Titan's Meteorology Over the Cassini Mission: Evidence for Extensive Subsurface Methane Reservoirs | Zendy

Turtle E. P. | Zendy; Perry J. E. | Zendy; Barbara J. M. | Zendy; Del Genio A. D. | Zendy; Rodriguez S. | Zendy; Le Mouélic S. | Zendy; Sotin C. | Zendy; Lora J. M. | Zendy; Faulk S. | Zendy; Corlies P. | Zendy; Kelland J. | Zendy; MacKenzie S. M. | Zendy; West R. A. | Zendy; McEwen A. S. | Zendy; Lunine J. I. | Zendy; Pitesky J. | Zendy; Ray T. L. | Zendy; Roy M. | Zendy

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Titan's Meteorology Over the Cassini Mission: Evidence for Extensive Subsurface Methane Reservoirs

Author(s) -

Turtle E. P.,

Perry J. E.,

Barbara J. M.,

Del Genio A. D.,

Rodriguez S.,

Le Mouélic S.,

Sotin C.,

Lora J. M.,

Faulk S.,

Corlies P.,

Kelland J.,

MacKenzie S. M.,

West R. A.,

McEwen A. S.,

Lunine J. I.,

Pitesky J.,

Ray T. L.,

Roy M.

Publication year - 2018

Publication title -

geophysical research letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.007

H-Index - 273

eISSN - 1944-8007

pISSN - 0094-8276

DOI - 10.1029/2018gl078170

Subject(s) - titan (rocket family) , northern hemisphere , methane , geology , atmospheric sciences , environmental science , middle latitudes , polar , latitude , atmospheric circulation , cloud cover , atmospheric methane , climatology , astrobiology , oceanography , cloud computing , greenhouse gas , ecology , physics , geodesy , astronomy , computer science , biology , operating system

Cassini observations of Titan's weather patterns over >13 years, almost half a Saturnian year, provide insight into seasonal circulation patterns and the methane cycle. The Imaging Science Subsystem and the Visual and Infrared Mapping Spectrometer documented cloud locations, characteristics, morphologies, and behavior. Clouds were generally more prevalent in the summer hemisphere, but there were surprises in locations and timing of activity: Southern clouds were common at midlatitudes, northern clouds initially appeared much sooner than model predictions, and north polar summer convective systems did not appear before the mission ended. Differences from expectations constrain atmospheric circulation models, revealing factors that best match observations, including the roles of surface and subsurface reservoirs. The preference for clouds at mid‐northern latitudes rather than near the pole is consistent with models that include widespread polar near‐surface methane reservoirs in addition to the lakes and seas, suggesting a broader subsurface methane table is accessible to the atmosphere.

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