Laboratory and field analogs of the Martian (sub)surface: Investigating the stability of minerals, organic molecules, and biosignatures

Mars missions and Martian analog systems inform each other in an iterative fashion: the insights gleaned from laboratory and field analogs guides mission concepts while the data acquired by missions improves analog designs. As space missions only grant us a small subset of everything we desire to st...

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Bibliographic Details
Main Author: Kopacz, Karolina Anna
Other Authors: Petrology, Mason, Paul, ten Kate, Inge Loes, King, Helen
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: 2023
Subjects:
astrobiologie
prebiotische chemie
fotochemie
Mars
Mars-missies
biosignaturen
planetaire analogen
lavagrotten
IJsland
astrobiology
prebiotic chemistry
photochemistry
Mars missions
biosignatures
planetary analogs
lava tubes
Iceland
Online Access:https://dspace.library.uu.nl/handle/1874/425603
id ftunivutrecht:oai:dspace.library.uu.nl:1874/425603
record_format openpolar
spelling ftunivutrecht:oai:dspace.library.uu.nl:1874/425603 2023-07-23T04:20:01+02:00 Laboratory and field analogs of the Martian (sub)surface: Investigating the stability of minerals, organic molecules, and biosignatures Kopacz, Karolina Anna Petrology Mason, Paul ten Kate, Inge Loes King, Helen 2023-02-03 application/pdf https://dspace.library.uu.nl/handle/1874/425603 en eng 2211-4335 https://dspace.library.uu.nl/handle/1874/425603 info:eu-repo/semantics/OpenAccess astrobiologie prebiotische chemie fotochemie Mars Mars-missies biosignaturen planetaire analogen lavagrotten IJsland astrobiology prebiotic chemistry photochemistry Mars missions biosignatures planetary analogs lava tubes Iceland Dissertation 2023 ftunivutrecht 2023-07-02T03:51:02Z Mars missions and Martian analog systems inform each other in an iterative fashion: the insights gleaned from laboratory and field analogs guides mission concepts while the data acquired by missions improves analog designs. As space missions only grant us a small subset of everything we desire to study on Mars, support from simulations in the laboratory and field expeditions to analog environments is a natural follow-up. In this way we can expand our limited data sets, better interpret the results, and plan the next mission in a more informed manner. Laboratory and field analogs have aided us in our investigations of the mineralogy of Mars, and the search for water, organic molecules, and life that have been some of the primary objectives of Mars missions in the last decades, and questions relevant to fundamental science. In a time of scientific exploration when the frontier is frequented by only a few, our efforts in space exploration are largely accomplished on Earth with relatively low-cost, targeted techniques. This thesis is a collection of four distinct laboratory and field analog studies. It describes several experimental designs used to study the stability of organic molecules in various surface environments on Mars and the significance of those environments to Martian prebiotic chemistry, and includes a field campaign to a Martian analog environment (Icelandic lava tubes) undertaken to gain insight into potential geochemical signatures of life in the subsurface of Mars. The works are presented in the larger context of analogs in planetary research and astrobiology. Doctoral or Postdoctoral Thesis Iceland Utrecht University Repository
institution Open Polar
collection Utrecht University Repository
op_collection_id ftunivutrecht
language English
topic astrobiologie
prebiotische chemie
fotochemie
Mars
Mars-missies
biosignaturen
planetaire analogen
lavagrotten
IJsland
astrobiology
prebiotic chemistry
photochemistry
Mars missions
biosignatures
planetary analogs
lava tubes
Iceland
spellingShingle astrobiologie
prebiotische chemie
fotochemie
Mars
Mars-missies
biosignaturen
planetaire analogen
lavagrotten
IJsland
astrobiology
prebiotic chemistry
photochemistry
Mars missions
biosignatures
planetary analogs
lava tubes
Iceland
Kopacz, Karolina Anna
Laboratory and field analogs of the Martian (sub)surface: Investigating the stability of minerals, organic molecules, and biosignatures
topic_facet astrobiologie
prebiotische chemie
fotochemie
Mars
Mars-missies
biosignaturen
planetaire analogen
lavagrotten
IJsland
astrobiology
prebiotic chemistry
photochemistry
Mars missions
biosignatures
planetary analogs
lava tubes
Iceland
description Mars missions and Martian analog systems inform each other in an iterative fashion: the insights gleaned from laboratory and field analogs guides mission concepts while the data acquired by missions improves analog designs. As space missions only grant us a small subset of everything we desire to study on Mars, support from simulations in the laboratory and field expeditions to analog environments is a natural follow-up. In this way we can expand our limited data sets, better interpret the results, and plan the next mission in a more informed manner. Laboratory and field analogs have aided us in our investigations of the mineralogy of Mars, and the search for water, organic molecules, and life that have been some of the primary objectives of Mars missions in the last decades, and questions relevant to fundamental science. In a time of scientific exploration when the frontier is frequented by only a few, our efforts in space exploration are largely accomplished on Earth with relatively low-cost, targeted techniques. This thesis is a collection of four distinct laboratory and field analog studies. It describes several experimental designs used to study the stability of organic molecules in various surface environments on Mars and the significance of those environments to Martian prebiotic chemistry, and includes a field campaign to a Martian analog environment (Icelandic lava tubes) undertaken to gain insight into potential geochemical signatures of life in the subsurface of Mars. The works are presented in the larger context of analogs in planetary research and astrobiology.
author2 Petrology
Mason, Paul
ten Kate, Inge Loes
King, Helen
format Doctoral or Postdoctoral Thesis
author Kopacz, Karolina Anna
author_facet Kopacz, Karolina Anna
author_sort Kopacz, Karolina Anna
title Laboratory and field analogs of the Martian (sub)surface: Investigating the stability of minerals, organic molecules, and biosignatures
title_short Laboratory and field analogs of the Martian (sub)surface: Investigating the stability of minerals, organic molecules, and biosignatures
title_full Laboratory and field analogs of the Martian (sub)surface: Investigating the stability of minerals, organic molecules, and biosignatures
title_fullStr Laboratory and field analogs of the Martian (sub)surface: Investigating the stability of minerals, organic molecules, and biosignatures
title_full_unstemmed Laboratory and field analogs of the Martian (sub)surface: Investigating the stability of minerals, organic molecules, and biosignatures
title_sort laboratory and field analogs of the martian (sub)surface: investigating the stability of minerals, organic molecules, and biosignatures
publishDate 2023
url https://dspace.library.uu.nl/handle/1874/425603
genre Iceland
genre_facet Iceland
op_relation 2211-4335
https://dspace.library.uu.nl/handle/1874/425603
op_rights info:eu-repo/semantics/OpenAccess
_version_ 1772183655752400896

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