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Main Authors: Egea-González, Isabel, McKay, Christopher P., Hallsworth, John E., Jiménez-Díaz, Alberto, Ruiz, Javier
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.09873
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author Egea-González, Isabel
McKay, Christopher P.
Hallsworth, John E.
Jiménez-Díaz, Alberto
Ruiz, Javier
author_facet Egea-González, Isabel
McKay, Christopher P.
Hallsworth, John E.
Jiménez-Díaz, Alberto
Ruiz, Javier
contents The notion of liquid water beneath the ice layer at the south polar layered deposits of Mars is an interesting possibility given the implications for astrobiology, and possible human habitation. A body of liquid water located at a depth of 1.5 km has been inferred from radar data in the South Polar Cap. However, the high temperatures that would facilitate the existence of liquid water or brine at that depth are not consistent with estimations of heat flow that are based on the lithosphere's flexure. Attempts to reconcile both issues have been inconclusive or otherwise unsuccessful. Here, we analyse the possible role of subsurface ammonia and methanol in maintaining water in a liquid state at subsurface temperatures that are compatible with the lithosphere strength. Our results indicate that the presence of these compounds at the base of the south polar layered deposits can reconcile the existence of liquid water with previous estimations of surface heat flow.
format Preprint
id arxiv_https___arxiv_org_abs_2401_09873
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Ammonia or methanol would enable subsurface liquid water in the Martian South Pole
Egea-González, Isabel
McKay, Christopher P.
Hallsworth, John E.
Jiménez-Díaz, Alberto
Ruiz, Javier
Earth and Planetary Astrophysics
The notion of liquid water beneath the ice layer at the south polar layered deposits of Mars is an interesting possibility given the implications for astrobiology, and possible human habitation. A body of liquid water located at a depth of 1.5 km has been inferred from radar data in the South Polar Cap. However, the high temperatures that would facilitate the existence of liquid water or brine at that depth are not consistent with estimations of heat flow that are based on the lithosphere's flexure. Attempts to reconcile both issues have been inconclusive or otherwise unsuccessful. Here, we analyse the possible role of subsurface ammonia and methanol in maintaining water in a liquid state at subsurface temperatures that are compatible with the lithosphere strength. Our results indicate that the presence of these compounds at the base of the south polar layered deposits can reconcile the existence of liquid water with previous estimations of surface heat flow.
title Ammonia or methanol would enable subsurface liquid water in the Martian South Pole
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2401.09873