ESR and luminescence thermochronometry of the Rhône valley, Switzerland

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Serval ID
serval:BIB_3DDA48E7BC0C
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
ESR and luminescence thermochronometry of the Rhône valley, Switzerland
Journal
Quaternary Geochronology
Author(s)
Wen Xiaoxia, Bartz Melanie, Schmidt Christoph, King Georgina E.
ISSN
1871-1014
Publication state
Published
Issued date
02/2024
Peer-reviewed
Oui
Volume
80
Pages
101496
Language
english
Abstract
The impact of Quaternary glaciations on rates of erosion remains disputed. This is mainly due to a lack of geochronological data that cover the timespan of 103−106 years. To fill this temporal gap, we develop electron spin resonance (ESR) thermochronometry using both the Al- and Ti-centres in quartz. The combination of ESR thermochronometry with numerical modelling allows rock cooling histories to be determined, enabling changes in erosion rates to be related to glacial advance. In this study, we conducted a series of laboratory experiments using samples from the upper Rhône valley (Switzerland) that is thought to have substantially deepened around 1 Ma ago. Ten quartz samples, from a transect collected near Sion, were used to (i) optimize the measurement protocol (i.e., preheat conditions), (ii) constrain ESR signal growth and thermal stability of the Al- and Ti-centres to estimate trap kinetic parameters; and (iii) invert the ESR data to constrain rock cooling histories. A preheat plateau experiment showed that 170 °C is the appropriate preheat temperature whilst sensitivity changes are not significant. For most samples the Ti-centre has higher thermal stability than the Al-centre, although the thermal stability of the different samples investigated is highly variable. Preliminary inversion results yield consistent cooling histories of around 30−60 °C/Myr during the Late Quaternary period, except for two valley bottom samples that suggest more rapid rock cooling.
Keywords
ESR thermochronometry, Western European Alps, Thermal stability, Rock cooling
Web of science
Funding(s)
European Research Council (ERC) / 851614
Create date
11/05/2024 13:27
Last modification date
12/07/2024 7:03
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