Astrobiology of Comets

Hoover, Richard B.; Pikuta, Elena V.

We model the thermal history of a cometary body, regarded as an assemblage of boulders, dust, ices and organics, as it approaches a perihelion distance of - IAU. The transfer of incident energy h m sunlight into the interior leads to the melting of ices under tens of meters of stable crust, providing possible habitats for a wide range of microorganisms. We consider the icediatoms, snow algae and cyanobacteria, bacteria and yeast of cryoconite communities which are encountered in liquid wafer pools (meltwater) surrounding dark rocks in glaciers and the polar ice sheets as excellent analogs for the microbial ecosystems that might possibly exist on some comets.

Document ID

20040111420

Acquisition Source

Marshall Space Flight Center

Document Type

Conference Paper

Authors

Date Acquired

August 21, 2013

Publication Date

January 1, 2004

Publication Information

Publication: Proceedings: Instruments, Methods, and Missions for Astrobiology VIII

Volume: 5555

Subject Category

Meeting Information

Meeting: Inernational Society for Optical Science and Technology 49th Annual Meeting

Location: Denver, CO

Country: United States

Start Date: August 2, 2004

End Date: August 6, 2004

Sponsors: International Society for Optical Engineering

Distribution Limits

Public

Work of the US Gov. Public Use Permitted.

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