Bayesian chronological analyses consistent with synchronous age of 12,835-12,735 Cal B.P. for Younger Dryas boundary on four continents

James P. Kennett; Douglas J. Kennett; Brendan J. Culleton; J. Emili Aura Tortosa; James L. Bischoff; Ted E. Bunch; I. Randolph Daniel; Jon M. Erlandson; David Ferraro; Richard B. Firestone; Albert C. Goodyear; Isabel Israde-Alcántara; John R. Johnson; Jesús F.Jordá Pardo; David R. Kimbel; Malcolm A. LeCompte; Neal H. Lopinot; William C. Mahaney; Andrew M.T. Moore; Christopher R. Moore; Jack H. Ray; Thomas W. Stafford; Kenneth Barnett Tankersley; James H. Wittke; Wendy S. Wolbach; Allen West; Mark H. Thiemens

doi:10.1073/pnas.1507146112

Bayesian chronological analyses consistent with synchronous age of 12,835-12,735 Cal B.P. for Younger Dryas boundary on four continents

James P. Kennett, Douglas J. Kennett, Brendan J. Culleton, J. Emili Aura Tortosa, James L. Bischoff, Ted E. Bunch, I. Randolph Daniel, Jon M. Erlandson, David Ferraro, Richard B. Firestone, Albert C. Goodyear, Isabel Israde-Alcántara, John R. Johnson, Jesús F.Jordá Pardo, David R. Kimbel, Malcolm A. LeCompte, Neal H. Lopinot, William C. Mahaney, Andrew M.T. Moore, Christopher R. MooreJack H. Ray, Thomas W. Stafford, Kenneth Barnett Tankersley, James H. Wittke, Wendy S. Wolbach, Allen West, Mark H. Thiemens

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Abstract

The Younger Dryas impact hypothesis posits that a cosmic impact across much of the Northern Hemisphere deposited the Younger Dryas boundary (YDB) layer, containing peak abundances in a variable assemblage of proxies, including magnetic and glassy impact-related spherules, high-temperature minerals and melt glass, nanodiamonds, carbon spherules, aciniform carbon, platinum, and osmium. Bayesian chronological modeling was applied to 354 dates from 23 stratigraphic sections in 12 countries on four continents to establish a modeled YDB age range for this event of 12,835-12,735 Cal B.P. at 95% probability. This range overlaps that of a peak in extraterrestrial platinum in the Greenland Ice Sheet and of the earliest age of the Younger Dryas climate episode in six proxy records, suggesting a causal connection between the YDB impact event and the Younger Dryas. Two statistical tests indicate that both modeled and unmodeled ages in the 30 records are consistent with synchronous deposition of the YDB layer within the limits of dating uncertainty (100 y). The widespread distribution of the YDB layer suggests that it may serve as a datum layer.

Original language	English (US)
Pages (from-to)	E4344-E4353
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	112
Issue number	32
DOIs	https://doi.org/10.1073/pnas.1507146112
State	Published - Aug 11 2015

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Kennett, J. P., Kennett, D. J., Culleton, B. J., Tortosa, J. E. A., Bischoff, J. L., Bunch, T. E., Daniel, I. R., Erlandson, J. M., Ferraro, D., Firestone, R. B., Goodyear, A. C., Israde-Alcántara, I., Johnson, J. R., Pardo, J. F. J., Kimbel, D. R., LeCompte, M. A., Lopinot, N. H., Mahaney, W. C., Moore, A. M. T., ... Thiemens, M. H. (2015). Bayesian chronological analyses consistent with synchronous age of 12,835-12,735 Cal B.P. for Younger Dryas boundary on four continents. Proceedings of the National Academy of Sciences of the United States of America, 112(32), E4344-E4353. https://doi.org/10.1073/pnas.1507146112

@article{7d37f15a199f41dba5589e01b36fa07b,

title = "Bayesian chronological analyses consistent with synchronous age of 12,835-12,735 Cal B.P. for Younger Dryas boundary on four continents",

abstract = "The Younger Dryas impact hypothesis posits that a cosmic impact across much of the Northern Hemisphere deposited the Younger Dryas boundary (YDB) layer, containing peak abundances in a variable assemblage of proxies, including magnetic and glassy impact-related spherules, high-temperature minerals and melt glass, nanodiamonds, carbon spherules, aciniform carbon, platinum, and osmium. Bayesian chronological modeling was applied to 354 dates from 23 stratigraphic sections in 12 countries on four continents to establish a modeled YDB age range for this event of 12,835-12,735 Cal B.P. at 95% probability. This range overlaps that of a peak in extraterrestrial platinum in the Greenland Ice Sheet and of the earliest age of the Younger Dryas climate episode in six proxy records, suggesting a causal connection between the YDB impact event and the Younger Dryas. Two statistical tests indicate that both modeled and unmodeled ages in the 30 records are consistent with synchronous deposition of the YDB layer within the limits of dating uncertainty (100 y). The widespread distribution of the YDB layer suggests that it may serve as a datum layer.",

author = "Kennett, {James P.} and Kennett, {Douglas J.} and Culleton, {Brendan J.} and Tortosa, {J. Emili Aura} and Bischoff, {James L.} and Bunch, {Ted E.} and Daniel, {I. Randolph} and Erlandson, {Jon M.} and David Ferraro and Firestone, {Richard B.} and Goodyear, {Albert C.} and Isabel Israde-Alc{\'a}ntara and Johnson, {John R.} and Pardo, {Jes{\'u}s F.Jord{\'a}} and Kimbel, {David R.} and LeCompte, {Malcolm A.} and Lopinot, {Neal H.} and Mahaney, {William C.} and Moore, {Andrew M.T.} and Moore, {Christopher R.} and Ray, {Jack H.} and Stafford, {Thomas W.} and Tankersley, {Kenneth Barnett} and Wittke, {James H.} and Wolbach, {Wendy S.} and Allen West and Thiemens, {Mark H.}",

year = "2015",

month = aug,

day = "11",

doi = "10.1073/pnas.1507146112",

language = "English (US)",

volume = "112",

pages = "E4344--E4353",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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Kennett, JP, Kennett, DJ, Culleton, BJ, Tortosa, JEA, Bischoff, JL, Bunch, TE, Daniel, IR, Erlandson, JM, Ferraro, D, Firestone, RB, Goodyear, AC, Israde-Alcántara, I, Johnson, JR, Pardo, JFJ, Kimbel, DR, LeCompte, MA, Lopinot, NH, Mahaney, WC, Moore, AMT, Moore, CR, Ray, JH, Stafford, TW, Tankersley, KB, Wittke, JH, Wolbach, WS, West, A & Thiemens, MH 2015, 'Bayesian chronological analyses consistent with synchronous age of 12,835-12,735 Cal B.P. for Younger Dryas boundary on four continents', Proceedings of the National Academy of Sciences of the United States of America, vol. 112, no. 32, pp. E4344-E4353. https://doi.org/10.1073/pnas.1507146112

Bayesian chronological analyses consistent with synchronous age of 12,835-12,735 Cal B.P. for Younger Dryas boundary on four continents. / Kennett, James P.; Kennett, Douglas J.; Culleton, Brendan J. et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 112, No. 32, 11.08.2015, p. E4344-E4353.

Research output: Contribution to journal › Article › peer-review

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T1 - Bayesian chronological analyses consistent with synchronous age of 12,835-12,735 Cal B.P. for Younger Dryas boundary on four continents

AU - Kennett, James P.

AU - Kennett, Douglas J.

AU - Culleton, Brendan J.

AU - Tortosa, J. Emili Aura

AU - Bischoff, James L.

AU - Bunch, Ted E.

AU - Daniel, I. Randolph

AU - Erlandson, Jon M.

AU - Ferraro, David

AU - Firestone, Richard B.

AU - Goodyear, Albert C.

AU - Israde-Alcántara, Isabel

AU - Johnson, John R.

AU - Pardo, Jesús F.Jordá

AU - Kimbel, David R.

AU - LeCompte, Malcolm A.

AU - Lopinot, Neal H.

AU - Mahaney, William C.

AU - Moore, Andrew M.T.

AU - Moore, Christopher R.

AU - Ray, Jack H.

AU - Stafford, Thomas W.

AU - Tankersley, Kenneth Barnett

AU - Wittke, James H.

AU - Wolbach, Wendy S.

AU - West, Allen

AU - Thiemens, Mark H.

PY - 2015/8/11

Y1 - 2015/8/11

N2 - The Younger Dryas impact hypothesis posits that a cosmic impact across much of the Northern Hemisphere deposited the Younger Dryas boundary (YDB) layer, containing peak abundances in a variable assemblage of proxies, including magnetic and glassy impact-related spherules, high-temperature minerals and melt glass, nanodiamonds, carbon spherules, aciniform carbon, platinum, and osmium. Bayesian chronological modeling was applied to 354 dates from 23 stratigraphic sections in 12 countries on four continents to establish a modeled YDB age range for this event of 12,835-12,735 Cal B.P. at 95% probability. This range overlaps that of a peak in extraterrestrial platinum in the Greenland Ice Sheet and of the earliest age of the Younger Dryas climate episode in six proxy records, suggesting a causal connection between the YDB impact event and the Younger Dryas. Two statistical tests indicate that both modeled and unmodeled ages in the 30 records are consistent with synchronous deposition of the YDB layer within the limits of dating uncertainty (100 y). The widespread distribution of the YDB layer suggests that it may serve as a datum layer.

AB - The Younger Dryas impact hypothesis posits that a cosmic impact across much of the Northern Hemisphere deposited the Younger Dryas boundary (YDB) layer, containing peak abundances in a variable assemblage of proxies, including magnetic and glassy impact-related spherules, high-temperature minerals and melt glass, nanodiamonds, carbon spherules, aciniform carbon, platinum, and osmium. Bayesian chronological modeling was applied to 354 dates from 23 stratigraphic sections in 12 countries on four continents to establish a modeled YDB age range for this event of 12,835-12,735 Cal B.P. at 95% probability. This range overlaps that of a peak in extraterrestrial platinum in the Greenland Ice Sheet and of the earliest age of the Younger Dryas climate episode in six proxy records, suggesting a causal connection between the YDB impact event and the Younger Dryas. Two statistical tests indicate that both modeled and unmodeled ages in the 30 records are consistent with synchronous deposition of the YDB layer within the limits of dating uncertainty (100 y). The widespread distribution of the YDB layer suggests that it may serve as a datum layer.

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U2 - 10.1073/pnas.1507146112

DO - 10.1073/pnas.1507146112

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SN - 0027-8424

VL - 112

SP - E4344-E4353

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 32

ER -

Bayesian chronological analyses consistent with synchronous age of 12,835-12,735 Cal B.P. for Younger Dryas boundary on four continents

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