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Title: Potential Vorticity of Saturn's Polar Regions: Seasonality and Instabilities
Authors: Antuñano, A
del Río-Gaztelurrutia, T
Sánchez-Lavega, A
Read, PL
Fletcher, LN
First Published: 11-Jan-2019
Publisher: American Geophysical Union (AGU), Wiley
Citation: Journal of Geophysical Research: Planets, 2019, 124(1), pp. 186-201
Abstract: We analyze the potential vorticity of Saturn's polar regions, as it is a fundamental dynamical tracer that enables us to improve our understanding of the dynamics of these regions and their seasonal variability. In particular, we present zonally averaged quasi-geostrophic potential vorticity maps between 68° planetographic latitude and the poles at altitudes between 500 and 1 mbar for three different epochs: (i) June 2013 (early northern summer) for the north polar region, (ii) December 2008 (late northern winter) for both polar regions, and (iii) October 2006 (southern summer) for the south, computed using temperature profiles retrieved from Cassini Composite Infrared Spectrometer data and wind profiles obtained from Cassini's Imaging Science Subsystem. The results show that quasi-geostrophic potential vorticity maps are very similar at all the studied epochs, showing positive vorticities at the north and negative at the south, indicative of the dominance of the Coriolis parameter 2Ωsinϕ at all latitudes, except near the pole. The meridional gradients of the quasi-geostrophic potential vorticity show that dynamical instabilities, mainly due to the barotropic term, could develop at the flanks of the Hexagon at 78°N, the jet at 73.9°S, and on the equatorward flank of both polar jets. There are no differences in potential vorticity gradients between the two hemispheres that could explain why a hexagon forms in the north and not in the south. No seasonal variability of the potential vorticity and its meridional gradient has been found, despite significant changes in the atmospheric temperatures over time.
DOI Link: 10.1029/2018JE005764
ISSN: 2169-9097
eISSN: 2169-9100
Version: Publisher Version
Status: Peer-reviewed
Type: Journal Article
Rights: Copyright © 2019, American Geophysical Union (AGU), Wiley. Deposited with reference to the publisher’s open access archiving policy. (
Description: The data for this paper are available at Antuñano et al. (2015), García‐Melendo et al. (2011), Sánchez‐Lavega et al. (2006), and Fletcher et al. (2015, 2016).
Appears in Collections:Published Articles, Dept. of Physics and Astronomy

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