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Intense polar temperature inversion in the middle atmosphere on Mars

Authors :
Nicholas G. Heavens
S. B. Calcutt
Nicholas A Teanby
Stephen R. Lewis
Richard W. Zurek
Armin Kleinböhl
W. G. Lawson
Fredric W. Taylor
Don Banfield
Oded Aharonson
Patrick G. J. Irwin
John T. Schofield
Mark I. Richardson
Peter L. Read
Daniel J. McCleese
David M. Kass
W. A. Abdou
Conway B. Leovy
David A. Paige
Source :
Nature Geoscience. 1:745-749
Publication Year :
2008
Publisher :
Springer Science and Business Media LLC, 2008.

Abstract

Current understanding of weather, climate and global atmospheric circulation on Mars is incomplete, in particular at altitudes above about 30 km. General circulation models for Mars are similar to those developed for weather and climate forecasting on Earth and require more martian observations to allow testing and model improvements. However, the available measurements of martian atmospheric temperatures, winds, water vapour and airborne dust are generally restricted to the region close to the surface and lack the vertical resolution and global coverage that is necessary to shed light on the dynamics of Mars middle atmosphere at altitudes between 30 and 80 km (ref.7). Here we report high-resolution observations from the Mars Climate Sounder instrument on the Mars Reconnaissance Orbiter. These observations show an intense warming of the middle atmosphere over the south polar region in winter that is at least 10-20 K warmer than predicted by current model simulations. To explain this finding, we suggest that the atmospheric downwelling circulation over the pole, which is part of the equator-to-pole Hadley circulation, may be as much as 50 more vigorous than expected, with consequences for the cycles of water, dust and CO"2 that regulate the present-day climate on Mars. © 2008 Macmillan Publishers Limited.

Details

ISSN :
17520908 and 17520894
Volume :
1
Database :
OpenAIRE
Journal :
Nature Geoscience
Accession number :
edsair.doi.dedup.....93205f90a34d4b3592edb2009c8c80e0
Full Text :
https://doi.org/10.1038/ngeo332