On impact and volcanism across the Cretaceous-Paleogene boundary

Pincelli M. Hull; André Bornemann; Donald E. Penman; Michael J. Henehan; Richard D. Norris; Paul A. Wilson; Peter Blum; Laia Alegret; Sietske J. Batenburg; Paul R. Bown; Timothy J. Bralower; Cecile Cournede; Alexander Deutsch; Barbara Donner; Oliver Friedrich; Sofie Jehle; Hojung Kim; Dick Kroon; Peter C. Lippert; Dominik Loroch; Iris Moebius; Kazuyoshi Moriya; Daniel J. Peppe; Gregory E. Ravizza; Ursula Röhl; Jonathan D. Schueth; Julio Sepúlveda; Philip F. Sexton; Elizabeth C. Sibert; Kasia K. Śliwińska; Roger E. Summons; Ellen Thomas; Thomas Westerhold; Jessica H. Whiteside; Tatsuhiko Yamaguchi; James C. Zachos

doi:10.1126/science.aay5055

On impact and volcanism across the Cretaceous-Paleogene boundary

Pincelli M. Hull
, André Bornemann
, Donald E. Penman
, Michael J. Henehan
, Richard D. Norris
, Paul A. Wilson
, Peter Blum
, Laia Alegret
, Sietske J. Batenburg
, Paul R. Bown
, Timothy J. Bralower
, Cecile Cournede
, Alexander Deutsch
, Barbara Donner
, Oliver Friedrich
, Sofie Jehle
, Hojung Kim
, Dick Kroon
, Peter C. Lippert
, Dominik Loroch

Iris Moebius, Kazuyoshi Moriya, Daniel J. Peppe, Gregory E. Ravizza, Ursula Röhl, Jonathan D. Schueth, Julio Sepúlveda, Philip F. Sexton, Elizabeth C. Sibert, Kasia K. Śliwińska, Roger E. Summons, Ellen Thomas, Thomas Westerhold, Jessica H. Whiteside, Tatsuhiko Yamaguchi, James C. Zachos

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

229 Citations (Scopus)

Abstract

The cause of the end-Cretaceous mass extinction is vigorously debated, owing to the occurrence of a very large bolide impact and flood basalt volcanism near the boundary. Disentangling their relative importance is complicated by uncertainty regarding kill mechanisms and the relative timing of volcanogenic outgassing, impact, and extinction. We used carbon cycle modeling and paleotemperature records to constrain the timing of volcanogenic outgassing. We found support for major outgassing beginning and ending distinctly before the impact, with only the impact coinciding with mass extinction and biologically amplified carbon cycle change. Our models show that these extinction-related carbon cycle changes would have allowed the ocean to absorb massive amounts of carbon dioxide, thus limiting the global warming otherwise expected from postextinction volcanism.

Original language	English
Pages (from-to)	266-272
Number of pages	7
Journal	Science
Volume	367
Issue number	6475
DOIs	https://doi.org/10.1126/science.aay5055
Publication status	Published - 17 Jan 2020

Programme Area

Programme Area 3: Energy Resources

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Hull, P. M., Bornemann, A., Penman, D. E., Henehan, M. J., Norris, R. D., Wilson, P. A., Blum, P., Alegret, L., Batenburg, S. J., Bown, P. R., Bralower, T. J., Cournede, C., Deutsch, A., Donner, B., Friedrich, O., Jehle, S., Kim, H., Kroon, D., Lippert, P. C., ... Zachos, J. C. (2020). On impact and volcanism across the Cretaceous-Paleogene boundary. Science, 367(6475), 266-272. https://doi.org/10.1126/science.aay5055

@article{14615a52bf7641d48b9a12c66cc7d8fd,

title = "On impact and volcanism across the Cretaceous-Paleogene boundary",

abstract = "The cause of the end-Cretaceous mass extinction is vigorously debated, owing to the occurrence of a very large bolide impact and flood basalt volcanism near the boundary. Disentangling their relative importance is complicated by uncertainty regarding kill mechanisms and the relative timing of volcanogenic outgassing, impact, and extinction. We used carbon cycle modeling and paleotemperature records to constrain the timing of volcanogenic outgassing. We found support for major outgassing beginning and ending distinctly before the impact, with only the impact coinciding with mass extinction and biologically amplified carbon cycle change. Our models show that these extinction-related carbon cycle changes would have allowed the ocean to absorb massive amounts of carbon dioxide, thus limiting the global warming otherwise expected from postextinction volcanism.",

author = "Hull, \{Pincelli M.\} and Andr{\'e} Bornemann and Penman, \{Donald E.\} and Henehan, \{Michael J.\} and Norris, \{Richard D.\} and Wilson, \{Paul A.\} and Peter Blum and Laia Alegret and Batenburg, \{Sietske J.\} and Bown, \{Paul R.\} and Bralower, \{Timothy J.\} and Cecile Cournede and Alexander Deutsch and Barbara Donner and Oliver Friedrich and Sofie Jehle and Hojung Kim and Dick Kroon and Lippert, \{Peter C.\} and Dominik Loroch and Iris Moebius and Kazuyoshi Moriya and Peppe, \{Daniel J.\} and Ravizza, \{Gregory E.\} and Ursula R{\"o}hl and Schueth, \{Jonathan D.\} and Julio Sep{\'u}lveda and Sexton, \{Philip F.\} and Sibert, \{Elizabeth C.\} and {\'S}liwi{\'n}ska, \{Kasia K.\} and Summons, \{Roger E.\} and Ellen Thomas and Thomas Westerhold and Whiteside, \{Jessica H.\} and Tatsuhiko Yamaguchi and Zachos, \{James C.\}",

year = "2020",

month = jan,

day = "17",

doi = "10.1126/science.aay5055",

language = "English",

volume = "367",

pages = "266--272",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "6475",

}

Hull, PM, Bornemann, A, Penman, DE, Henehan, MJ, Norris, RD, Wilson, PA, Blum, P, Alegret, L, Batenburg, SJ, Bown, PR, Bralower, TJ, Cournede, C, Deutsch, A, Donner, B, Friedrich, O, Jehle, S, Kim, H, Kroon, D, Lippert, PC, Loroch, D, Moebius, I, Moriya, K, Peppe, DJ, Ravizza, GE, Röhl, U, Schueth, JD, Sepúlveda, J, Sexton, PF, Sibert, EC, Śliwińska, KK, Summons, RE, Thomas, E, Westerhold, T, Whiteside, JH, Yamaguchi, T & Zachos, JC 2020, 'On impact and volcanism across the Cretaceous-Paleogene boundary', Science, vol. 367, no. 6475, pp. 266-272. https://doi.org/10.1126/science.aay5055

TY - JOUR

T1 - On impact and volcanism across the Cretaceous-Paleogene boundary

AU - Hull, Pincelli M.

AU - Bornemann, André

AU - Penman, Donald E.

AU - Henehan, Michael J.

AU - Norris, Richard D.

AU - Wilson, Paul A.

AU - Blum, Peter

AU - Alegret, Laia

AU - Batenburg, Sietske J.

AU - Bown, Paul R.

AU - Bralower, Timothy J.

AU - Cournede, Cecile

AU - Deutsch, Alexander

AU - Donner, Barbara

AU - Friedrich, Oliver

AU - Jehle, Sofie

AU - Kim, Hojung

AU - Kroon, Dick

AU - Lippert, Peter C.

AU - Loroch, Dominik

AU - Moebius, Iris

AU - Moriya, Kazuyoshi

AU - Peppe, Daniel J.

AU - Ravizza, Gregory E.

AU - Röhl, Ursula

AU - Schueth, Jonathan D.

AU - Sepúlveda, Julio

AU - Sexton, Philip F.

AU - Sibert, Elizabeth C.

AU - Śliwińska, Kasia K.

AU - Summons, Roger E.

AU - Thomas, Ellen

AU - Westerhold, Thomas

AU - Whiteside, Jessica H.

AU - Yamaguchi, Tatsuhiko

AU - Zachos, James C.

PY - 2020/1/17

Y1 - 2020/1/17

N2 - The cause of the end-Cretaceous mass extinction is vigorously debated, owing to the occurrence of a very large bolide impact and flood basalt volcanism near the boundary. Disentangling their relative importance is complicated by uncertainty regarding kill mechanisms and the relative timing of volcanogenic outgassing, impact, and extinction. We used carbon cycle modeling and paleotemperature records to constrain the timing of volcanogenic outgassing. We found support for major outgassing beginning and ending distinctly before the impact, with only the impact coinciding with mass extinction and biologically amplified carbon cycle change. Our models show that these extinction-related carbon cycle changes would have allowed the ocean to absorb massive amounts of carbon dioxide, thus limiting the global warming otherwise expected from postextinction volcanism.

AB - The cause of the end-Cretaceous mass extinction is vigorously debated, owing to the occurrence of a very large bolide impact and flood basalt volcanism near the boundary. Disentangling their relative importance is complicated by uncertainty regarding kill mechanisms and the relative timing of volcanogenic outgassing, impact, and extinction. We used carbon cycle modeling and paleotemperature records to constrain the timing of volcanogenic outgassing. We found support for major outgassing beginning and ending distinctly before the impact, with only the impact coinciding with mass extinction and biologically amplified carbon cycle change. Our models show that these extinction-related carbon cycle changes would have allowed the ocean to absorb massive amounts of carbon dioxide, thus limiting the global warming otherwise expected from postextinction volcanism.

UR - https://www.scopus.com/pages/publications/85077941417

U2 - 10.1126/science.aay5055

DO - 10.1126/science.aay5055

M3 - Article

C2 - 31949074

AN - SCOPUS:85077941417

SN - 0036-8075

VL - 367

SP - 266

EP - 272

JO - Science

JF - Science

IS - 6475

ER -

On impact and volcanism across the Cretaceous-Paleogene boundary

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