Geology of the InSight landing site on Mars

The Interior Exploration using Seismic Investigations, Geodesy and Heat Transport (InSight) spacecraft landed successfully on Mars and imaged the surface to characterize the surficial geology. Here we report on the geology and subsurface structure of the landing site to aid in situ geophysical inves...

Descripción completa

Detalles Bibliográficos
Autores principales: Golombek, M., Warner, N. H., Grant, J. A., Hauber, E., Ansan, V., Weitz, C. M., Williams, N., Charalambous, C., Wilson, S. A., DeMott, A., Kopp, M., Lethcoe-Wilson, H., Berger, L., Hausmann, R., Marteau, E., Vrettos, C., Trussell, A., Folkner, W., Le Maistre, S., Mueller, N., Grott, M., Spohn, T., Piqueux, S., Millour, E., Forget, F., Daubar, I., Murdoch, N., Lognonné, P., Perrin, C., Rodriguez, S., Pike, W. T., Parker, T., Maki, J., Abarca, H., Deen, R., Hall, J., Andres, P., Ruoff, N., Calef, F., Smrekar, S., Baker, M. M., Banks, M., Spiga, A., Banfield, D., Garvin, J., Newman, C. E., Banerdt, W. B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7039939/
https://www.ncbi.nlm.nih.gov/pubmed/32094337
http://dx.doi.org/10.1038/s41467-020-14679-1
_version_ 1783500885461041152
author Golombek, M.
Warner, N. H.
Grant, J. A.
Hauber, E.
Ansan, V.
Weitz, C. M.
Williams, N.
Charalambous, C.
Wilson, S. A.
DeMott, A.
Kopp, M.
Lethcoe-Wilson, H.
Berger, L.
Hausmann, R.
Marteau, E.
Vrettos, C.
Trussell, A.
Folkner, W.
Le Maistre, S.
Mueller, N.
Grott, M.
Spohn, T.
Piqueux, S.
Millour, E.
Forget, F.
Daubar, I.
Murdoch, N.
Lognonné, P.
Perrin, C.
Rodriguez, S.
Pike, W. T.
Parker, T.
Maki, J.
Abarca, H.
Deen, R.
Hall, J.
Andres, P.
Ruoff, N.
Calef, F.
Smrekar, S.
Baker, M. M.
Banks, M.
Spiga, A.
Banfield, D.
Garvin, J.
Newman, C. E.
Banerdt, W. B.
author_facet Golombek, M.
Warner, N. H.
Grant, J. A.
Hauber, E.
Ansan, V.
Weitz, C. M.
Williams, N.
Charalambous, C.
Wilson, S. A.
DeMott, A.
Kopp, M.
Lethcoe-Wilson, H.
Berger, L.
Hausmann, R.
Marteau, E.
Vrettos, C.
Trussell, A.
Folkner, W.
Le Maistre, S.
Mueller, N.
Grott, M.
Spohn, T.
Piqueux, S.
Millour, E.
Forget, F.
Daubar, I.
Murdoch, N.
Lognonné, P.
Perrin, C.
Rodriguez, S.
Pike, W. T.
Parker, T.
Maki, J.
Abarca, H.
Deen, R.
Hall, J.
Andres, P.
Ruoff, N.
Calef, F.
Smrekar, S.
Baker, M. M.
Banks, M.
Spiga, A.
Banfield, D.
Garvin, J.
Newman, C. E.
Banerdt, W. B.
author_sort Golombek, M.
collection PubMed
description The Interior Exploration using Seismic Investigations, Geodesy and Heat Transport (InSight) spacecraft landed successfully on Mars and imaged the surface to characterize the surficial geology. Here we report on the geology and subsurface structure of the landing site to aid in situ geophysical investigations. InSight landed in a degraded impact crater in Elysium Planitia on a smooth sandy, granule- and pebble-rich surface with few rocks. Superposed impact craters are common and eolian bedforms are sparse. During landing, pulsed retrorockets modified the surface to reveal a near surface stratigraphy of surficial dust, over thin unconsolidated sand, underlain by a variable thickness duricrust, with poorly sorted, unconsolidated sand with rocks beneath. Impact, eolian, and mass wasting processes have dominantly modified the surface. Surface observations are consistent with expectations made from remote sensing data prior to landing indicating a surface composed of an impact-fragmented regolith overlying basaltic lava flows.
format Online
Article
Text
id pubmed-7039939
institution National Center for Biotechnology Information
language English
publishDate 2020
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-70399392020-03-04 Geology of the InSight landing site on Mars Golombek, M. Warner, N. H. Grant, J. A. Hauber, E. Ansan, V. Weitz, C. M. Williams, N. Charalambous, C. Wilson, S. A. DeMott, A. Kopp, M. Lethcoe-Wilson, H. Berger, L. Hausmann, R. Marteau, E. Vrettos, C. Trussell, A. Folkner, W. Le Maistre, S. Mueller, N. Grott, M. Spohn, T. Piqueux, S. Millour, E. Forget, F. Daubar, I. Murdoch, N. Lognonné, P. Perrin, C. Rodriguez, S. Pike, W. T. Parker, T. Maki, J. Abarca, H. Deen, R. Hall, J. Andres, P. Ruoff, N. Calef, F. Smrekar, S. Baker, M. M. Banks, M. Spiga, A. Banfield, D. Garvin, J. Newman, C. E. Banerdt, W. B. Nat Commun Article The Interior Exploration using Seismic Investigations, Geodesy and Heat Transport (InSight) spacecraft landed successfully on Mars and imaged the surface to characterize the surficial geology. Here we report on the geology and subsurface structure of the landing site to aid in situ geophysical investigations. InSight landed in a degraded impact crater in Elysium Planitia on a smooth sandy, granule- and pebble-rich surface with few rocks. Superposed impact craters are common and eolian bedforms are sparse. During landing, pulsed retrorockets modified the surface to reveal a near surface stratigraphy of surficial dust, over thin unconsolidated sand, underlain by a variable thickness duricrust, with poorly sorted, unconsolidated sand with rocks beneath. Impact, eolian, and mass wasting processes have dominantly modified the surface. Surface observations are consistent with expectations made from remote sensing data prior to landing indicating a surface composed of an impact-fragmented regolith overlying basaltic lava flows. Nature Publishing Group UK 2020-02-24 /pmc/articles/PMC7039939/ /pubmed/32094337 http://dx.doi.org/10.1038/s41467-020-14679-1 Text en © The Author(s) 2020 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Golombek, M.
Warner, N. H.
Grant, J. A.
Hauber, E.
Ansan, V.
Weitz, C. M.
Williams, N.
Charalambous, C.
Wilson, S. A.
DeMott, A.
Kopp, M.
Lethcoe-Wilson, H.
Berger, L.
Hausmann, R.
Marteau, E.
Vrettos, C.
Trussell, A.
Folkner, W.
Le Maistre, S.
Mueller, N.
Grott, M.
Spohn, T.
Piqueux, S.
Millour, E.
Forget, F.
Daubar, I.
Murdoch, N.
Lognonné, P.
Perrin, C.
Rodriguez, S.
Pike, W. T.
Parker, T.
Maki, J.
Abarca, H.
Deen, R.
Hall, J.
Andres, P.
Ruoff, N.
Calef, F.
Smrekar, S.
Baker, M. M.
Banks, M.
Spiga, A.
Banfield, D.
Garvin, J.
Newman, C. E.
Banerdt, W. B.
Geology of the InSight landing site on Mars
title Geology of the InSight landing site on Mars
title_full Geology of the InSight landing site on Mars
title_fullStr Geology of the InSight landing site on Mars
title_full_unstemmed Geology of the InSight landing site on Mars
title_short Geology of the InSight landing site on Mars
title_sort geology of the insight landing site on mars
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7039939/
https://www.ncbi.nlm.nih.gov/pubmed/32094337
http://dx.doi.org/10.1038/s41467-020-14679-1
work_keys_str_mv AT golombekm geologyoftheinsightlandingsiteonmars
AT warnernh geologyoftheinsightlandingsiteonmars
AT grantja geologyoftheinsightlandingsiteonmars
AT haubere geologyoftheinsightlandingsiteonmars
AT ansanv geologyoftheinsightlandingsiteonmars
AT weitzcm geologyoftheinsightlandingsiteonmars
AT williamsn geologyoftheinsightlandingsiteonmars
AT charalambousc geologyoftheinsightlandingsiteonmars
AT wilsonsa geologyoftheinsightlandingsiteonmars
AT demotta geologyoftheinsightlandingsiteonmars
AT koppm geologyoftheinsightlandingsiteonmars
AT lethcoewilsonh geologyoftheinsightlandingsiteonmars
AT bergerl geologyoftheinsightlandingsiteonmars
AT hausmannr geologyoftheinsightlandingsiteonmars
AT marteaue geologyoftheinsightlandingsiteonmars
AT vrettosc geologyoftheinsightlandingsiteonmars
AT trussella geologyoftheinsightlandingsiteonmars
AT folknerw geologyoftheinsightlandingsiteonmars
AT lemaistres geologyoftheinsightlandingsiteonmars
AT muellern geologyoftheinsightlandingsiteonmars
AT grottm geologyoftheinsightlandingsiteonmars
AT spohnt geologyoftheinsightlandingsiteonmars
AT piqueuxs geologyoftheinsightlandingsiteonmars
AT milloure geologyoftheinsightlandingsiteonmars
AT forgetf geologyoftheinsightlandingsiteonmars
AT daubari geologyoftheinsightlandingsiteonmars
AT murdochn geologyoftheinsightlandingsiteonmars
AT lognonnep geologyoftheinsightlandingsiteonmars
AT perrinc geologyoftheinsightlandingsiteonmars
AT rodriguezs geologyoftheinsightlandingsiteonmars
AT pikewt geologyoftheinsightlandingsiteonmars
AT parkert geologyoftheinsightlandingsiteonmars
AT makij geologyoftheinsightlandingsiteonmars
AT abarcah geologyoftheinsightlandingsiteonmars
AT deenr geologyoftheinsightlandingsiteonmars
AT hallj geologyoftheinsightlandingsiteonmars
AT andresp geologyoftheinsightlandingsiteonmars
AT ruoffn geologyoftheinsightlandingsiteonmars
AT caleff geologyoftheinsightlandingsiteonmars
AT smrekars geologyoftheinsightlandingsiteonmars
AT bakermm geologyoftheinsightlandingsiteonmars
AT banksm geologyoftheinsightlandingsiteonmars
AT spigaa geologyoftheinsightlandingsiteonmars
AT banfieldd geologyoftheinsightlandingsiteonmars
AT garvinj geologyoftheinsightlandingsiteonmars
AT newmance geologyoftheinsightlandingsiteonmars
AT banerdtwb geologyoftheinsightlandingsiteonmars

Ejemplares similares