Strong water isotopic anomalies in the martian atmosphere: Probing current and ancient reservoirs

Mapping Mars' water history We know the water cycle on Earth is complex. Neither is it simple on Mars. Infrared maps of water isotopes made by Villanueva et al. show the distribution of H2O and "semiheavy" water (HDO: deuterated water containing a mixture of hydrogen isotopes) across...

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Published in:Science
Main Authors: Villanueva, G. L., Mumma, M. J., Novak, R. E., Kaufl, H. U., Hartogh, P., Encrenaz, T., Tokunaga, A., Khayat, A., Smith, M. D.
Format: Article in Journal/Newspaper
Language:unknown
Published: Zenodo 2015
Subjects:
Ice cap
Online Access:https://doi.org/10.1126/science.aaa3630
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spelling ftzenodo:oai:zenodo.org:1231265 2024-09-15T18:11:47+00:00 Strong water isotopic anomalies in the martian atmosphere: Probing current and ancient reservoirs Villanueva, G. L. Mumma, M. J. Novak, R. E. Kaufl, H. U. Hartogh, P. Encrenaz, T. Tokunaga, A. Khayat, A. Smith, M. D. 2015-03-05 https://doi.org/10.1126/science.aaa3630 unknown Zenodo https://doi.org/10.1126/science.aaa3630 oai:zenodo.org:1231265 info:eu-repo/semantics/openAccess Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode info:eu-repo/semantics/article 2015 ftzenodo https://doi.org/10.1126/science.aaa3630 2024-07-26T23:03:34Z Mapping Mars' water history We know the water cycle on Earth is complex. Neither is it simple on Mars. Infrared maps of water isotopes made by Villanueva et al. show the distribution of H2O and "semiheavy" water (HDO: deuterated water containing a mixture of hydrogen isotopes) across Mars. HDO enrichment varies with time and location; for example, irregular isotopic signals associate with different terrain features. The measurements also allow seasonal sublimation levels of the northern ice cap to be estimated and thus could be used to reveal past climate behavior. Science, this issue p. 218 We measured maps of atmospheric water (H2O) and its deuterated form (HDO) across the martian globe, showing strong isotopic anomalies and a significant high deuterium/hydrogen (D/H) enrichment indicative of great water loss. The maps sample the evolution of sublimation from the north polar cap, revealing that the released water has a representative D/H value enriched by a factor of about 7 relative to Earth's ocean [Vienna standard mean ocean water (VSMOW)]. Certain basins and orographic depressions show even higher enrichment, whereas high-altitude regions show much lower values (1 to 3 VSMOW). Our atmospheric maps indicate that water ice in the polar reservoirs is enriched in deuterium to at least 8 VSMOW, which would mean that early Mars (4.5 billion years ago) had a global equivalent water layer at least 137 meters deep. Maps of atmospheric water distribution reveal seasonal and spatial variations in the enrichment of deuterium to hydrogen. Maps of atmospheric water distribution reveal seasonal and spatial variations in the enrichment of deuterium to hydrogen. Article in Journal/Newspaper Ice cap Zenodo Science 348 6231 218 221
institution Open Polar
collection Zenodo
op_collection_id ftzenodo
language unknown
description Mapping Mars' water history We know the water cycle on Earth is complex. Neither is it simple on Mars. Infrared maps of water isotopes made by Villanueva et al. show the distribution of H2O and "semiheavy" water (HDO: deuterated water containing a mixture of hydrogen isotopes) across Mars. HDO enrichment varies with time and location; for example, irregular isotopic signals associate with different terrain features. The measurements also allow seasonal sublimation levels of the northern ice cap to be estimated and thus could be used to reveal past climate behavior. Science, this issue p. 218 We measured maps of atmospheric water (H2O) and its deuterated form (HDO) across the martian globe, showing strong isotopic anomalies and a significant high deuterium/hydrogen (D/H) enrichment indicative of great water loss. The maps sample the evolution of sublimation from the north polar cap, revealing that the released water has a representative D/H value enriched by a factor of about 7 relative to Earth's ocean [Vienna standard mean ocean water (VSMOW)]. Certain basins and orographic depressions show even higher enrichment, whereas high-altitude regions show much lower values (1 to 3 VSMOW). Our atmospheric maps indicate that water ice in the polar reservoirs is enriched in deuterium to at least 8 VSMOW, which would mean that early Mars (4.5 billion years ago) had a global equivalent water layer at least 137 meters deep. Maps of atmospheric water distribution reveal seasonal and spatial variations in the enrichment of deuterium to hydrogen. Maps of atmospheric water distribution reveal seasonal and spatial variations in the enrichment of deuterium to hydrogen.
format Article in Journal/Newspaper
author Villanueva, G. L.
Mumma, M. J.
Novak, R. E.
Kaufl, H. U.
Hartogh, P.
Encrenaz, T.
Tokunaga, A.
Khayat, A.
Smith, M. D.
spellingShingle Villanueva, G. L.
Mumma, M. J.
Novak, R. E.
Kaufl, H. U.
Hartogh, P.
Encrenaz, T.
Tokunaga, A.
Khayat, A.
Smith, M. D.
Strong water isotopic anomalies in the martian atmosphere: Probing current and ancient reservoirs
author_facet Villanueva, G. L.
Mumma, M. J.
Novak, R. E.
Kaufl, H. U.
Hartogh, P.
Encrenaz, T.
Tokunaga, A.
Khayat, A.
Smith, M. D.
author_sort Villanueva, G. L.
title Strong water isotopic anomalies in the martian atmosphere: Probing current and ancient reservoirs
title_short Strong water isotopic anomalies in the martian atmosphere: Probing current and ancient reservoirs
title_full Strong water isotopic anomalies in the martian atmosphere: Probing current and ancient reservoirs
title_fullStr Strong water isotopic anomalies in the martian atmosphere: Probing current and ancient reservoirs
title_full_unstemmed Strong water isotopic anomalies in the martian atmosphere: Probing current and ancient reservoirs
title_sort strong water isotopic anomalies in the martian atmosphere: probing current and ancient reservoirs
publisher Zenodo
publishDate 2015
url https://doi.org/10.1126/science.aaa3630
genre Ice cap
genre_facet Ice cap
op_relation https://doi.org/10.1126/science.aaa3630
oai:zenodo.org:1231265
op_rights info:eu-repo/semantics/openAccess
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op_doi https://doi.org/10.1126/science.aaa3630
container_title Science
container_volume 348
container_issue 6231
container_start_page 218
op_container_end_page 221
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