The Bayesian Approach to Radiocarbon Calibration Curve Estimation: The IntCal13, Marine13, and SHCal13 Methodologies

M Niu; T J Heaton; P G Blackwell; C E Buck

doi:10.2458/azu_js_rc.55.17222

The Bayesian Approach to Radiocarbon Calibration Curve Estimation: The IntCal13, Marine13, and SHCal13 Methodologies

Published online by Cambridge University Press: 09 February 2016

M Niu ,

T J Heaton ,

P G Blackwell and

C E Buck

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M Niu*: Affiliation:
School of Mathematics & Statistics, University of Sheffield, United Kingdom
T J Heaton: Affiliation:
School of Mathematics & Statistics, University of Sheffield, United Kingdom
P G Blackwell: Affiliation:
School of Mathematics & Statistics, University of Sheffield, United Kingdom
C E Buck: Affiliation:
School of Mathematics & Statistics, University of Sheffield, United Kingdom
*: Corresponding author: [email protected].

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Abstract

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This article outlines the Bayesian models and methods used to facilitate construction of the 2013 internationally agreed radiocarbon calibration curves known as IntCal13, Marine13, and SHCal13. The models build on those used for the 2004 and 2009 estimates of the curves and, as in 2009, arc implemented using Markov chain Monte Carlo sampling, specifically a Metropolis-within-Gibbs sampler. In addition to the data structures accounted for within the 2004 and 2009 models, the approach outlined here also allows for: the presence of additional uncertainty that the data providers have been unable to quantify; tree-ring data that derive their calendar age from wiggle-matching (in addition to ring counting); varve-counted data that exhibit zero increase in calendar age error between 2 or more consecutive layers; and any data source for which we have dependent calendar age uncertainties.

Type: Research Article
Information: Radiocarbon , Volume 55 , Issue 4: IntCal 13 , 2013 , pp. 1905 - 1922

DOI: https://doi.org/10.2458/azu_js_rc.55.17222 [Opens in a new window]
Copyright: Copyright © 2013 by the Arizona Board of Regents on behalf of the University of Arizona

References

Bard, E, Ménot, G, Rostek, F, Licari, L, Böning, P, Edwards, RL, Cheng, H, Wang, YJ, Heaton, TJ. 2013. Radiocarbon calibration/comparison records based on marine sediments from the Pakistan and Iberian margins. Radiocarbon 55(4), this issue.Google Scholar

Blackwell, PG, Buck, CE. 2008. Estimating radiocarbon calibration curves. Bayesian Analysis 3(2):225–48.Google Scholar

Bowman, S. 1990. Radiocarbon Dating. London: British Museum Publications.Google Scholar

Brockwell, P, Davis, R. 2002. Introduction to Time Series and Forecasting. 2nd edition. New York: Springer.Google Scholar

Bronk Ramsey, C. 2009. Dealing with outliers and offsets in radiocarbon dating. Radiocarbon 51(3):1023–45.CrossRef Google Scholar

Bronk Ramsey, C, Lee, S. 2013. Recent and planned developments of the program OxCal. Radiocarbon 55(2–3):720–30.Google Scholar

Bronk Ramsey, C, Staff, RA, Bryant, CL, Brock, F, Kitagawa, H, van der Plicht, J, Schlolaut, G, Marshall, MH, Brauer, A, Lamb, HF, Payne, RL, Tarasov, PE, Haraguchi, T, Gotanda, K, Yonenobu, H, Yokoyama, Y, Tada, R, Nakagawa, T. 2012. A complete terrestrial radiocarbon record for 11.2 to 52.8 kyr B.P. Science 338(6105):370–4.Google Scholar

Buck, CE, Blackwell, PG. 2004. Formal statistical models for estimating radiocarbon calibration curves. Radiocarbon 46(3):1093–102.Google Scholar

Christen, JA. 1994. Summarizing a set of radiocarbon determinations: a robust approach. Applied Statistics 43(3)489–503.Google Scholar

Christen, JA, Pérez, S. 2009. A new robust statistical model for radiocarbon data. Radiocarbon 51(3):1047–59.Google Scholar

Heaton, TJ, Blackwell, PG, Buck, CE. 2009. A Bayesian approach to the estimation of radiocarbon calibration curves: the IntCal09 methodology. Radiocarbon 51(4):1151–64.CrossRef Google Scholar

Heaton, TJ, Bard, E, Hughen, K. 2013. Elastic tie-pointing—transferring chronologies between records via a Gaussian process. Radiocarbon 55(4), this issue.Google Scholar

Hogg, A, Palmer, J, Boswijk, G, Turney, C. 2011. High-precision radiocarbon measurements of tree-ring dated wood from New Zealand: 195 BC-AD 995. Radiocarbon 53(3):529–42.Google Scholar

Hogg, AG, Hua, Q, Blackwell, PG, Niu, M, Buck, CE, Guilderson, TP, Heaton, TJ, Palmer, JG, Reimer, PJ, Reimer, RW, Turney, CSM, Zimmerman, SRH. 2013a. SHCal13 Southern Hemisphere calibration, 0–50,000 years cal BP. Radiocarbon 55(4), this issue.Google Scholar

Hogg, A, Turney, C, Palmer, J, Southon, J, Kromer, B, Bronk Ramsey, C, Boswijk, G, Fenwick, P, Noronha, A, Staff, R, Friedrich, M, Reynard, L, Guetter, D, Wacker, L, Jones, R. 2013b. The New Zealand kauri (Agathis australis) research project: a radiocarbon dating intercomparison of Younger Dryas wood and implications for IntCal13. Radiocarbon 55(4), this issue.Google Scholar

Hua, Q, Barbetti, M, Fink, D, Kaiser, K, Friedrich, M, Kromer, B, Levchenko, V, Zoppi, U, Smith, A, Bertuch, F. 2009. Atmospheric ¹⁴C variations derived from tree rings during the early Younger Dryas. Quaternary Science Reviews 28(25–26):2982–990.CrossRef Google Scholar

Hughen, KA, Southon, JR, Lehman, SJ, Overpeck, JT. 2000. Synchronous radiocarbon and climate shifts during the last deglaciation. Science 290(5498):1951–4.Google Scholar

Hughen, KA, Baillie, MGL, Bard, E, Beck, JW, Bertrand, CJH, Blackwell, PG, Buck, CE, Burr, GS, Cutler, KB, Damon, PE, Edwards, RL, Fairbanks, RG, Friedrich, M, Guilderson, TP, Kromer, B, McCormac, G, Manning, S, Bronk Ramsey, C, Reimer, PJ, Reimer, RW, Remmele, S, Southon, JR, Stuiver, M, Talamo, S, Taylor, FW, van der Plicht, J, Weyhenmeyer, CE. 2004a. Marine04 marine radiocarbon age calibration, 0–26 cal kyr BP. Radiocarbon 46(3):1059–86.CrossRef Google Scholar

Hughen, KA, Lehman, SJ, Southon, JR, Overpeck, J, Marchal, O, Herring, C, Turnbull, J. 2004b. ¹⁴C activity and global carbon cycle changes over the past 50,000 years. Science 303(5655):202–7.Google Scholar

Hughen, KA, Southon, JR, Bertrand, CJH, Frantz, B, Zermeño, P. 2004c. Cariaco Basin calibration update: revisions to calendar and ¹⁴C chronologies for core PL07-58PC. Radiocarbon 46(3):1161–87.Google Scholar

Hughen, K, Southon, J, Lehman, S, Bertrand, C, Turnbull, J. 2006. Marine-derived ¹⁴C calibration and activity record for the past 50,000 years updated from the Cariaco Basin. Quaternary Science Reviews 25(23–24):3216–27.Google Scholar

McCormac, FG, Hogg, AG, Blackwell, PG, Buck, CE, Higham, TFG, Reimer, PJ. 2004. SHCal04 Southern Hemisphere calibration, 0–11.0 cal kyr BP. Radiocarbon 46(3):1087–92.Google Scholar

Millard, AR. 2008. Comment on article by Blackwell and Buck, “Estimating radiocarbon calibration curves.” Bayesian Analysis 3(2):255–61.Google Scholar

R Core Team. 2013. R: A Language and Environment for Statistical Computing. Vienna: R Foundation for Statistical Computing. URL: http://www.R-project.org.Google Scholar

Reimer, PJ, Baillie, MGL, Bard, E, Bayliss, A, Beck, WJ, Bertrand, C, Blackwell, PG, Buck, CE, Burr, GS, Cutler, KB, Damon, PE, Edwards, RL, Fairbanks, RQ Friedrich, M, Guilderson, TP, Hughen, KA, Kromer, B, McCormac, FQ Manning, S, Bronk Ramsey, C, Reimer, RW, Remmele, S, Southon, JR, Stuiver, M, Talamo, S, Taylor, FW, van der Plicht, J, Weyhenmeyer, CE. 2004. IntCal04 terrestrial radiocarbon age calibration, 0–26 cal kyr BP. Radiocarbon 46(3):1029–58.Google Scholar

Reimer, PJ, Baillie, MGL, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Bronk Ramsey, C, Buck, CE, Burr, GS, Edwards, RL, Friedrich, M, Grootes, PM, Guilderson, TP, Hajdas, I, Heaton, TJ, Hogg, AQ Hughen, KA, Kaiser, KF, Kromer, B, McCormac, FQ Manning, SW, Reimer, RW, Richards, DA, Southon, JR, Talamo, S, Turney, CSM, van der Plicht, J, Weyhenmeyer, CE. 2009. IntCal09 and Marine09 radiocarbon age calibration curves, 0–50,000 years cal BP. Radiocarbon 51(4):1111–50.Google Scholar

Reimer, PJ, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Bronk Ramsey, C, Buck, CE, Cheng, H, Edwards, RL, Friedrich, M, Grootes, PM, Guilderson, TP, Haflidason, H, Hajdas, I, Hatté, C, Heaton, TJ, Hoffman, DL, Hogg, AQ Hughen, KA, Kaiser, KF, Kromer, B, Manning, SW, Niu, M, Reimer, RW, Richards, DA, Scott, EM, Southon, JR, Staff, RA, Turney, CSM, van der Plicht, J. 2013. IntCal13 and Marine 13 radiocarbon age calibration curves 0–50,000 years cal BP. Radiocarbon 55(4), this issue.Google Scholar

Taylor, H, Karlin, S. 1998. An Introduction to Stochastic Modeling. 3rd edition. Oxford: Academic Press.Google Scholar

van der Plicht, J, Imamura, M, Sakamoto, M. 2012. Dating of Late Pleistocene tree-ring series from Japan. Radiocarbon 54(3–1):625–33.Google Scholar

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Reimer, Paula J Bard, Edouard Bayliss, Alex Beck, J Warren Blackwell, Paul G Ramsey, Christopher Bronk Brown, David M Buck, Caitlin E Edwards, R Lawrence Friedrich, Michael Grootes, Pieter M Guilderson, Thomas P Haflidason, Haflidi Hajdas, Irka Hatté, Christine Heaton, Timothy J Hogg, Alan G Hughen, Konrad A Kaiser, K Felix Kromer, Bernd Manning, Sturt W Reimer, Ron W Richards, David A Scott, E Marian Southon, John R Turney, Christian S M and van der Plicht, Johannes 2013. Selection and Treatment of Data for Radiocarbon Calibration: An Update to the International Calibration (IntCal) Criteria. Radiocarbon, Vol. 55, Issue. 4, p. 1923.

Reimer, Paula J Bard, Edouard Bayliss, Alex Beck, J Warren Blackwell, Paul G Ramsey, Christopher Bronk Buck, Caitlin E Cheng, Hai Edwards, R Lawrence Friedrich, Michael Grootes, Pieter M Guilderson, Thomas P Haflidason, Haflidi Hajdas, Irka Hatté, Christine Heaton, Timothy J Hoffmann, Dirk L Hogg, Alan G Hughen, Konrad A Kaiser, K Felix Kromer, Bernd Manning, Sturt W Niu, Mu Reimer, Ron W Richards, David A Scott, E Marian Southon, John R Staff, Richard A Turney, Christian S M and van der Plicht, Johannes 2013. IntCal13 and Marine13 Radiocarbon Age Calibration Curves 0–50,000 Years cal BP. Radiocarbon, Vol. 55, Issue. 4, p. 1869.

Hogg, Alan G Hua, Quan Blackwell, Paul G Niu, Mu Buck, Caitlin E Guilderson, Thomas P Heaton, Timothy J Palmer, Jonathan G Reimer, Paula J Reimer, Ron W Turney, Christian S M and Zimmerman, Susan R H 2013. SHCal13 Southern Hemisphere Calibration, 0–50,000 Years cal BP. Radiocarbon, Vol. 55, Issue. 4, p. 1889.

Ramsey, C Bronk Scott, E M and van der Plicht, J 2013. Calibration for Archaeological and Environmental Terrestrial Samples in the Time Range 26–50 ka cal BP. Radiocarbon, Vol. 55, Issue. 4, p. 2021.

Sierra, C. A. Müller, M. and Trumbore, S. E. 2014. Modeling radiocarbon dynamics in soils: SoilR version 1.1. Geoscientific Model Development, Vol. 7, Issue. 5, p. 1919.

Goswami, B. Heitzig, J. Rehfeld, K. Marwan, N. Anoop, A. Prasad, S. and Kurths, J. 2014. Estimation of sedimentary proxy records together with associated uncertainty. Nonlinear Processes in Geophysics, Vol. 21, Issue. 6, p. 1093.

Stutz, Aaron Jonas Shea, John J. Rech, Jason A. Pigati, Jeffrey S. Wilson, Jim Belmaker, Miriam Albert, Rosa Maria Arpin, Trina Cabanes, Dan Clark, Jamie L. Hartman, Gideon Hourani, Fuad White, Chantel E. and Nilsson Stutz, Liv 2015. Early Upper Paleolithic chronology in the Levant: new ABOx-SC accelerator mass spectrometry results from the Mughr el-Hamamah Site, Jordan. Journal of Human Evolution, Vol. 85, Issue. , p. 157.

Dutta, Koushik 2016. Sun, Ocean, Nuclear Bombs, and Fossil Fuels: Radiocarbon Variations and Implications for High-Resolution Dating. Annual Review of Earth and Planetary Sciences, Vol. 44, Issue. 1, p. 239.

Adolphi, Florian Muscheler, Raimund Friedrich, Michael Güttler, Dominik Wacker, Lukas Talamo, Sahra and Kromer, Bernd 2017. Radiocarbon calibration uncertainties during the last deglaciation: Insights from new floating tree-ring chronologies. Quaternary Science Reviews, Vol. 170, Issue. , p. 98.

Philippe, Lanos and Anne, Philippe 2018. Event date model: a robust Bayesian tool for chronology building. Communications for Statistical Applications and Methods, Vol. 25, Issue. 2, p. 131.

Alves, Eduardo Q. Macario, Kita Ascough, Philippa and Bronk Ramsey, Christopher 2018. The Worldwide Marine Radiocarbon Reservoir Effect: Definitions, Mechanisms, and Prospects. Reviews of Geophysics, Vol. 56, Issue. 1, p. 278.

Pearson, Charlotte L. Brewer, Peter W. Brown, David Heaton, Timothy J. Hodgins, Gregory W. L. Jull, A. J. Timothy Lange, Todd and Salzer, Matthew W. 2018. Annual radiocarbon record indicates 16th century BCE date for the Thera eruption. Science Advances, Vol. 4, Issue. 8,

Daly, Kevin G. Maisano Delser, Pierpaolo Mullin, Victoria E. Scheu, Amelie Mattiangeli, Valeria Teasdale, Matthew D. Hare, Andrew J. Burger, Joachim Verdugo, Marta Pereira Collins, Matthew J. Kehati, Ron Erek, Cevdet Merih Bar-Oz, Guy Pompanon, François Cumer, Tristan Çakırlar, Canan Mohaseb, Azadeh Fatemeh Decruyenaere, Delphine Davoudi, Hossein Çevik, Özlem Rollefson, Gary Vigne, Jean-Denis Khazaeli, Roya Fathi, Homa Doost, Sanaz Beizaee Rahimi Sorkhani, Roghayeh Vahdati, Ali Akbar Sauer, Eberhard W. Azizi Kharanaghi, Hossein Maziar, Sepideh Gasparian, Boris Pinhasi, Ron Martin, Louise Orton, David Arbuckle, Benjamin S. Benecke, Norbert Manica, Andrea Horwitz, Liora Kolska Mashkour, Marjan and Bradley, Daniel G. 2018. Ancient goat genomes reveal mosaic domestication in the Fertile Crescent. Science, Vol. 361, Issue. 6397, p. 85.

Jacobsson, Piotr Hamilton, William Derek Cook, Gordon Crone, Anne Dunbar, Elaine Kinch, Helen Naysmith, Philip Tripney, Brian and Xu, Sheng 2018. Refining the Hallstatt Plateau: Short-Term14C Variability and Small Scale Offsets in 50 Consecutive Single Tree-Rings from Southwest Scotland Dendro-Dated to 510–460 BC. Radiocarbon, Vol. 60, Issue. 1, p. 219.

Li, Hong-Chun Wang, Jie Sun, Jing-Jing Chou, Chun-Yen Li, Hong-Kai Xia, Yang-Yang Zhao, Hong-Yan Yang, Qian-Nan and Kashyap, Sneha 2019. Study of Jinchuan Mire in NE China I: AMS 14C, 210Pb and 137Cs dating on peat cores. Quaternary International, Vol. 528, Issue. , p. 9.

Hogg, Alan G Heaton, Timothy J Ramsey, Christopher Bronk Boswijk, Gretel Palmer, Jonathan G Turney, Chris S M Southon, John and Gumbley, Warren 2019. The Influence of Calibration Curve Construction and Composition on the Accuracy and Precision of Radiocarbon Wiggle-Matching of Tree Rings, Illustrated by Southern Hemisphere Atmospheric Data Sets from AD 1500–1950. Radiocarbon, Vol. 61, Issue. 5, p. 1265.

Patnaik, Rajeev Li, Hong-Chun Lin, Jih-Pai Bansal, Mahi and Chauhan, Parth R. 2019. Microlithic, faunal, floral and isotopic data from an archaeological site 14C dated to LGM in the eastern state of Odisha, India. Quaternary International, Vol. 528, Issue. , p. 138.

Tóth, Anikó B. Lyons, S. Kathleen Barr, W. Andrew Behrensmeyer, Anna K. Blois, Jessica L. Bobe, René Davis, Matt Du, Andrew Eronen, Jussi T. Faith, J. Tyler Fraser, Danielle Gotelli, Nicholas J. Graves, Gary R. Jukar, Advait M. Miller, Joshua H. Pineda-Munoz, Silvia Soul, Laura C. Villaseñor, Amelia and Alroy, John 2019. Reorganization of surviving mammal communities after the end-Pleistocene megafaunal extinction. Science, Vol. 365, Issue. 6459, p. 1305.

Speranza, Flavio Cesar Giralt, Santiago Lupo, Liliana Concepción Kulemeyer, Julio José Pereira, Elizabeth de los Ángeles and López, Bernat Claramunt 2019. Paleoenvironmental reconstruction of the semi-arid Chaco region of Argentina based on multiproxy lake records over the last six hundred years. Palaeogeography, Palaeoclimatology, Palaeoecology, Vol. 524, Issue. , p. 85.

Marshall, P. Bayliss, A. Farid, S. Tyers, C. Bronk Ramsey, C. Cook, G. Doğan, T. Freeman, S.P.H.T. İlkmen, E. and Knowles, T. 2019. 14C wiggle-matching of short tree-ring sequences from post-medieval buildings in England. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, Vol. 438, Issue. , p. 218.

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The Bayesian Approach to Radiocarbon Calibration Curve Estimation: The IntCal13, Marine13, and SHCal13 Methodologies

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