Longitudinal hotspots in the mesospheric OH variations due t
Details of Research
TitleLongitudinal hotspots in the mesospheric OH variations due to energetic electron precipitationAbstractUsing Microwave Limb Sounder (MLS/Aura) and Medium Energy Proton and Electron Detector (MEPED/POES) observations between 2005-2009, we study the longitudinal response of nighttime mesospheric OH to radiation belt electron precipitation. Our analysis concentrates on geomagnetic latitudes from 55-72 N/S and altitudes between 70 and 78 km. The aim of this study is to better assess the spatial distribution of electron forcing, which is important for more accurate modelling of its atmospheric and climate effects. In the Southern Hemisphere, OH data show a hotspot, i.e. area of higher values, at longitudes between 150 W-30 E, i.e. poleward of the Southern Atlantic Magnetic Anomaly (SAMA) region. In the Northern Hemisphere, energetic electron precipitation-induced OH variations are more equally distributed with longitude. This longitudinal behaviour of OH can also be identified using Empirical Orthogonal Function analysis, and is found to be similar to that of MEPED-measured electron fluxes. The main difference is in the SAMA region, where MEPED appears to measure very large electron fluxes while MLS observations show no enhancement of OH. This indicates that in the SAMA region the MEPED observations are not related to precipitating electrons, at least not at energies >100 keV, but rather to instrument contamination. Analysis of selected OH data sets for periods of different geomagnetic activity levels shows that the longitudinal OH hotspot south of the SAMA (the Antarctic Peninsula region) is partly caused by strong, regional electron forcing, although atmospheric conditions also seem to play a role. Also, a weak signature of this OH hotspot is seen during periods of generally low geomagnetic activity, which suggests that there is a steady drizzle of high-energy electrons affecting the atmosphere, due to the Earth's magnetic field being weaker in this region. Â© Author(s) 2014.
1st AuthorAndersson, M. AuthorAndersson, M.Verronen, P.Rodger, C.Clilverd, M.Wang, S.Year2014JournalAtmospheric Chemistry and PhysicsVolume14Number2DOI10.5194/acp-14-1095-2014URLhttps://www.scopus.com/inward/recor.....211eb9fd91aa222cb1b64b4e9Keywordselectromagnetic waveelectrongeomagnetic fieldhydroxidemesospheremicrowave limb sounder
CitationAndersson, M., Verronen, P., Rodger, C., Clilverd, M. and Wang, S. (2014). Longitudinal hotspots in the mesospheric OH variations due to energetic electron precipitation. Atmospheric Chemistry and Physics, 14(2)
Antarctica NZ (26th Nov 2018). Longitudinal hotspots in the mesospheric OH variations due t . In Website Antarctica NZ. Retrieved 12th Jul 2020 07:07, from https://adam.antarcticanz.govt.nz/nodes/view/64237