Journal
PLANETARY AND SPACE SCIENCE
Volume 59, Issue 15, Pages 1895-1909Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.pss.2011.03.020
Keywords
Mercury; Pyroclastic; Volcanism; Volcanoes; Volatile; Pits
Categories
Funding
- NASA [NASW-00002, NAS5-97271]
- Natural Environment Research Council [ceh010010] Funding Source: researchfish
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We present a global survey of candidate pyroclastic deposits on Mercury, derived from images obtained during MESSENGER flybys 1-3 that provided near-global coverage at resolutions between 5 and 0.5 km/pixel. Thirty-five deposits were identified and characterized and are located principally on the floors of craters, along rims of craters, and along the edge of the Caloris basin. Deposits are commonly centered on rimless, often irregularly shaped pits, mostly between 5 and 45 km in diameter. The deposits identified are generally similar in morphology and absolute reflectance to lunar pyroclastic deposits. Spectrally the deposits appear brighter and redder than background Mercury terrain. On the basis of the available coverage, the candidate pyroclastic deposits appear to be essentially globally distributed. The diameters of the deposits, when mapped to lunar gravity conditions, are larger than their lunar counterparts, implying that more abundant volatiles were present during the typical eruptive process than on the Moon. These observations indicate that if these deposits resulted from hawaiian-style eruptions, the volatile contents required would be between similar to 1600 and 16,000 ppm CO or an equivalent value of H2O, CO2, SO2, or H2S (for a more oxidizing interior), or N-2, S-2, CS2, S2Cl, Cl, Cl-2, or COS (for a more reducing interior). These abundances are much greater than those predicted by existing models for Mercury's formation. An apparent lack of small deposits, compared with the Moon, may be due to resolution effects, a topic that can be further assessed during the orbital phase of the MESSENGER mission. These results provide a framework within which orbital observations by MESSENGER and the future BepiColombo mission can be analyzed. (C) 2011 Elsevier Ltd. All rights reserved.
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