Dust storms on Mars: Considerations and simulations | Zendy

R. Greeley | Zendy; B. R. White | Zendy; James B. Pollack | Zendy; James D. Iversen | Zendy; R. Leach | Zendy

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Dust storms on Mars: Considerations and simulations

Author(s) -

R. Greeley,

B. R. White,

James B. Pollack,

James D. Iversen,

R. Leach

Publication year - 1981

Publication title -

geological society of america ebooks

Language(s) - English

Resource type - Book series

eISSN - 2331-219X

pISSN - 0072-1077

DOI - 10.1130/spe186-p101

Subject(s) - aeolian processes , mars exploration program , martian , atmosphere of mars , geology , astrobiology , storm , dust storm , martian surface , atmosphere (unit) , earth science , landform , northern hemisphere , atmospheric sciences , geomorphology , meteorology , oceanography , geography , physics

Aeolian processes are important in modifying the surface of Mars at present, and appear to have been significant in the geological past. Aeolian activity includes local and global dust storms, the formation of erosional features such as yardangs and depositional features such as sand dunes, and the erosion of rock and soil. As a means of understanding aeolian processes on Mars, an investigation is in progress that includes laboratory simulations, field studies of earth analogs, and interpretation of spacecraft data. This report describes the Martian Surface Wind Tunnel, an experimental facility established at NASA-Ames Research Center, and presents some results of the general investigation. Experiments dealing with wind speeds and other conditions required for the initiation of particle movement on Mars are described and considerations are given to the resulting effectiveness of aeolian erosion.

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