H2O-rich rutile as an indicator for modern-style cold subduction

Lueder, Mona; Tamblyn, Renée; Rubatto, Daniela; Hermann, Jörg (2024). H2O-rich rutile as an indicator for modern-style cold subduction. Contributions to mineralogy and petrology, 179(3) Springer 10.1007/s00410-024-02107-2

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The trace-element and isotope geochemistry of rutile are robust tools to determine metamorphic temperatures, age, and host-/source lithologies. The use of rutile as single grain indicator for pressure, temperature, time and composition (P–T–t–X) of the host rock, which is vital in the use of detrital rutile to trace plate-tectonic regimes throughout Earth’s history, requires the identification of a pressure dependent trace element in rutile. We investigate the pressure dependence of hydrogen in rutile using polarized in-situ Fourier Transform Infrared (FTIR) spectroscopy. H2O contents in rutile vary between < 10–2500 μg/g H2O with higher contents in samples with higher peak metamorphic pressures, making H2O-in-rutile a viable pressure indicator. The highest H2O contents at ~ 450–2000 μg/g are observed in mafic low temperature eclogite-facies rutile related to modern-style cold subduction conditions. Hydrogen zoning in FTIR maps indicates that H+ is retained at temperatures below 600–700 °C. Ratios of H2O/Zr, using H2O as pressure indicator and Zr as temperature proxy, are a proxy for thermal gradients of metamorphic rutile (i.e. P/T). Low temperature eclogite samples are also characterized by high Fe contents and therefore Fe/Zr-ratios might be used as a first order approximation for H2O/Zr-ratios to identify mafic low temperature eclogite facies rutile. Based on common discrimination diagrams, Nb, W, and Sn can be used to distinguish different host/source rock lithologies of rutile. Combining both H2O/Zr-ratios and Nb, W, and Sn contents can thus identify modern-style cold subduction signatures in rutile. The developed systematics can consequently be used to trace cold-subduction features in the (pre-Proterozoic) detrital record.

Item Type:

Journal Article (Original Article)

Division/Institute:

08 Faculty of Science > Institute of Geological Sciences > Petrology
08 Faculty of Science > Institute of Geological Sciences

UniBE Contributor:

Lüder, Mona, Tamblyn, Renée, Rubatto, Daniela, Hermann, Jörg

Subjects:

500 Science > 550 Earth sciences & geology
000 Computer science, knowledge & systems

ISSN:

0010-7999

Publisher:

Springer

Language:

English

Submitter:

Jörg Hermann

Date Deposited:

14 Mar 2024 09:54

Last Modified:

14 Mar 2024 09:54

Publisher DOI:

10.1007/s00410-024-02107-2

BORIS DOI:

10.48350/194227

URI:

https://boris.unibe.ch/id/eprint/194227

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