Palaeontological signatures of the Anthropocene are distinct from those of previous epochs

Mark Williams; Jan Zalasiewicz; Anthony D. Barnosky; Reinhold Leinfelder; Martin J. Head; Colin N. Waters; Francine M.G. McCarthy; Alejandro Cearreta; David C. Aldridge; Mary McGann; Paul B. Hamilton; Colin P. Summerhayes; Jaia Syvitski; Jens Zinke; Andrew B. Cundy; Barbara Fiałkiewicz-Kozieł; J. R. McNeill; Michinobu Kuwae; Neil L. Rose; Simon D. Turner; Yoshiki Saito; Michael Wagreich; M. Allison Stegner; Moriaki Yasuhara; Yongming Han; Amy Wrisdale; Rachael Holmes; Juan Carlos Berrio

doi:10.1016/j.earscirev.2024.104844

Palaeontological signatures of the Anthropocene are distinct from those of previous epochs

Mark Williams
, Jan Zalasiewicz
, Anthony D. Barnosky
, Reinhold Leinfelder
, Martin J. Head
, Colin N. Waters
, Francine M.G. McCarthy
, Alejandro Cearreta
, David C. Aldridge
, Mary McGann
, Paul B. Hamilton
, Colin P. Summerhayes
, Jaia Syvitski
, Jens Zinke
, Andrew B. Cundy
, Barbara Fiałkiewicz-Kozieł
, J. R. McNeill
, Michinobu Kuwae
, Neil L. Rose
, Simon D. Turner

Yoshiki Saito, Michael Wagreich, M. Allison Stegner, Moriaki Yasuhara, Yongming Han, Amy Wrisdale, Rachael Holmes, Juan Carlos Berrio

Research output: Contribution to journal › Review article › peer-review

19 Scopus citations

Abstract

The “Great Acceleration” beginning in the mid-20th century provides the causal mechanism of the Anthropocene, which has been proposed as a new epoch of geological time beginning in 1952 CE. Here we identify key parameters and their diagnostic palaeontological signals of the Anthropocene, including the rapid breakdown of discrete biogeographical ranges for marine and terrestrial species, rapid changes to ecologies resulting from climate change and ecological degradation, the spread of exotic foodstuffs beyond their ecological range, and the accumulation of reconfigured forest materials such as medium density fibreboard (MDF) all being symptoms of the Great Acceleration. We show: 1) how Anthropocene successions in North America, South America, Africa, Oceania, Europe, and Asia can be correlated using palaeontological signatures of highly invasive species and changes to ecologies that demonstrate the growing interconnectivity of human systems; 2) how the unique depositional settings of landfills may concentrate the remains of organisms far beyond their geographical range of environmental tolerance; and 3) how a range of settings may preserve a long-lived, unique palaeontological record within post-mid-20th century deposits. Collectively these changes provide a global palaeontological signature that is distinct from all past records of deep-time biotic change, including those of the Holocene.

Original language	English
Article number	104844
Journal	Earth-Science Reviews
Volume	255
DOIs	https://doi.org/10.1016/j.earscirev.2024.104844
State	Published - Aug 2024
Externally published	Yes

Keywords

Anthropocene
Biosphere change
Great Acceleration
Palaeontology
Stratigraphy

UN SDGs

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

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10.1016/j.earscirev.2024.104844

Cite this

Williams, M., Zalasiewicz, J., Barnosky, A. D., Leinfelder, R., Head, M. J., Waters, C. N., McCarthy, F. M. G., Cearreta, A., Aldridge, D. C., McGann, M., Hamilton, P. B., Summerhayes, C. P., Syvitski, J., Zinke, J., Cundy, A. B., Fiałkiewicz-Kozieł, B., McNeill, J. R., Kuwae, M., Rose, N. L., ... Berrio, J. C. (2024). Palaeontological signatures of the Anthropocene are distinct from those of previous epochs. Earth-Science Reviews, 255, Article 104844. https://doi.org/10.1016/j.earscirev.2024.104844

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title = "Palaeontological signatures of the Anthropocene are distinct from those of previous epochs",

abstract = "The “Great Acceleration” beginning in the mid-20th century provides the causal mechanism of the Anthropocene, which has been proposed as a new epoch of geological time beginning in 1952 CE. Here we identify key parameters and their diagnostic palaeontological signals of the Anthropocene, including the rapid breakdown of discrete biogeographical ranges for marine and terrestrial species, rapid changes to ecologies resulting from climate change and ecological degradation, the spread of exotic foodstuffs beyond their ecological range, and the accumulation of reconfigured forest materials such as medium density fibreboard (MDF) all being symptoms of the Great Acceleration. We show: 1) how Anthropocene successions in North America, South America, Africa, Oceania, Europe, and Asia can be correlated using palaeontological signatures of highly invasive species and changes to ecologies that demonstrate the growing interconnectivity of human systems; 2) how the unique depositional settings of landfills may concentrate the remains of organisms far beyond their geographical range of environmental tolerance; and 3) how a range of settings may preserve a long-lived, unique palaeontological record within post-mid-20th century deposits. Collectively these changes provide a global palaeontological signature that is distinct from all past records of deep-time biotic change, including those of the Holocene.",

keywords = "Anthropocene, Biosphere change, Great Acceleration, Palaeontology, Stratigraphy",

author = "Mark Williams and Jan Zalasiewicz and Barnosky, \{Anthony D.\} and Reinhold Leinfelder and Head, \{Martin J.\} and Waters, \{Colin N.\} and McCarthy, \{Francine M.G.\} and Alejandro Cearreta and Aldridge, \{David C.\} and Mary McGann and Hamilton, \{Paul B.\} and Summerhayes, \{Colin P.\} and Jaia Syvitski and Jens Zinke and Cundy, \{Andrew B.\} and Barbara Fia{\l}kiewicz-Kozie{\l} and McNeill, \{J. R.\} and Michinobu Kuwae and Rose, \{Neil L.\} and Turner, \{Simon D.\} and Yoshiki Saito and Michael Wagreich and Stegner, \{M. Allison\} and Moriaki Yasuhara and Yongming Han and Amy Wrisdale and Rachael Holmes and Berrio, \{Juan Carlos\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = aug,

doi = "10.1016/j.earscirev.2024.104844",

language = "英语",

volume = "255",

journal = "Earth-Science Reviews",

issn = "0012-8252",

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Williams, M, Zalasiewicz, J, Barnosky, AD, Leinfelder, R, Head, MJ, Waters, CN, McCarthy, FMG, Cearreta, A, Aldridge, DC, McGann, M, Hamilton, PB, Summerhayes, CP, Syvitski, J, Zinke, J, Cundy, AB, Fiałkiewicz-Kozieł, B, McNeill, JR, Kuwae, M, Rose, NL, Turner, SD, Saito, Y, Wagreich, M, Stegner, MA, Yasuhara, M, Han, Y, Wrisdale, A, Holmes, R & Berrio, JC 2024, 'Palaeontological signatures of the Anthropocene are distinct from those of previous epochs', Earth-Science Reviews, vol. 255, 104844. https://doi.org/10.1016/j.earscirev.2024.104844

TY - JOUR

T1 - Palaeontological signatures of the Anthropocene are distinct from those of previous epochs

AU - Williams, Mark

AU - Zalasiewicz, Jan

AU - Barnosky, Anthony D.

AU - Leinfelder, Reinhold

AU - Head, Martin J.

AU - Waters, Colin N.

AU - McCarthy, Francine M.G.

AU - Cearreta, Alejandro

AU - Aldridge, David C.

AU - McGann, Mary

AU - Hamilton, Paul B.

AU - Summerhayes, Colin P.

AU - Syvitski, Jaia

AU - Zinke, Jens

AU - Cundy, Andrew B.

AU - Fiałkiewicz-Kozieł, Barbara

AU - McNeill, J. R.

AU - Kuwae, Michinobu

AU - Rose, Neil L.

AU - Turner, Simon D.

AU - Saito, Yoshiki

AU - Wagreich, Michael

AU - Stegner, M. Allison

AU - Yasuhara, Moriaki

AU - Han, Yongming

AU - Wrisdale, Amy

AU - Holmes, Rachael

AU - Berrio, Juan Carlos

PY - 2024/8

Y1 - 2024/8

N2 - The “Great Acceleration” beginning in the mid-20th century provides the causal mechanism of the Anthropocene, which has been proposed as a new epoch of geological time beginning in 1952 CE. Here we identify key parameters and their diagnostic palaeontological signals of the Anthropocene, including the rapid breakdown of discrete biogeographical ranges for marine and terrestrial species, rapid changes to ecologies resulting from climate change and ecological degradation, the spread of exotic foodstuffs beyond their ecological range, and the accumulation of reconfigured forest materials such as medium density fibreboard (MDF) all being symptoms of the Great Acceleration. We show: 1) how Anthropocene successions in North America, South America, Africa, Oceania, Europe, and Asia can be correlated using palaeontological signatures of highly invasive species and changes to ecologies that demonstrate the growing interconnectivity of human systems; 2) how the unique depositional settings of landfills may concentrate the remains of organisms far beyond their geographical range of environmental tolerance; and 3) how a range of settings may preserve a long-lived, unique palaeontological record within post-mid-20th century deposits. Collectively these changes provide a global palaeontological signature that is distinct from all past records of deep-time biotic change, including those of the Holocene.

AB - The “Great Acceleration” beginning in the mid-20th century provides the causal mechanism of the Anthropocene, which has been proposed as a new epoch of geological time beginning in 1952 CE. Here we identify key parameters and their diagnostic palaeontological signals of the Anthropocene, including the rapid breakdown of discrete biogeographical ranges for marine and terrestrial species, rapid changes to ecologies resulting from climate change and ecological degradation, the spread of exotic foodstuffs beyond their ecological range, and the accumulation of reconfigured forest materials such as medium density fibreboard (MDF) all being symptoms of the Great Acceleration. We show: 1) how Anthropocene successions in North America, South America, Africa, Oceania, Europe, and Asia can be correlated using palaeontological signatures of highly invasive species and changes to ecologies that demonstrate the growing interconnectivity of human systems; 2) how the unique depositional settings of landfills may concentrate the remains of organisms far beyond their geographical range of environmental tolerance; and 3) how a range of settings may preserve a long-lived, unique palaeontological record within post-mid-20th century deposits. Collectively these changes provide a global palaeontological signature that is distinct from all past records of deep-time biotic change, including those of the Holocene.

KW - Anthropocene

KW - Biosphere change

KW - Great Acceleration

KW - Palaeontology

KW - Stratigraphy

UR - https://www.scopus.com/pages/publications/85190304466

U2 - 10.1016/j.earscirev.2024.104844

DO - 10.1016/j.earscirev.2024.104844

M3 - 文献综述

AN - SCOPUS:85190304466

SN - 0012-8252

VL - 255

JO - Earth-Science Reviews

JF - Earth-Science Reviews

M1 - 104844

ER -

Palaeontological signatures of the Anthropocene are distinct from those of previous epochs

Abstract

Keywords

UN SDGs

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