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Interhemispheric Coupling Study by Observations and Modelling (ICSOM): Concept, Campaigns, and Initial Results

K. Sato, Yoshihiro Tomikawa, Masashi Kohma, Ryosuke Yasui, Dai Koshin, Haruka Okui, Shingo Watanabe, Kazuyuki Miyazaki, Masaki Tsutsumi, D. J. Murphy, C. E. Meek, Yufang Tian, Manfred Ern, Gerd Baumgarten, Jorge L. Chau, Xinzhao Chu, R. L. Collins, P. J. Espy, Hiroyuki Hashiguchi, A. J. Kavanagh, Ralph Latteck, Franz‐Josef Lübken, Marco Milla, Satonori Nozawa, Yasunobu Ogawa, K. Shiokawa, M. Joan Alexander, Takuji Nakamura, W. E. Ward

2023Journal of Geophysical Research Atmospheres12 citationsDOIOpen Access PDF

Abstract

Abstract An international joint research project, entitled Interhemispheric Coupling Study by Observations and Modelling (ICSOM), is ongoing. In the late 2000s, an interesting form of interhemispheric coupling (IHC) was discovered: when warming occurs in the winter polar stratosphere, the upper mesosphere in the summer hemisphere also becomes warmer with a time lag of days. This IHC phenomenon is considered to be a coupling through processes in the middle atmosphere (i.e., stratosphere, mesosphere, and lower thermosphere). Several plausible mechanisms have been proposed so far, but they are still controversial. This is mainly because of the difficulty in observing and simulating gravity waves (GWs) at small scales, despite the important role they are known to play in middle atmosphere dynamics. In this project, by networking sparsely but globally distributed radars, mesospheric GWs have been simultaneously observed in seven boreal winters since 2015/16. We have succeeded in capturing five stratospheric sudden warming events and two polar vortex intensification events. This project also includes the development of a new data assimilation system to generate long‐term reanalysis data for the whole middle atmosphere, and simulations by a state‐of‐the‐art GW‐permitting general circulation model using the reanalysis data as initial values. By analyzing data from these observations, data assimilation, and model simulation, comprehensive studies to investigate the mechanism of IHC are planned. This paper provides an overview of ICSOM, but even initial results suggest that not only GWs but also large‐scale waves are important for the mechanism of the IHC.

Topics & Concepts

StratosphereMesosphereData assimilationAtmosphere (unit)Polar vortexClimatologyThermosphereEnvironmental scienceNorthern HemisphereGravity waveAtmospheric sciencesSudden stratospheric warmingClimate modelMeteorologyGeologyClimate changeGravitational wavePhysicsGeophysicsIonosphereAstronomyOceanographyAtmospheric Ozone and ClimateIonosphere and magnetosphere dynamicsAtmospheric and Environmental Gas Dynamics