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Dehydroxylate I, a product of the thermal decomposition of serpentine, has been observed in heated carbonaceous chondrite meteorites. To better understand the occurrence of dehydroxylate I on carbonaceous asteroids, we have experimentally heated the carbonaceous chondrite Murchison from 400 to 550 °C at 25°C temperature steps, during which in situ micro X-ray diffraction (µXRD) patterns were collected using synchrotron radiation. µXRD was utilized such that the dehydroxylate I’s diffraction pattern could be isolated and characterized. This was successfully achieved, with the phase being detected at 400 °C. A diffraction pattern for dehydroxylate I was isolated at 525 °C, where it displayed crystallographic similarities to the mineral carlosturanite. We propose dehydroxylate I is produced when gaps form in serpentine’s tetrahedral sheet during its breakdown, which is consistent with previous studies on serpentine decomposition. The d-spacings for dehydroxylate I described here can be used to better identify it in natural and experimentally heated terrestrial and meteoritic samples.

Details

1009240
Subject
Crystal structure;
Similarity;
Serpentine;
Minerals;
Asteroids;
Experiments;
Temperature;
Diffraction;
Decomposition;
Thermal decomposition;
Crystallography;
Carbonaceous chondrites;
Meteors & meteorites;
Diffraction patterns;
Hydration;
X-ray diffraction;
Synchrotron radiation
Identifier / keyword
Serpentine; Carbonaceous chondrites; Meteorites; Thermal metamorphism; Post-hydration heating; X-ray diffraction; Laboratory experiments
Title
Dehydroxylate I formation from the thermal decomposition of serpentine on c-complex asteroids: similarities to carlosturanite
Author
Jenkins, Laura E. 1   VIAFID ORCID Logo  ; King, Ashley J. 2 ; Lee, Martin R. 1 ; Daly, Luke 3 ; Ignatyev, Konstantin 4 ; Floyd, Cameron J. 1 ; Martin, Pierre-Etienne M. C. 1 

 The University of Glasgow, School of Geographical and Earth Sciences, Glasgow, Scotland, UK (GRID:grid.8756.c) (ISNI:0000 0001 2193 314X) 
 Natural History Museum, Planetary Materials Group, London, England, UK (GRID:grid.35937.3b) (ISNI:0000 0001 2270 9879) 
 The University of Glasgow, School of Geographical and Earth Sciences, Glasgow, Scotland, UK (GRID:grid.8756.c) (ISNI:0000 0001 2193 314X); Curtin University, Space Science and Technology Centre, School of Earth and Planetary Sciences, Perth, Australia (GRID:grid.1032.0) (ISNI:0000 0004 0375 4078); The University of Sydney, Australian Centre for Microscopy and Microanalysis, Sydney, Australia (GRID:grid.1013.3) (ISNI:0000 0004 1936 834X) 
 Harwell Science and Innovation Campus, Diamond Light Source, Didcot, England, UK (GRID:grid.18785.33) (ISNI:0000 0004 1764 0696) 
Publication title
Earth, Planets and Space (Online); Heidelberg
Volume
77
Issue
1
Pages
191
Publication year
2025
Publication date
Dec 2025
Publisher
Springer Nature B.V.
Place of publication
Heidelberg
Country of publication
Netherlands
Publication subject
Astronomy, Earth Sciences
e-ISSN
18805981
Source type
Scholarly Journal
Language of publication
English
Document type
Journal Article
Publication history
 
 
Online publication date
2025-12-09
Milestone dates
2025-10-26 (Registration); 2025-04-15 (Received); 2025-10-15 (Accepted)
Publication history
 
 
   First posting date
09 Dec 2025
DOI
https://doi.org/10.1186/s40623-025-02310-w
ProQuest document ID
3281067560
Document URL
https://www.proquest.com/scholarly-journals/dehydroxylate-i-formation-thermal-decomposition/docview/3281067560/se-2?accountid=208611
Copyright
© The Author(s) 2025. This work is published under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
Last updated
2025-12-11
Database
ProQuest One Academic