Cargando…

The Fe/S ratio of pyrrhotite group sulfides in chondrites: An indicator of oxidation and implications for return samples from asteroids Ryugu and Bennu

Determining compositional trends among individual minerals is key to understanding the thermodynamic conditions under which they formed and altered, and is also essential to maximizing the scientific value of small extraterrestrial samples, including returned samples and meteorites. Here we report t...

Descripción completa

Detalles Bibliográficos
Autores principales: Schrader, Devin L., Davidson, Jemma, McCoy, Timothy J., Zega, Thomas J., Russell, Sara S., Domanik, Kenneth J., King, Ashley J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8442838/
https://www.ncbi.nlm.nih.gov/pubmed/34531614
http://dx.doi.org/10.1016/j.gca.2021.03.019
_version_ 1783753076306345984
author Schrader, Devin L.
Davidson, Jemma
McCoy, Timothy J.
Zega, Thomas J.
Russell, Sara S.
Domanik, Kenneth J.
King, Ashley J.
author_facet Schrader, Devin L.
Davidson, Jemma
McCoy, Timothy J.
Zega, Thomas J.
Russell, Sara S.
Domanik, Kenneth J.
King, Ashley J.
author_sort Schrader, Devin L.
collection PubMed
description Determining compositional trends among individual minerals is key to understanding the thermodynamic conditions under which they formed and altered, and is also essential to maximizing the scientific value of small extraterrestrial samples, including returned samples and meteorites. Here we report the chemical compositions of Fe-sulfides, focusing on the pyrrhotite-group sulfides, which are ubiquitous in chondrites and are sensitive indicators of formation and alteration conditions in the protoplanetary disk and in small Solar System bodies. Our data show that while there are trends with the at.% Fe/S ratio of pyrrhotite with thermal and aqueous alteration in some meteorite groups, there is a universal trend between the Fe/S ratio and degree of oxidation. Relatively reducing conditions led to the formation of troilite during: (1) chondrule formation in the protoplanetary disk (i.e., pristine chondrites) and (2) parent body thermal alteration (i.e., LL4 to LL6, CR1, CM, and CY chondrites). Oxidizing and sulfidizing conditions led to the formation of Fe-depleted pyrrhotite with low Fe/S ratios during: (1) aqueous alteration (i.e., CM and CI chondrites), and (2) thermal alteration (i.e., CK and R chondrites). The presence of troilite in highly aqueously altered carbonaceous chondrites (e.g., CY, CR1, and some CM chondrites) indicates they were heated after aqueous alteration. The presence of troilite, Fe-depleted pyrrhotite, or pyrite in a chondrite can provide an estimate of the oxygen and sulfur fugacities at which it was formed or altered. The data reported here can be used to estimate the oxygen fugacity of formation and potentially the aqueous and/or thermal histories of sulfides in extraterrestrial samples, including those returned by the Hayabusa2 mission and due to be returned by the OSIRIS-REx mission in the near future.
format Online
Article
Text
id pubmed-8442838
institution National Center for Biotechnology Information
language English
publishDate 2021
record_format MEDLINE/PubMed
spelling pubmed-84428382021-09-15 The Fe/S ratio of pyrrhotite group sulfides in chondrites: An indicator of oxidation and implications for return samples from asteroids Ryugu and Bennu Schrader, Devin L. Davidson, Jemma McCoy, Timothy J. Zega, Thomas J. Russell, Sara S. Domanik, Kenneth J. King, Ashley J. Geochim Cosmochim Acta Article Determining compositional trends among individual minerals is key to understanding the thermodynamic conditions under which they formed and altered, and is also essential to maximizing the scientific value of small extraterrestrial samples, including returned samples and meteorites. Here we report the chemical compositions of Fe-sulfides, focusing on the pyrrhotite-group sulfides, which are ubiquitous in chondrites and are sensitive indicators of formation and alteration conditions in the protoplanetary disk and in small Solar System bodies. Our data show that while there are trends with the at.% Fe/S ratio of pyrrhotite with thermal and aqueous alteration in some meteorite groups, there is a universal trend between the Fe/S ratio and degree of oxidation. Relatively reducing conditions led to the formation of troilite during: (1) chondrule formation in the protoplanetary disk (i.e., pristine chondrites) and (2) parent body thermal alteration (i.e., LL4 to LL6, CR1, CM, and CY chondrites). Oxidizing and sulfidizing conditions led to the formation of Fe-depleted pyrrhotite with low Fe/S ratios during: (1) aqueous alteration (i.e., CM and CI chondrites), and (2) thermal alteration (i.e., CK and R chondrites). The presence of troilite in highly aqueously altered carbonaceous chondrites (e.g., CY, CR1, and some CM chondrites) indicates they were heated after aqueous alteration. The presence of troilite, Fe-depleted pyrrhotite, or pyrite in a chondrite can provide an estimate of the oxygen and sulfur fugacities at which it was formed or altered. The data reported here can be used to estimate the oxygen fugacity of formation and potentially the aqueous and/or thermal histories of sulfides in extraterrestrial samples, including those returned by the Hayabusa2 mission and due to be returned by the OSIRIS-REx mission in the near future. 2021-03-26 2021-06-15 /pmc/articles/PMC8442838/ /pubmed/34531614 http://dx.doi.org/10.1016/j.gca.2021.03.019 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) ).
spellingShingle Article
Schrader, Devin L.
Davidson, Jemma
McCoy, Timothy J.
Zega, Thomas J.
Russell, Sara S.
Domanik, Kenneth J.
King, Ashley J.
The Fe/S ratio of pyrrhotite group sulfides in chondrites: An indicator of oxidation and implications for return samples from asteroids Ryugu and Bennu
title The Fe/S ratio of pyrrhotite group sulfides in chondrites: An indicator of oxidation and implications for return samples from asteroids Ryugu and Bennu
title_full The Fe/S ratio of pyrrhotite group sulfides in chondrites: An indicator of oxidation and implications for return samples from asteroids Ryugu and Bennu
title_fullStr The Fe/S ratio of pyrrhotite group sulfides in chondrites: An indicator of oxidation and implications for return samples from asteroids Ryugu and Bennu
title_full_unstemmed The Fe/S ratio of pyrrhotite group sulfides in chondrites: An indicator of oxidation and implications for return samples from asteroids Ryugu and Bennu
title_short The Fe/S ratio of pyrrhotite group sulfides in chondrites: An indicator of oxidation and implications for return samples from asteroids Ryugu and Bennu
title_sort fe/s ratio of pyrrhotite group sulfides in chondrites: an indicator of oxidation and implications for return samples from asteroids ryugu and bennu
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8442838/
https://www.ncbi.nlm.nih.gov/pubmed/34531614
http://dx.doi.org/10.1016/j.gca.2021.03.019
work_keys_str_mv AT schraderdevinl thefesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT davidsonjemma thefesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT mccoytimothyj thefesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT zegathomasj thefesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT russellsaras thefesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT domanikkennethj thefesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT kingashleyj thefesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT schraderdevinl fesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT davidsonjemma fesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT mccoytimothyj fesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT zegathomasj fesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT russellsaras fesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT domanikkennethj fesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu
AT kingashleyj fesratioofpyrrhotitegroupsulfidesinchondritesanindicatorofoxidationandimplicationsforreturnsamplesfromasteroidsryuguandbennu