Deep-seated gravitational slope deformation scaling on Mars and Earth: same fate for different initial conditions and structural evolutions

Deep-seated gravitational slope deformation scaling on Mars and Earth: same fate for different initial conditions and structural evolutions

<p>Some of the most spectacular instances of deep-seated gravitational slope deformation (DSGSD) are found on Mars in the Valles Marineris region. They provide an excellent opportunity to study DSGSD phenomenology using a scaling approach. The topography of selected DSGSD scarps in Valles Mari...

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Main Authors: O. Kromuszczyńska, D. Mège, K. Dębniak, J. Gurgurewicz, M. Makowska, A. Lucas
Format: Article
Language:English
Published: Copernicus Publications 2019-04-01
Series:Earth Surface Dynamics
Online Access:https://www.earth-surf-dynam.net/7/361/2019/esurf-7-361-2019.pdf
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spelling doaj-1672a92130e14f54a2df54d1c288b5762020-11-25T00:19:00ZengCopernicus PublicationsEarth Surface Dynamics2196-63112196-632X2019-04-01736137610.5194/esurf-7-361-2019Deep-seated gravitational slope deformation scaling on Mars and Earth: same fate for different initial conditions and structural evolutionsO. Kromuszczyńska0D. Mège1D. Mège2K. Dębniak3J. Gurgurewicz4M. Makowska5A. Lucas6Institute of Geological Sciences, Polish Academy of Sciences, Research Centre in Wrocław, Podwale 75, 50-449 Wrocław, PolandSpace Research Centre, Polish Academy of Sciences, Bartycka 18A, 00-716 Warsaw, PolandLaboratoire de Planétologie et Géodynamique, Université de Nantes, UMR CNRS 6112, 2 rue de la houssinière, Nantes, FranceInstitute of Geological Sciences, Polish Academy of Sciences, Research Centre in Wrocław, Podwale 75, 50-449 Wrocław, PolandSpace Research Centre, Polish Academy of Sciences, Bartycka 18A, 00-716 Warsaw, PolandInstitute of Geological Sciences, Polish Academy of Sciences, Research Centre in Wrocław, Podwale 75, 50-449 Wrocław, PolandInstitut de Physique du Globe de Paris, Sorbonne Paris Cité, Université Paris, Diderot, Paris 75013, France<p>Some of the most spectacular instances of deep-seated gravitational slope deformation (DSGSD) are found on Mars in the Valles Marineris region. They provide an excellent opportunity to study DSGSD phenomenology using a scaling approach. The topography of selected DSGSD scarps in Valles Marineris and in the Tatra Mountains is investigated after their likely similar postglacial origin is established. The deformed Martian ridges are larger than the deformed terrestrial ridges by 1 to 2 orders of magnitude with, however, a similar height-to-width ratio of <span class="inline-formula">∼0.24</span>. The measured horizontal spreading perpendicular to the ridges is proportionally 1.8 to 2.6 times larger for the Valles Marineris ridges than the Tatra Mountains and vertically 2.9 to 5.1 times larger, suggesting that starting from two different initial conditions, with steeper slopes in Valles Marineris, the final ridge geometry is now similar. Because DSGSD is expected to now be inactive in both regions, their comparison suggests that whatever the initial ridge morphology, DSGSD proceeds until a mature profile is attained. Fault displacements are therefore much larger on Mars. The large offsets imply reactivation of the DSGSD fault scarps in Valles Marineris, whereas single seismic events would be enough to generate DSGSD fault scarps in the Tatra Mountains. The required longer activity of the Martian faults may be correlated with a long succession of climate cycles generated by the unstable Martian obliquity.</p>https://www.earth-surf-dynam.net/7/361/2019/esurf-7-361-2019.pdf
collection DOAJ
language English
format Article
sources DOAJ
author O. Kromuszczyńska
D. Mège
D. Mège
K. Dębniak
J. Gurgurewicz
M. Makowska
A. Lucas
spellingShingle O. Kromuszczyńska
D. Mège
D. Mège
K. Dębniak
J. Gurgurewicz
M. Makowska
A. Lucas
Deep-seated gravitational slope deformation scaling on Mars and Earth: same fate for different initial conditions and structural evolutions
Earth Surface Dynamics
author_facet O. Kromuszczyńska
D. Mège
D. Mège
K. Dębniak
J. Gurgurewicz
M. Makowska
A. Lucas
author_sort O. Kromuszczyńska
title Deep-seated gravitational slope deformation scaling on Mars and Earth: same fate for different initial conditions and structural evolutions
title_short Deep-seated gravitational slope deformation scaling on Mars and Earth: same fate for different initial conditions and structural evolutions
title_full Deep-seated gravitational slope deformation scaling on Mars and Earth: same fate for different initial conditions and structural evolutions
title_fullStr Deep-seated gravitational slope deformation scaling on Mars and Earth: same fate for different initial conditions and structural evolutions
title_full_unstemmed Deep-seated gravitational slope deformation scaling on Mars and Earth: same fate for different initial conditions and structural evolutions
title_sort deep-seated gravitational slope deformation scaling on mars and earth: same fate for different initial conditions and structural evolutions
publisher Copernicus Publications
series Earth Surface Dynamics
issn 2196-6311
2196-632X
publishDate 2019-04-01
description <p>Some of the most spectacular instances of deep-seated gravitational slope deformation (DSGSD) are found on Mars in the Valles Marineris region. They provide an excellent opportunity to study DSGSD phenomenology using a scaling approach. The topography of selected DSGSD scarps in Valles Marineris and in the Tatra Mountains is investigated after their likely similar postglacial origin is established. The deformed Martian ridges are larger than the deformed terrestrial ridges by 1 to 2 orders of magnitude with, however, a similar height-to-width ratio of <span class="inline-formula">∼0.24</span>. The measured horizontal spreading perpendicular to the ridges is proportionally 1.8 to 2.6 times larger for the Valles Marineris ridges than the Tatra Mountains and vertically 2.9 to 5.1 times larger, suggesting that starting from two different initial conditions, with steeper slopes in Valles Marineris, the final ridge geometry is now similar. Because DSGSD is expected to now be inactive in both regions, their comparison suggests that whatever the initial ridge morphology, DSGSD proceeds until a mature profile is attained. Fault displacements are therefore much larger on Mars. The large offsets imply reactivation of the DSGSD fault scarps in Valles Marineris, whereas single seismic events would be enough to generate DSGSD fault scarps in the Tatra Mountains. The required longer activity of the Martian faults may be correlated with a long succession of climate cycles generated by the unstable Martian obliquity.</p>
url https://www.earth-surf-dynam.net/7/361/2019/esurf-7-361-2019.pdf
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