Temperature Dependence of Clumped Isotopes (∆47) in Aragonite

Niels J. de Winter; Rob Witbaard; Ilja J. Kocken; Inigo A. Müller; Jingjing Guo; Barbara Goudsmit; Martin Ziegler

doi:10.1029/2022GL099479

Temperature Dependence of Clumped Isotopes (∆₄₇) in Aragonite

Niels J. de Winter^*, Rob Witbaard, Ilja J. Kocken, Inigo A. Müller, Jingjing Guo, Barbara Goudsmit, Martin Ziegler

^*Corresponding author for this work

Earth Sciences

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Clumped isotope thermometry can independently constrain the formation temperatures of carbonates, but a lack of precisely temperature-controlled calibration samples limits its application on aragonites. To address this issue, we present clumped isotope compositions of aragonitic bivalve shells grown under highly controlled temperatures (1–18°C), which we combine with clumped isotope data from natural and synthetic aragonites from a wide range of temperatures (1–850°C). We observe no discernible offset in clumped isotope values between aragonitic foraminifera, mollusks, and abiogenic aragonites or between aragonites and calcites, eliminating the need for a mineral-specific calibration or acid fractionation factor. However, due to non-linear behavior of the clumped isotope thermometer, including high-temperature (>100°C) datapoints in linear clumped isotope calibrations causes them to underestimate temperatures of cold (1–18°C) carbonates by 2.7 ± 2.0°C (95% confidence level). Therefore, clumped isotope-based paleoclimate reconstructions should be calibrated using samples with well constrained formation temperatures close to those of the samples.

Original language	English
Article number	e2022GL099479
Pages (from-to)	1-12
Number of pages	12
Journal	Geophysical Research Letters
Volume	49
Issue number	20
Early online date	17 Oct 2022
DOIs	https://doi.org/10.1029/2022GL099479
Publication status	Published - 28 Oct 2022

Bibliographical note

Funding Information:
The authors would like to thank Nele Meckler and Stefano Bernasconi for their thoughtful review of the manuscript, and editor Angelicque White for moderating the review process. Thanks to Arnold van Dijk and Desmond Eefting for their technical assistance in the UU clumped isotope lab. This work is part of the UNBIAS project jointly funded by a Flemish Research Foundation (FWO; 12ZB220N) post‐doctoral fellowship (NJW) and a MSCA Individual Fellowship (H2020‐MSCA‐IF‐2018; 843011—UNBIAS; awarded to NJW). BG is supported by an UU‐NIOZ collaboration grant.

Publisher Copyright:
© 2022 The Authors.

Funding

The authors would like to thank Nele Meckler and Stefano Bernasconi for their thoughtful review of the manuscript, and editor Angelicque White for moderating the review process. Thanks to Arnold van Dijk and Desmond Eefting for their technical assistance in the UU clumped isotope lab. This work is part of the UNBIAS project jointly funded by a Flemish Research Foundation (FWO; 12ZB220N) post‐doctoral fellowship (NJW) and a MSCA Individual Fellowship (H2020‐MSCA‐IF‐2018; 843011—UNBIAS; awarded to NJW). BG is supported by an UU‐NIOZ collaboration grant.

Funders	Funder number
UNBIAS
Horizon 2020 Framework Programme
Fonds Wetenschappelijk Onderzoek	H2020-MSCA-IF-2018, 12ZB220N
H2020 Marie Skłodowska-Curie Actions	843011

Keywords

aragonite
clumped isotopes
mollusk
paleoclimate
temperature

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1029/2022GL099479

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Cite this

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title = "Temperature Dependence of Clumped Isotopes (∆47) in Aragonite",

abstract = "Clumped isotope thermometry can independently constrain the formation temperatures of carbonates, but a lack of precisely temperature-controlled calibration samples limits its application on aragonites. To address this issue, we present clumped isotope compositions of aragonitic bivalve shells grown under highly controlled temperatures (1–18°C), which we combine with clumped isotope data from natural and synthetic aragonites from a wide range of temperatures (1–850°C). We observe no discernible offset in clumped isotope values between aragonitic foraminifera, mollusks, and abiogenic aragonites or between aragonites and calcites, eliminating the need for a mineral-specific calibration or acid fractionation factor. However, due to non-linear behavior of the clumped isotope thermometer, including high-temperature (>100°C) datapoints in linear clumped isotope calibrations causes them to underestimate temperatures of cold (1–18°C) carbonates by 2.7 ± 2.0°C (95% confidence level). Therefore, clumped isotope-based paleoclimate reconstructions should be calibrated using samples with well constrained formation temperatures close to those of the samples.",

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AU - Ziegler, Martin

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N2 - Clumped isotope thermometry can independently constrain the formation temperatures of carbonates, but a lack of precisely temperature-controlled calibration samples limits its application on aragonites. To address this issue, we present clumped isotope compositions of aragonitic bivalve shells grown under highly controlled temperatures (1–18°C), which we combine with clumped isotope data from natural and synthetic aragonites from a wide range of temperatures (1–850°C). We observe no discernible offset in clumped isotope values between aragonitic foraminifera, mollusks, and abiogenic aragonites or between aragonites and calcites, eliminating the need for a mineral-specific calibration or acid fractionation factor. However, due to non-linear behavior of the clumped isotope thermometer, including high-temperature (>100°C) datapoints in linear clumped isotope calibrations causes them to underestimate temperatures of cold (1–18°C) carbonates by 2.7 ± 2.0°C (95% confidence level). Therefore, clumped isotope-based paleoclimate reconstructions should be calibrated using samples with well constrained formation temperatures close to those of the samples.

AB - Clumped isotope thermometry can independently constrain the formation temperatures of carbonates, but a lack of precisely temperature-controlled calibration samples limits its application on aragonites. To address this issue, we present clumped isotope compositions of aragonitic bivalve shells grown under highly controlled temperatures (1–18°C), which we combine with clumped isotope data from natural and synthetic aragonites from a wide range of temperatures (1–850°C). We observe no discernible offset in clumped isotope values between aragonitic foraminifera, mollusks, and abiogenic aragonites or between aragonites and calcites, eliminating the need for a mineral-specific calibration or acid fractionation factor. However, due to non-linear behavior of the clumped isotope thermometer, including high-temperature (>100°C) datapoints in linear clumped isotope calibrations causes them to underestimate temperatures of cold (1–18°C) carbonates by 2.7 ± 2.0°C (95% confidence level). Therefore, clumped isotope-based paleoclimate reconstructions should be calibrated using samples with well constrained formation temperatures close to those of the samples.

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