A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology

A conspicuous biomorphic ovoid structure has been discovered in the Nakhla martian meteorite, made of nanocrystalline iron-rich saponitic clay and amorphous material. The ovoid is indigenous to Nakhla and occurs within a late-formed amorphous mesostasis region of rhyolitic composition that is inters...

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Published in:Astrobiology
Main Authors: Chatzitheodoridis, Elias, Haigh, Sarah, Lyon, Ian
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Biomorph
Clays
Hydrothermal systems
Martian meteorites
Search for life (biosignatures)
permafrost
Online Access:https://research.manchester.ac.uk/en/publications/4be51962-a326-48ce-9f1b-175579ca4145
https://doi.org/10.1089/ast.2013.1069
https://pure.manchester.ac.uk/ws/files/25857977/POST-PEER-REVIEW-NON-PUBLISHERS.PDF
http://www.liebertonline.com/ast
id ftumanchesterpub:oai:pure.atira.dk:publications/4be51962-a326-48ce-9f1b-175579ca4145
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spelling ftumanchesterpub:oai:pure.atira.dk:publications/4be51962-a326-48ce-9f1b-175579ca4145 2023-11-12T04:24:37+01:00 A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology Chatzitheodoridis, Elias Haigh, Sarah Lyon, Ian 2014-08-01 application/octet-stream https://research.manchester.ac.uk/en/publications/4be51962-a326-48ce-9f1b-175579ca4145 https://doi.org/10.1089/ast.2013.1069 https://pure.manchester.ac.uk/ws/files/25857977/POST-PEER-REVIEW-NON-PUBLISHERS.PDF http://www.liebertonline.com/ast eng eng info:eu-repo/semantics/openAccess Chatzitheodoridis , E , Haigh , S & Lyon , I 2014 , ' A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology ' , Astrobiology , vol. 14 , no. 8 , pp. 651-693 . https://doi.org/10.1089/ast.2013.1069 Biomorph Clays Hydrothermal systems Martian meteorites Search for life (biosignatures) article 2014 ftumanchesterpub https://doi.org/10.1089/ast.2013.1069 2023-10-30T09:18:52Z A conspicuous biomorphic ovoid structure has been discovered in the Nakhla martian meteorite, made of nanocrystalline iron-rich saponitic clay and amorphous material. The ovoid is indigenous to Nakhla and occurs within a late-formed amorphous mesostasis region of rhyolitic composition that is interstitial to two clinopyroxene grains with Al-rich rims, and contains acicular apatite crystals, olivine, sulfides, Ti-rich magnetite, and a new mineral of the rhoenite group. To infer the origin of the ovoid, a large set of analytical tools was employed, including scanning electron microscopy and backscattered electron imaging, wavelength-dispersive X-ray analysis, X-ray mapping, Raman spectroscopy, time-of-flight secondary ion mass spectrometry analysis, high-resolution transmission electron microscope imaging, and atomic force microscope topographic mapping. The concentric wall of the ovoid surrounds an originally hollow volume and exhibits internal layering of contrasting nanotextures but uniform chemical composition, and likely inherited its overall shape from a preexisting vesicle in the mesostasis glass. A final fibrous layer of Fe-rich phases blankets the interior surfaces of the ovoid wall structure. There is evidence that the parent rock of Nakhla has undergone a shock event from a nearby bolide impact that melted the rims of pyroxene and the interstitial matter and initiated an igneous hydrothermal system of rapidly cooling fluids, which were progressively mixed with fluids from the melted permafrost. Sharp temperature gradients were responsible for the crystallization of Al-rich clinopyroxene rims, rhoenite, acicular apatites, and the quenching of the mesostasis glass and the vesicle. During the formation of the ovoid structure, episodic fluid infiltration events resulted in the precipitation of saponite rinds around the vesicle walls, altered pyrrhotite to marcasite, and then isolated the ovoid wall structure from the rest of the system by depositing a layer of iron oxides/hydroxides. Carbonates, halite, and ... Article in Journal/Newspaper permafrost The University of Manchester: Research Explorer Astrobiology 14 8 651 693
institution Open Polar
collection The University of Manchester: Research Explorer
op_collection_id ftumanchesterpub
language English
topic Biomorph
Clays
Hydrothermal systems
Martian meteorites
Search for life (biosignatures)
spellingShingle Biomorph
Clays
Hydrothermal systems
Martian meteorites
Search for life (biosignatures)
Chatzitheodoridis, Elias
Haigh, Sarah
Lyon, Ian
A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology
topic_facet Biomorph
Clays
Hydrothermal systems
Martian meteorites
Search for life (biosignatures)
description A conspicuous biomorphic ovoid structure has been discovered in the Nakhla martian meteorite, made of nanocrystalline iron-rich saponitic clay and amorphous material. The ovoid is indigenous to Nakhla and occurs within a late-formed amorphous mesostasis region of rhyolitic composition that is interstitial to two clinopyroxene grains with Al-rich rims, and contains acicular apatite crystals, olivine, sulfides, Ti-rich magnetite, and a new mineral of the rhoenite group. To infer the origin of the ovoid, a large set of analytical tools was employed, including scanning electron microscopy and backscattered electron imaging, wavelength-dispersive X-ray analysis, X-ray mapping, Raman spectroscopy, time-of-flight secondary ion mass spectrometry analysis, high-resolution transmission electron microscope imaging, and atomic force microscope topographic mapping. The concentric wall of the ovoid surrounds an originally hollow volume and exhibits internal layering of contrasting nanotextures but uniform chemical composition, and likely inherited its overall shape from a preexisting vesicle in the mesostasis glass. A final fibrous layer of Fe-rich phases blankets the interior surfaces of the ovoid wall structure. There is evidence that the parent rock of Nakhla has undergone a shock event from a nearby bolide impact that melted the rims of pyroxene and the interstitial matter and initiated an igneous hydrothermal system of rapidly cooling fluids, which were progressively mixed with fluids from the melted permafrost. Sharp temperature gradients were responsible for the crystallization of Al-rich clinopyroxene rims, rhoenite, acicular apatites, and the quenching of the mesostasis glass and the vesicle. During the formation of the ovoid structure, episodic fluid infiltration events resulted in the precipitation of saponite rinds around the vesicle walls, altered pyrrhotite to marcasite, and then isolated the ovoid wall structure from the rest of the system by depositing a layer of iron oxides/hydroxides. Carbonates, halite, and ...
format Article in Journal/Newspaper
author Chatzitheodoridis, Elias
Haigh, Sarah
Lyon, Ian
author_facet Chatzitheodoridis, Elias
Haigh, Sarah
Lyon, Ian
author_sort Chatzitheodoridis, Elias
title A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology
title_short A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology
title_full A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology
title_fullStr A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology
title_full_unstemmed A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology
title_sort conspicuous clay ovoid in nakhla: evidence for subsurface hydrothermal alteration on mars with implications for astrobiology
publishDate 2014
url https://research.manchester.ac.uk/en/publications/4be51962-a326-48ce-9f1b-175579ca4145
https://doi.org/10.1089/ast.2013.1069
https://pure.manchester.ac.uk/ws/files/25857977/POST-PEER-REVIEW-NON-PUBLISHERS.PDF
http://www.liebertonline.com/ast
genre permafrost
genre_facet permafrost
op_source Chatzitheodoridis , E , Haigh , S & Lyon , I 2014 , ' A conspicuous clay ovoid in nakhla: Evidence for subsurface hydrothermal alteration on mars with implications for astrobiology ' , Astrobiology , vol. 14 , no. 8 , pp. 651-693 . https://doi.org/10.1089/ast.2013.1069
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1089/ast.2013.1069
container_title Astrobiology
container_volume 14
container_issue 8
container_start_page 651
op_container_end_page 693
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