Marine20—The Marine Radiocarbon Age Calibration Curve (0–55,000 cal BP)

Timothy J. Heaton; Peter Köhler; Martin Butzin; Edouard Bard; Ron W. Reimer; William E. N. Austin; Christopher Bronk Ramsey; Pieter M. Grootes; Konrad A. Hughen; Bernd Kromer; Paula J. Reimer; Jess Adkins; Andrea Burke; Mea S. Cook; Jesper Olsen; Luke C. Skinner

doi:10.1017/RDC.2020.68

Marine20—The Marine Radiocarbon Age Calibration Curve (0–55,000 cal BP)

Timothy J. Heaton^*
, Peter Köhler
, Martin Butzin
, Edouard Bard
, Ron W. Reimer
, William E. N. Austin
, Christopher Bronk Ramsey
, Pieter M. Grootes
, Konrad A. Hughen
, Bernd Kromer
, Paula J. Reimer
, Jess Adkins
, Andrea Burke
, Mea S. Cook
, Jesper Olsen
, Luke C. Skinner

^*Corresponding author for this work

Department of Physics and Astronomy

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

1410 Citations (Scopus)

101 Downloads (Pure)

Abstract

The concentration of radiocarbon (C) differs between ocean and atmosphere. Radiocarbon determinations from samples which obtained their C in the marine environment therefore need a marine-specific calibration curve and cannot be calibrated directly against the atmospheric-based IntCal20 curve. This paper presents Marine20, an update to the internationally agreed marine radiocarbon age calibration curve that provides a non-polar global-average marine record of radiocarbon from 0-55 cal kBP and serves as a baseline for regional oceanic variation. Marine20 is intended for calibration of marine radiocarbon samples from non-polar regions; it is not suitable for calibration in polar regions where variability in sea ice extent, ocean upwelling and air-sea gas exchange may have caused larger changes to concentrations of marine radiocarbon. The Marine20 curve is based upon 500 simulations with an ocean/atmosphere/biosphere box-model of the global carbon cycle that has been forced by posterior realizations of our Northern Hemispheric atmospheric IntCal20 C curve and reconstructed changes in CO2 obtained from ice core data. These forcings enable us to incorporate carbon cycle dynamics and temporal changes in the atmospheric C level. The box-model simulations of the global-average marine radiocarbon reservoir age are similar to those of a more complex three-dimensional ocean general circulation model. However, simplicity and speed of the box model allow us to use a Monte Carlo approach to rigorously propagate the uncertainty in both the historic concentration of atmospheric C and other key parameters of the carbon cycle through to our final Marine20 calibration curve. This robust propagation of uncertainty is fundamental to providing reliable precision for the radiocarbon age calibration of marine based samples. We make a first step towards deconvolving the contributions of different processes to the total uncertainty; discuss the main differences of Marine20 from the previous age calibration curve Marine13; and identify the limitations of our approach together with key areas for further work. The updated values for ΔR, the regional marine radiocarbon reservoir age corrections required to calibrate against Marine20, can be found at the data base http://calib.org/marine/.

Original language	English
Journal	Radiocarbon
Volume	62
Issue	4
Pages (from-to)	779-820
Number of pages	42
ISSN	0033-8222
DOIs	https://doi.org/10.1017/RDC.2020.68
Publication status	Published - 1 Aug 2020

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Heaton, T. J., Köhler, P., Butzin, M., Bard, E., Reimer, R. W., Austin, W. E. N., Bronk Ramsey, C., Grootes, P. M., Hughen, K. A., Kromer, B., Reimer, P. J., Adkins, J., Burke, A., Cook, M. S., Olsen, J., & Skinner, L. C. (2020). Marine20—The Marine Radiocarbon Age Calibration Curve (0–55,000 cal BP). Radiocarbon, 62(4), 779-820. https://doi.org/10.1017/RDC.2020.68

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abstract = "The concentration of radiocarbon (C) differs between ocean and atmosphere. Radiocarbon determinations from samples which obtained their C in the marine environment therefore need a marine-specific calibration curve and cannot be calibrated directly against the atmospheric-based IntCal20 curve. This paper presents Marine20, an update to the internationally agreed marine radiocarbon age calibration curve that provides a non-polar global-average marine record of radiocarbon from 0-55 cal kBP and serves as a baseline for regional oceanic variation. Marine20 is intended for calibration of marine radiocarbon samples from non-polar regions; it is not suitable for calibration in polar regions where variability in sea ice extent, ocean upwelling and air-sea gas exchange may have caused larger changes to concentrations of marine radiocarbon. The Marine20 curve is based upon 500 simulations with an ocean/atmosphere/biosphere box-model of the global carbon cycle that has been forced by posterior realizations of our Northern Hemispheric atmospheric IntCal20 C curve and reconstructed changes in CO2 obtained from ice core data. These forcings enable us to incorporate carbon cycle dynamics and temporal changes in the atmospheric C level. The box-model simulations of the global-average marine radiocarbon reservoir age are similar to those of a more complex three-dimensional ocean general circulation model. However, simplicity and speed of the box model allow us to use a Monte Carlo approach to rigorously propagate the uncertainty in both the historic concentration of atmospheric C and other key parameters of the carbon cycle through to our final Marine20 calibration curve. This robust propagation of uncertainty is fundamental to providing reliable precision for the radiocarbon age calibration of marine based samples. We make a first step towards deconvolving the contributions of different processes to the total uncertainty; discuss the main differences of Marine20 from the previous age calibration curve Marine13; and identify the limitations of our approach together with key areas for further work. The updated values for ΔR, the regional marine radiocarbon reservoir age corrections required to calibrate against Marine20, can be found at the data base http://calib.org/marine/.",

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author = "Heaton, \{Timothy J.\} and Peter K{\"o}hler and Martin Butzin and Edouard Bard and Reimer, \{Ron W.\} and Austin, \{William E. N.\} and \{Bronk Ramsey\}, Christopher and Grootes, \{Pieter M.\} and Hughen, \{Konrad A.\} and Bernd Kromer and Reimer, \{Paula J.\} and Jess Adkins and Andrea Burke and Cook, \{Mea S.\} and Jesper Olsen and Skinner, \{Luke C.\}",

year = "2020",

month = aug,

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doi = "10.1017/RDC.2020.68",

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T1 - Marine20—The Marine Radiocarbon Age Calibration Curve (0–55,000 cal BP)

AU - Heaton, Timothy J.

AU - Köhler, Peter

AU - Butzin, Martin

AU - Bard, Edouard

AU - Reimer, Ron W.

AU - Austin, William E. N.

AU - Bronk Ramsey, Christopher

AU - Grootes, Pieter M.

AU - Hughen, Konrad A.

AU - Kromer, Bernd

AU - Reimer, Paula J.

AU - Adkins, Jess

AU - Burke, Andrea

AU - Cook, Mea S.

AU - Olsen, Jesper

AU - Skinner, Luke C.

PY - 2020/8/1

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N2 - The concentration of radiocarbon (C) differs between ocean and atmosphere. Radiocarbon determinations from samples which obtained their C in the marine environment therefore need a marine-specific calibration curve and cannot be calibrated directly against the atmospheric-based IntCal20 curve. This paper presents Marine20, an update to the internationally agreed marine radiocarbon age calibration curve that provides a non-polar global-average marine record of radiocarbon from 0-55 cal kBP and serves as a baseline for regional oceanic variation. Marine20 is intended for calibration of marine radiocarbon samples from non-polar regions; it is not suitable for calibration in polar regions where variability in sea ice extent, ocean upwelling and air-sea gas exchange may have caused larger changes to concentrations of marine radiocarbon. The Marine20 curve is based upon 500 simulations with an ocean/atmosphere/biosphere box-model of the global carbon cycle that has been forced by posterior realizations of our Northern Hemispheric atmospheric IntCal20 C curve and reconstructed changes in CO2 obtained from ice core data. These forcings enable us to incorporate carbon cycle dynamics and temporal changes in the atmospheric C level. The box-model simulations of the global-average marine radiocarbon reservoir age are similar to those of a more complex three-dimensional ocean general circulation model. However, simplicity and speed of the box model allow us to use a Monte Carlo approach to rigorously propagate the uncertainty in both the historic concentration of atmospheric C and other key parameters of the carbon cycle through to our final Marine20 calibration curve. This robust propagation of uncertainty is fundamental to providing reliable precision for the radiocarbon age calibration of marine based samples. We make a first step towards deconvolving the contributions of different processes to the total uncertainty; discuss the main differences of Marine20 from the previous age calibration curve Marine13; and identify the limitations of our approach together with key areas for further work. The updated values for ΔR, the regional marine radiocarbon reservoir age corrections required to calibrate against Marine20, can be found at the data base http://calib.org/marine/.

AB - The concentration of radiocarbon (C) differs between ocean and atmosphere. Radiocarbon determinations from samples which obtained their C in the marine environment therefore need a marine-specific calibration curve and cannot be calibrated directly against the atmospheric-based IntCal20 curve. This paper presents Marine20, an update to the internationally agreed marine radiocarbon age calibration curve that provides a non-polar global-average marine record of radiocarbon from 0-55 cal kBP and serves as a baseline for regional oceanic variation. Marine20 is intended for calibration of marine radiocarbon samples from non-polar regions; it is not suitable for calibration in polar regions where variability in sea ice extent, ocean upwelling and air-sea gas exchange may have caused larger changes to concentrations of marine radiocarbon. The Marine20 curve is based upon 500 simulations with an ocean/atmosphere/biosphere box-model of the global carbon cycle that has been forced by posterior realizations of our Northern Hemispheric atmospheric IntCal20 C curve and reconstructed changes in CO2 obtained from ice core data. These forcings enable us to incorporate carbon cycle dynamics and temporal changes in the atmospheric C level. The box-model simulations of the global-average marine radiocarbon reservoir age are similar to those of a more complex three-dimensional ocean general circulation model. However, simplicity and speed of the box model allow us to use a Monte Carlo approach to rigorously propagate the uncertainty in both the historic concentration of atmospheric C and other key parameters of the carbon cycle through to our final Marine20 calibration curve. This robust propagation of uncertainty is fundamental to providing reliable precision for the radiocarbon age calibration of marine based samples. We make a first step towards deconvolving the contributions of different processes to the total uncertainty; discuss the main differences of Marine20 from the previous age calibration curve Marine13; and identify the limitations of our approach together with key areas for further work. The updated values for ΔR, the regional marine radiocarbon reservoir age corrections required to calibrate against Marine20, can be found at the data base http://calib.org/marine/.

KW - Bayesian modeling calibration carbon cycle computer model marine environment

UR - https://www.scopus.com/pages/publications/85088614410

U2 - 10.1017/RDC.2020.68

DO - 10.1017/RDC.2020.68

M3 - Journal article

SN - 0033-8222

VL - 62

SP - 779

EP - 820

JO - Radiocarbon

JF - Radiocarbon

IS - 4

ER -

Marine20—The Marine Radiocarbon Age Calibration Curve (0–55,000 cal BP)

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