A thick crustal block revealed by reconstructions of early Mars highlands
Final Accepted Manuscript
Keane, James Tuttle
AffiliationUniv Arizona, Lunar & Planetary Lab
KeywordsGeneral Earth and Planetary Sciences
MetadataShow full item record
PublisherNATURE PUBLISHING GROUP
CitationBouley, S., Keane, J.T., Baratoux, D. et al. A thick crustal block revealed by reconstructions of early Mars highlands. Nat. Geosci. 13, 105–109 (2020). https://doi.org/10.1038/s41561-019-0512-6
RightsCopyright © 2020, Springer Nature.
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AbstractThe global-scale crustal structure of Mars is shaped by impact basins, volcanic provinces, and a hemispheric dichotomy with a thin crust beneath the northern lowlands and a thick crust beneath the southern highlands. The southern highlands are commonly treated as a coherent terrain of ancient crust with a common origin and shared geologic history, plausibly originating from a giant impact(s) or a hemispheric-scale mantle upwelling. Previous studies have quantified the contribution of volcanism to this crustal structure; however, the influence of large impacts remains unclear. Here we present reconstructions of the past crustal thickness of Mars (about 4.2 Gyr ago) where the four largest impact basins (Hellas, Argyre, Isidis and Utopia) are removed, assuming mass conservation, as well as the main volcanic provinces of Tharsis and Elysium. Our reconstruction shows more subdued crustal thickness variations than at present, although the crustal dichotomy persists. However, our reconstruction reveals a region of discontinuous patches of thick crust in the southern highlands associated with magnetic and geochemical anomalies. This region, corresponding to Terra Cimmeria-Sirenum, is interpreted as a discrete crustal block. Our findings suggest that the southern highlands are composed of several crustal blocks with different geological histories. Such a complex architecture of the southern highlands is not explained by existing scenarios for crustal formation and evolution.
Note6 month embargo; published online: 6 January 2020
VersionFinal accepted manuscript