Magmatic evolution of impact-induced Martian mantle plumes and the origin of Tharsis

C. C. Reese; V. S. Solomatov; J. R. Baumgardner; D. R. Stegman; A. V. Vezolainen

doi:10.1029/2003JE002222

Magmatic evolution of impact-induced Martian mantle plumes and the origin of Tharsis

C. C. Reese
, V. S. Solomatov
, J. R. Baumgardner
, D. R. Stegman
, A. V. Vezolainen

Department of Earth & Planetary Sciences

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

Tharsis province is a major center of Martian volcanic activity characterized by large gravity and topography anomalies. The origin of Tharsis is debated. One hypothesis is that the province was produced by melting associated with a mantle plume from the coremantle boundary. An alternative hypothesis is that Tharsis formed by a plume associated with an impact. Recent studies have shown that this hypothesis is plausible from a geodynamical point of view and that long-lived impact plumes might play a role in areoid evolution. In this study, the magmatic evolution of impact-induced thermochemical mantle plumes is investigated with fully three-dimensional spherical shell simulations of mantle convection. Melt volumes and emplacement rates predicted by the model can satisfy observational constraints on Tharsis development.

Original language	English
Pages (from-to)	E08009 1-10
Journal	Journal of Geophysical Research: Planets
Volume	109
Issue number	8
DOIs	https://doi.org/10.1029/2003JE002222
State	Published - Aug 25 2004

Keywords

Impact plumes
Mantle dynamics
Mars

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10.1029/2003JE002222

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title = "Magmatic evolution of impact-induced Martian mantle plumes and the origin of Tharsis",

abstract = "Tharsis province is a major center of Martian volcanic activity characterized by large gravity and topography anomalies. The origin of Tharsis is debated. One hypothesis is that the province was produced by melting associated with a mantle plume from the coremantle boundary. An alternative hypothesis is that Tharsis formed by a plume associated with an impact. Recent studies have shown that this hypothesis is plausible from a geodynamical point of view and that long-lived impact plumes might play a role in areoid evolution. In this study, the magmatic evolution of impact-induced thermochemical mantle plumes is investigated with fully three-dimensional spherical shell simulations of mantle convection. Melt volumes and emplacement rates predicted by the model can satisfy observational constraints on Tharsis development.",

keywords = "Impact plumes, Mantle dynamics, Mars",

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T1 - Magmatic evolution of impact-induced Martian mantle plumes and the origin of Tharsis

AU - Reese, C. C.

AU - Solomatov, V. S.

AU - Baumgardner, J. R.

AU - Stegman, D. R.

AU - Vezolainen, A. V.

PY - 2004/8/25

Y1 - 2004/8/25

N2 - Tharsis province is a major center of Martian volcanic activity characterized by large gravity and topography anomalies. The origin of Tharsis is debated. One hypothesis is that the province was produced by melting associated with a mantle plume from the coremantle boundary. An alternative hypothesis is that Tharsis formed by a plume associated with an impact. Recent studies have shown that this hypothesis is plausible from a geodynamical point of view and that long-lived impact plumes might play a role in areoid evolution. In this study, the magmatic evolution of impact-induced thermochemical mantle plumes is investigated with fully three-dimensional spherical shell simulations of mantle convection. Melt volumes and emplacement rates predicted by the model can satisfy observational constraints on Tharsis development.

AB - Tharsis province is a major center of Martian volcanic activity characterized by large gravity and topography anomalies. The origin of Tharsis is debated. One hypothesis is that the province was produced by melting associated with a mantle plume from the coremantle boundary. An alternative hypothesis is that Tharsis formed by a plume associated with an impact. Recent studies have shown that this hypothesis is plausible from a geodynamical point of view and that long-lived impact plumes might play a role in areoid evolution. In this study, the magmatic evolution of impact-induced thermochemical mantle plumes is investigated with fully three-dimensional spherical shell simulations of mantle convection. Melt volumes and emplacement rates predicted by the model can satisfy observational constraints on Tharsis development.

KW - Impact plumes

KW - Mantle dynamics

KW - Mars

UR - https://www.scopus.com/pages/publications/7444231040

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DO - 10.1029/2003JE002222

M3 - Article

AN - SCOPUS:7444231040

SN - 0148-0227

VL - 109

SP - E08009 1-10

JO - Journal of Geophysical Research: Planets

JF - Journal of Geophysical Research: Planets

IS - 8

ER -

Magmatic evolution of impact-induced Martian mantle plumes and the origin of Tharsis

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Keywords

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