Non-linear flow modelling of a Martian Lobate Debris Apron

Louise Steffensen Schmidt; Christine Schøtt Hvidberg; Jung Rack Kim; Nanna Bjørnholt Karlsson

doi:10.1017/jog.2019.54

Non-linear flow modelling of a Martian Lobate Debris Apron

Louise Steffensen Schmidt^*, Christine Schøtt Hvidberg, Jung Rack Kim, Nanna Bjørnholt Karlsson

^*Corresponding author for this work

Climate and Geophysics

Research output: Contribution to journal › Journal article › peer-review

11 Citations (Scopus)

64 Downloads (Pure)

Abstract

The Martian mid-latitudes contain numerous small water-ice deposits, collectively termed viscous flow features (VFFs). The shape and topography of the deposits contain information on their past flow history and formation process. In order to access this information, it is imperative to get information on their deformational properties. Here we use a high-resolution digital topography map and ice-penetrating radar data in combination with an inverse method to constrain the deformational properties of a lobate debris apron, a class of VFF, in the southern hemisphere of Mars. We find that while the creep parameter and accumulation rates are not well constrained in absolute values, their ratio is robust. We also find that the creep exponent is most likely n ≤ 3.

Original language	English
Journal	Journal of Glaciology
Volume	65
Issue number	254
Pages (from-to)	889-899
ISSN	0022-1430
DOIs	https://doi.org/10.1017/jog.2019.54
Publication status	Published - 1 Dec 2019

Keywords

Extraterrestrial glaciology
glacier flow
glacier mass balance
glacier modelling
ice temperature

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10.1017/jog.2019.54

nonlinear_flow_modelling_of_a_martian_lobate_debris_apronFinal published version, 694 KBLicence: CC BY

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title = "Non-linear flow modelling of a Martian Lobate Debris Apron",

abstract = "The Martian mid-latitudes contain numerous small water-ice deposits, collectively termed viscous flow features (VFFs). The shape and topography of the deposits contain information on their past flow history and formation process. In order to access this information, it is imperative to get information on their deformational properties. Here we use a high-resolution digital topography map and ice-penetrating radar data in combination with an inverse method to constrain the deformational properties of a lobate debris apron, a class of VFF, in the southern hemisphere of Mars. We find that while the creep parameter and accumulation rates are not well constrained in absolute values, their ratio is robust. We also find that the creep exponent is most likely n ≤ 3.",

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T1 - Non-linear flow modelling of a Martian Lobate Debris Apron

AU - Schmidt, Louise Steffensen

AU - Hvidberg, Christine Schøtt

AU - Kim, Jung Rack

AU - Karlsson, Nanna Bjørnholt

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N2 - The Martian mid-latitudes contain numerous small water-ice deposits, collectively termed viscous flow features (VFFs). The shape and topography of the deposits contain information on their past flow history and formation process. In order to access this information, it is imperative to get information on their deformational properties. Here we use a high-resolution digital topography map and ice-penetrating radar data in combination with an inverse method to constrain the deformational properties of a lobate debris apron, a class of VFF, in the southern hemisphere of Mars. We find that while the creep parameter and accumulation rates are not well constrained in absolute values, their ratio is robust. We also find that the creep exponent is most likely n ≤ 3.

AB - The Martian mid-latitudes contain numerous small water-ice deposits, collectively termed viscous flow features (VFFs). The shape and topography of the deposits contain information on their past flow history and formation process. In order to access this information, it is imperative to get information on their deformational properties. Here we use a high-resolution digital topography map and ice-penetrating radar data in combination with an inverse method to constrain the deformational properties of a lobate debris apron, a class of VFF, in the southern hemisphere of Mars. We find that while the creep parameter and accumulation rates are not well constrained in absolute values, their ratio is robust. We also find that the creep exponent is most likely n ≤ 3.

KW - Extraterrestrial glaciology

KW - glacier flow

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KW - glacier modelling

KW - ice temperature

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Non-linear flow modelling of a Martian Lobate Debris Apron

Abstract

Keywords

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