posted on 2023-01-25, 11:26authored byGS Orton, A Antuñano, LN Fletcher, JA Sinclair, TW Momary, T Fujiyoshi, P Yanamandra-Fisher, PT Donnelly, JJ Greco, AV Payne, KA Boydstun, LE Wakefield
An essential component of planetary climatology is knowledge of the tropospheric temperature field and its variability. Previous studies of Jupiter hinted at non-seasonal periodic behaviour, as well as the presence of a dynamical relationship between tropospheric and stratospheric temperatures. However, these observations were made over time frames shorter than Jupiter’s orbit or they used sparse sampling. Here we derive upper-tropospheric (330-mbar) temperatures over 40 years, covering several orbits of Jupiter. Periodicities of 4, 7–9 and 10–14 years were discovered that involve different latitude bands and seem disconnected from seasonal changes in solar heating. Anticorrelations of variability in opposite hemispheres were particularly striking at 16°, 22° and 30° from the equator. Equatorial temperature variations are also anticorrelated with those observed 60–70 km above. Such behaviour suggests a top-down control of equatorial tropospheric temperatures from stratospheric dynamics. Realistic future global climate models must address the origins of these variations in preparation for their extension to a wider array of gas giant exoplanets.
History
Author affiliation
Department of Physics and Astronomy, University of Leicester
Correction to: Nature Astronomy https://doi.org/10.1038/s41550-022-01839-0. Published online 19 December 2022.
'In the version of this article originally published, the two latitude labels in Figure 2c read “30°” instead of “20°”. The errors have been corrected in the HTML and PDF versions of the article.'