JpGU-AGU Joint Meeting 2017

Presentation information

[EE] Poster

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

[A-AS09] [EE] Stratosphere - Troposphere Interaction

Wed. May 24, 2017 10:45 AM - 12:15 PM Poster Hall (International Exhibition Hall HALL7)

convener:Nawo Eguchi(Kyushu University), Rei Ueyama(NASA Ames Research Center), Sean M Davis(NOAA Boulder), Seok Woo Son(Seoul National University)

[AAS09-P09] Seasonal variations and trends of greenhouse gases in the upper troposphere/lowermost stratosphere by flask-based aircraft measurements between Europe and Japan

*Yousuke Sawa1, Toshinobu Machida2, Hidekazu Matsueda1, Yosuke Niwa1, Kazuhiro Tsuboi1, Keiichi Katsumata2, Taku Umezawa2, Hiroki Eto3, Ryo Fujita4, Daisuke Goto5, Shinji Morimoto4, Shuji Aoki4 (1.Oceanography and Geochemistry Research Department, Meteorological Research Institute, 2.National Institute for Environmental Studies, 3.Japan Airlines, 4.Tohoku University, 5.National Institute of Polar Research)

Keywords:Greenhouse gases, Upper troposphere/Lower Stratosphere, Aircraft measurement

As part of the CONTRAIL project, we have conducted measurements of greenhouse gases (CO2, CH4, N2O, and SF6) by monthly air sampling in the upper troposphere/lowermost stratosphere (UT/LMS) onboard commercial airliners between Europe and Japan since April 2012. The observed mixing ratios showed sharp gradients around the dynamical tropopause defined by potential vorticity calculated from the meteorological reanalysis fields. In the UT north of 50 N, CH4 and SF6 were higher and seasonal phase of CO2 were earlier than in the lower latitudes. In the LMS up to potential temperature of 50 K above the tropopause, CH4, N2O, and SF6 exhibited seasonal variations with maxima in November/December and minima in April/May. The remarkable seasonal variation in the LMS is explained by the subsidence of air from the deeper stratosphere in spring and by the efficient flushing of the LMS with tropospheric air in autumn. We observed persistent increasing trends of the all greenhouse gases over the past 5 years both in the UT and LMS. Our measurements constitute a unique data set in the UT/LMS useful for investigating temporal and spatial variations of these radiatively and chemically important greenhouse gases.