On the spatial variability of the Martian elastic lithosphere thickness: Evidence for mantle plumes?

Details On the spatial variability of the Martian elastic lithosphere thickness: Evidence for mantle plumes? On the spatial variability of the Martian elastic lithosphere thickness: Evidence for mantle plumes?

Mar 2010

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010jgre..11503005g&link_type=abstract

Journal of Geophysical Research, Volume 115, Issue E3, CiteID E03005

Other

8

Planetary Sciences: Solar System Objects: Mars, Planetary Sciences: Solid Surface Planets: Tectonics (8149), Planetary Sciences: Solid Surface Planets: Heat Flow, Planetary Sciences: Solid Surface Planets: Interiors (8147), Planetary Sciences: Solid Surface Planets: Origin And Evolution

Scientific paper

The present day elastic lithosphere thickness at the Martian north pole has recently been constrained to De > 300 km and this is a factor of 3-4 larger than elastic thickness estimates for other Amazonian surface features like the Tharsis volcanoes. Here we present a model for the Martian elastic lithosphere thickness which takes the locally varying crustal thickness, the local concentration of heat-producing elements, as well as variations of strain rate into account. The model predicts De = 196 km at the north pole today, whereas elastic thicknesses at the Tharsis volcanoes are best compatible with middle to late Amazonian loading ages. Therefore, although a large degree of spatial heterogeneity can be explained by the presented model, large elastic thicknesses in excess of 300 km cannot be reproduced. In order to fit all elastic thickness estimates derived from observations, mantle heat flux at the north pole needs to be reduced by 35%. However, this can only be reconciled with a bulk chondritic concentration of heat-producing elements in the Martian interior if the excess heat is deposited elsewhere. Therefore, this argues for the presence of recently active mantle plumes, possibly underneath Tharsis. The size and strength of such a plume can be constrained by the elastic thickness at the Tharsis Montes and maximum average heat flux between 8 and 24 mW m-2, corresponding to a central peak heat flux of 40 to 120 mW m-2, is consistent with the observations. Such a plume would leave a clear signature in the surface heat flux and should be readily detectable by in situ heat flux measurements.

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