by Staff Writers
Meudon, France (SPX) Oct 26, 2016
As Titan approaches its northern summer solstice, NASA's Cassini spacecraft has revealed dramatic seasonal changes in the atmospheric temperature and composition of Saturn's largest moon.
Winter is taking a grip on the southern hemisphere and a strong vortex, enriched in trace gases, has developed in the upper atmosphere over the south pole. These observations show a polar reversal in Titan's atmosphere since Cassini arrived at Saturn in 2004, when similar features were seen in the northern hemisphere.
"Cassini has been the ideal platform for observing the pattern of seasonal changes on Titan in exquisite detail for the first time," says Dr. Athena Coustenis of the Observatoire de Paris, who is presenting results at the joint 48th meeting of the American Astronomical Society's Division for Planetary Sciences and 11th European Planetary Science Congress.
"We arrived at the northern mid-winter and have now had the opportunity to monitor Titan's atmospheric response through two full seasons. Since the equinox, where both hemispheres received equal heating from the Sun, we have seen rapid changes."
Heat is circulated through Titan's atmosphere via a pole-to-pole cycle of warm gases upwelling at the summer pole and cold gases subsiding at the winter pole. Cassini's observations have shown a large-scale reversal of this system immediately after the equinox in 2009.
Titan's hemispheres have responded in different ways to these seasonal changes. The wintery effects have led to a temperature drop of 40 degrees Celsius in the southern polar stratosphere over the last four years. This contrasts with a much more gradual warming in the northern hemisphere, where temperatures remained stable during the early spring and have shown a 6-degree increase only since 2014.
Within months following the equinox, the vortex in the stratosphere over the south pole had become prominent, as had an atmospheric 'hot spot' at high altitudes. The corresponding features in the northern hemisphere had almost disappeared by 2011.
Inside the polar vortex over the increasingly shadowed south pole, there has been a rapid build-up of trace gases that accumulate in the absence of ultraviolet sunlight. These include complex hydrocarbons and nitriles such as methylacetylene and benzene, previously seen only at high northern latitudes.
Coustenis says, "We've had the chance to witness the onset of winter from the beginning and are approaching the peak time for these gas-production processes in the southern hemisphere. We are now looking for new molecules in the atmosphere above Titan's south polar region that have been predicted by our computer models. Making these detections will help us understand the photochemistry going on."
In the northern hemisphere, the trace gases have persisted well into summer. These are predicted to undergo a slow photochemical destruction, with species disappearing at different rates depending on their chemical lifetimes.
However, since early 2016, a zone of depleted molecular gas and aerosols has developed across the entire northern hemisphere between an altitude of 400 and 500 kilometres, suggesting a complex dynamical effect starting at high altitudes in the atmosphere.
"As we count down to the end of the Cassini mission in September 2017, a consistent picture of Titan's middle and upper atmospheres is emerging," says Coustenis. "The 13-year total mission duration will in the end provide us with coverage of almost half a Titan year and provide an even deeper understanding of Titan's seasonal variability."
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