Paleogene Earth perturbations in the US Atlantic Coastal Plain (PEP-US): coring transects of hyperthermals to understand past carbon injections and ecosystem responses

Marci M. Robinson; Kenneth G. Miller; Tali L. Babila; Timothy J. Bralower; James V. Browning; Marlow J. Cramwinckel; Monika Doubrawa; Gavin L. Foster; Megan K. Fung; Sean Kinney; Maria Makarova; Peter P. McLaughlin; Paul N. Pearson; Ursula Röhl; Morgan F. Schaller; Jean M. Self-Trail; Appy Sluijs; Thomas Westerhold; James D. Wright; James C. Zachos

doi:10.5194/sd-33-47-2024

Paleogene Earth perturbations in the US Atlantic Coastal Plain (PEP-US): coring transects of hyperthermals to understand past carbon injections and ecosystem responses

Marci M. Robinson^*, Kenneth G. Miller, Tali L. Babila, Timothy J. Bralower, James V. Browning, Marlow J. Cramwinckel, Monika Doubrawa, Gavin L. Foster, Megan K. Fung, Sean Kinney, Maria Makarova, Peter P. McLaughlin, Paul N. Pearson, Ursula Röhl, Morgan F. Schaller, Jean M. Self-Trail, Appy Sluijs, Thomas Westerhold, James D. Wright, James C. Zachos

^*Corresponding author for this work

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

Abstract

The release of over 4500 Gt (gigatonnes) of carbon at the Paleocene–Eocene boundary provides the closest geological analog to modern anthropogenic CO₂ emissions. The cause(s) of and responses to the resulting Paleocene–Eocene Thermal Maximum (PETM) and attendant carbon isotopic excursion (CIE) remain enigmatic and intriguing despite over 30 years of intense study. CIE records from the deep sea are generally thin due to its short duration and slow sedimentation rates, and they are truncated due to corrosive bottom waters dissolving carbonate sediments. In contrast, PETM coastal plain sections along the US mid-Atlantic margin are thick, generally having an expanded record of the CIE. Drilling here presents an opportunity to study the PETM onset to a level of detail that could transform our understanding of this important event. Previous drilling in this region provided important insights, but existing cores are either depleted or contain stratigraphic gaps. New core material is needed for well-resolved marine climate records. To plan new drilling, members of the international scientific community attended a multi-staged, hybrid scientific drilling workshop in 2022 designed to maximize not only scientifically and demographically diverse participation but also to protect participants’ health and safety during the global pandemic and to reduce our carbon footprint. The resulting plan identified 10 sites for drill holes that would penetrate the Cretaceous–Paleogene (K–Pg) boundary, targeting the pre-onset excursion (POE), the CIE onset, the rapidly deposited Marlboro Clay that records a very thick CIE body, and other Eocene hyperthermals. The workshop participants developed several primary scientific objectives related to investigating the nature and the cause(s) of the CIE onset as well as the biotic effects of the PETM on the paleoshelf. Additional objectives focus on the evidence for widespread wildfires and changes in the hydrological cycle, shelf morphology, and sea level during the PETM as well as the desire to study both underlying K–Pg sediments and overlying post-Eocene records of extreme hyperthermal climate events.

Original language	English
Pages (from-to)	47-65
Number of pages	19
Journal	Scientific Drilling
Volume	33
Issue number	1
DOIs	https://doi.org/10.5194/sd-33-47-2024
Publication status	Published - 2 Apr 2024

Bibliographical note

Publisher Copyright:
© Author(s) 2024.

Funding

We acknowledge ICDP for funding the workshop entitled \u201CCoring Paleocene\u2013Eocene Thermal Maximum transects, mid-Atlantic U.S. Coastal Plain: Constraining timing and cause of carbon injection and ecosystem response\u201D. We thank Rutgers University and the organizers of the 12th Climatic and Biotic Events of the Paleogene (CBEP12) conference at MARUM, University of Bremen, and the International Conference in Paleoceanography (ICP14) at Grieghallen, Bergen, for hosting the in-person components of our workshop. Finally, we thank Brian Huber and Christian Zeeden for providing insightful reviews that improved the quality of the paper.

Funders	Funder number
Rutgers, The State University of New Jersey
ICDP
MARUM – Zentrum für Marine Umweltwissenschaften
Universität Bremen	ICP14

UN SDGs

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

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Cite this

Robinson, M. M., Miller, K. G., Babila, T. L., Bralower, T. J., Browning, J. V., Cramwinckel, M. J., Doubrawa, M., Foster, G. L., Fung, M. K., Kinney, S., Makarova, M., McLaughlin, P. P., Pearson, P. N., Röhl, U., Schaller, M. F., Self-Trail, J. M., Sluijs, A., Westerhold, T., Wright, J. D., & Zachos, J. C. (2024). Paleogene Earth perturbations in the US Atlantic Coastal Plain (PEP-US): coring transects of hyperthermals to understand past carbon injections and ecosystem responses. Scientific Drilling, 33(1), 47-65. https://doi.org/10.5194/sd-33-47-2024

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title = "Paleogene Earth perturbations in the US Atlantic Coastal Plain (PEP-US): coring transects of hyperthermals to understand past carbon injections and ecosystem responses",

abstract = "The release of over 4500 Gt (gigatonnes) of carbon at the Paleocene–Eocene boundary provides the closest geological analog to modern anthropogenic CO2 emissions. The cause(s) of and responses to the resulting Paleocene–Eocene Thermal Maximum (PETM) and attendant carbon isotopic excursion (CIE) remain enigmatic and intriguing despite over 30 years of intense study. CIE records from the deep sea are generally thin due to its short duration and slow sedimentation rates, and they are truncated due to corrosive bottom waters dissolving carbonate sediments. In contrast, PETM coastal plain sections along the US mid-Atlantic margin are thick, generally having an expanded record of the CIE. Drilling here presents an opportunity to study the PETM onset to a level of detail that could transform our understanding of this important event. Previous drilling in this region provided important insights, but existing cores are either depleted or contain stratigraphic gaps. New core material is needed for well-resolved marine climate records. To plan new drilling, members of the international scientific community attended a multi-staged, hybrid scientific drilling workshop in 2022 designed to maximize not only scientifically and demographically diverse participation but also to protect participants{\textquoteright} health and safety during the global pandemic and to reduce our carbon footprint. The resulting plan identified 10 sites for drill holes that would penetrate the Cretaceous–Paleogene (K–Pg) boundary, targeting the pre-onset excursion (POE), the CIE onset, the rapidly deposited Marlboro Clay that records a very thick CIE body, and other Eocene hyperthermals. The workshop participants developed several primary scientific objectives related to investigating the nature and the cause(s) of the CIE onset as well as the biotic effects of the PETM on the paleoshelf. Additional objectives focus on the evidence for widespread wildfires and changes in the hydrological cycle, shelf morphology, and sea level during the PETM as well as the desire to study both underlying K–Pg sediments and overlying post-Eocene records of extreme hyperthermal climate events.",

author = "Robinson, {Marci M.} and Miller, {Kenneth G.} and Babila, {Tali L.} and Bralower, {Timothy J.} and Browning, {James V.} and Cramwinckel, {Marlow J.} and Monika Doubrawa and Foster, {Gavin L.} and Fung, {Megan K.} and Sean Kinney and Maria Makarova and McLaughlin, {Peter P.} and Pearson, {Paul N.} and Ursula R{\"o}hl and Schaller, {Morgan F.} and Self-Trail, {Jean M.} and Appy Sluijs and Thomas Westerhold and Wright, {James D.} and Zachos, {James C.}",

note = "Publisher Copyright: {\textcopyright} Author(s) 2024.",

year = "2024",

month = apr,

day = "2",

doi = "10.5194/sd-33-47-2024",

language = "English",

volume = "33",

pages = "47--65",

journal = "Scientific Drilling",

issn = "1816-8957",

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Robinson, MM, Miller, KG, Babila, TL, Bralower, TJ, Browning, JV, Cramwinckel, MJ, Doubrawa, M, Foster, GL, Fung, MK, Kinney, S, Makarova, M, McLaughlin, PP, Pearson, PN, Röhl, U, Schaller, MF, Self-Trail, JM, Sluijs, A, Westerhold, T, Wright, JD & Zachos, JC 2024, 'Paleogene Earth perturbations in the US Atlantic Coastal Plain (PEP-US): coring transects of hyperthermals to understand past carbon injections and ecosystem responses', Scientific Drilling, vol. 33, no. 1, pp. 47-65. https://doi.org/10.5194/sd-33-47-2024

Paleogene Earth perturbations in the US Atlantic Coastal Plain (PEP-US): coring transects of hyperthermals to understand past carbon injections and ecosystem responses. / Robinson, Marci M.; Miller, Kenneth G.; Babila, Tali L. et al.
In: Scientific Drilling, Vol. 33, No. 1, 02.04.2024, p. 47-65.

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

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AU - Robinson, Marci M.

AU - Miller, Kenneth G.

AU - Babila, Tali L.

AU - Bralower, Timothy J.

AU - Browning, James V.

AU - Cramwinckel, Marlow J.

AU - Doubrawa, Monika

AU - Foster, Gavin L.

AU - Fung, Megan K.

AU - Kinney, Sean

AU - Makarova, Maria

AU - McLaughlin, Peter P.

AU - Pearson, Paul N.

AU - Röhl, Ursula

AU - Schaller, Morgan F.

AU - Self-Trail, Jean M.

AU - Sluijs, Appy

AU - Westerhold, Thomas

AU - Wright, James D.

AU - Zachos, James C.

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AB - The release of over 4500 Gt (gigatonnes) of carbon at the Paleocene–Eocene boundary provides the closest geological analog to modern anthropogenic CO2 emissions. The cause(s) of and responses to the resulting Paleocene–Eocene Thermal Maximum (PETM) and attendant carbon isotopic excursion (CIE) remain enigmatic and intriguing despite over 30 years of intense study. CIE records from the deep sea are generally thin due to its short duration and slow sedimentation rates, and they are truncated due to corrosive bottom waters dissolving carbonate sediments. In contrast, PETM coastal plain sections along the US mid-Atlantic margin are thick, generally having an expanded record of the CIE. Drilling here presents an opportunity to study the PETM onset to a level of detail that could transform our understanding of this important event. Previous drilling in this region provided important insights, but existing cores are either depleted or contain stratigraphic gaps. New core material is needed for well-resolved marine climate records. To plan new drilling, members of the international scientific community attended a multi-staged, hybrid scientific drilling workshop in 2022 designed to maximize not only scientifically and demographically diverse participation but also to protect participants’ health and safety during the global pandemic and to reduce our carbon footprint. The resulting plan identified 10 sites for drill holes that would penetrate the Cretaceous–Paleogene (K–Pg) boundary, targeting the pre-onset excursion (POE), the CIE onset, the rapidly deposited Marlboro Clay that records a very thick CIE body, and other Eocene hyperthermals. The workshop participants developed several primary scientific objectives related to investigating the nature and the cause(s) of the CIE onset as well as the biotic effects of the PETM on the paleoshelf. Additional objectives focus on the evidence for widespread wildfires and changes in the hydrological cycle, shelf morphology, and sea level during the PETM as well as the desire to study both underlying K–Pg sediments and overlying post-Eocene records of extreme hyperthermal climate events.

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Paleogene Earth perturbations in the US Atlantic Coastal Plain (PEP-US): coring transects of hyperthermals to understand past carbon injections and ecosystem responses

Abstract

Bibliographical note

Funding

UN SDGs

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