difference of mass stream function between the average of 2011 - 2014 and the average of 2015 - 2018 shows negative values in the northern lower stratosphere again and this is also consistent with the increase of HCl and HF total columns after 2015. However, MIROC3.2 Chemistry-Climate Model (CCM) results show that the decrease rates of HCl and HF became lower but continue to decrease after 2015. This means that the circulation change after 2015 isn't enough to explain the trend reversal and there are some possibility that the emission change in CFC-11 affects the increase of HCl and HF after 2015.