Climate Endgame: Exploring catastrophic climate change scenarios

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Abstract

Prudent risk management requires consideration of bad-to-worst-case scenarios. Yet, for climate change, such potential futures are poorly understood. Could anthropogenic climate change result in worldwide societal collapse or even eventual human extinction? At present, this is a dangerously underexplored topic. Yet there are ample reasons to suspect that climate change could result in a global catastrophe. Analyzing the mechanisms for these extreme consequences could help galvanize action, improve resilience, and inform policy, including emergency responses. We outline current knowledge about the likelihood of extreme climate change, discuss why understanding bad-to-worst cases is vital, articulate reasons for concern about catastrophic outcomes, define key terms, and put forward a research agenda. The proposed agenda covers four main questions: 1) What is the potential for climate change to drive mass extinction events? 2) What are the mechanisms that could result in human mass mortality and morbidity? 3) What are human societies' vulnerabilities to climate-triggered risk cascades, such as from conflict, political instability, and systemic financial risk? 4) How can these multiple strands of evidence—together with other global dangers—be usefully synthesized into an “integrated catastrophe assessment”? It is time for the scientific community to grapple with the challenge of better understanding catastrophic climate change.

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Planetary boundaries: Guiding human development on a changing planet

W. Steffen, K. Richardson, J. Rockstrom … (2016)

The planetary boundaries framework defines a safe operating space for humanity based on the intrinsic biophysical processes that regulate the stability of the Earth system. Here, we revise and update the planetary boundary framework, with a focus on the underpinning biophysical science, based on targeted input from expert research communities and on more general scientific advances over the past 5 years. Several of the boundaries now have a two-tier approach, reflecting the importance of cross-scale interactions and the regional-level heterogeneity of the processes that underpin the boundaries. Two core boundaries—climate change and biosphere integrity—have been identified, each of which has the potential on its own to drive the Earth system into a new state should they be substantially and persistently transgressed.

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Climate Change 2007

Intergovernmental Panel on Climate Change (2007)

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Is Open Access

Trajectories of the Earth System in the Anthropocene

Will Steffen, Johan Rockström, Katherine Richardson … (2018)

We explore the risk that self-reinforcing feedbacks could push the Earth System toward a planetary threshold that, if crossed, could prevent stabilization of the climate at intermediate temperature rises and cause continued warming on a “Hothouse Earth” pathway even as human emissions are reduced. Crossing the threshold would lead to a much higher global average temperature than any interglacial in the past 1.2 million years and to sea levels significantly higher than at any time in the Holocene. We examine the evidence that such a threshold might exist and where it might be. If the threshold is crossed, the resulting trajectory would likely cause serious disruptions to ecosystems, society, and economies. Collective human action is required to steer the Earth System away from a potential threshold and stabilize it in a habitable interglacial-like state. Such action entails stewardship of the entire Earth System—biosphere, climate, and societies—and could include decarbonization of the global economy, enhancement of biosphere carbon sinks, behavioral changes, technological innovations, new governance arrangements, and transformed social values.

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Journal

Journal ID (nlm-ta): Proc Natl Acad Sci U S A

Journal ID (iso-abbrev): Proc Natl Acad Sci U S A

Journal ID (hwp): pnas

Journal ID (publisher-id): PNAS

Title: Proceedings of the National Academy of Sciences of the United States of America

Publisher: National Academy of Sciences

ISSN (Print): 0027-8424

ISSN (Electronic): 1091-6490

Publication date (Electronic): 1 August 2022

Publication date (Print): 23 August 2022

Publication date PMC-release: 1 August 2022

Volume: 119

Issue: 34

Electronic Location Identifier: e2108146119

Affiliations

[1] ^aCentre for the Study of Existential Risk, University of Cambridge , Cambridge CB2 1SB, United Kingdom;

[2] ^bCentre for the Study of Existential Risk, and Darwin College, University of Cambridge , Cambridge CB2 1SB, United Kingdom;

[3] ^cSchool of Life Sciences, Nanjing University , Nanjing 210023, China;

[4] ^dCambridge Centre for Environment, Energy and Natural Resource Governance, University of Cambridge , Cambridge CB2 3QZ, United Kingdom;

[5] ^eCenter for Health and the Global Environment, University of Washington , Seattle, WA 98195;

[6] ^fFuture of Humanity Institute, University of Oxford , Oxford OX2 0DJ, United Kingdom;

[7] ^gDepartment of Anthropology, Washington State University , Pullman, WA 99164-4910;

[8] ^hSanta Fe Institute , Santa Fe, NM 87501;

[9] ⁱCluster of Excellence ROOTS – Social, Environmental, and Cultural Connectivity in Past Societies, Christian-Albrechts-Universität , Kiel, 24118 Germany;

[10] ^jPotsdam Institute for Climate Impact Research , 14473 Potsdam, Germany;

[11] ^kDepartment of Environmental Sciences, University of Wageningen , 6708PB Wageningen, The Netherlands;

[12] ^lEarth System Science Department, Tsinghua University , Beijing 100190, China;

[13] ^mFenner School of Environment and Society, The Australian National University , Canberra, ACT 2601, Australia;

[14] ⁿGlobal Systems Institute, University of Exeter , Exeter EX4 4QE, United Kingdom

Author notes

¹To whom correspondence may be addressed. Email: ltk27@ 123456cam.ac.uk .

Edited by Kerry Emanuel, Massachusetts Institute of Technology, Cambridge, MA; received May 20, 2021; accepted March 25, 2022

Author contributions: L.K. designed research; L.K., C.X., J.D., K.L.E., G.G., T.A.K., J.R., M.S., H.J.S., W.S., and T.M.L. performed research; L.K., C.X., J.D., K.L.E., T.A.K., J.R., M.S., H.J.S., W.S., and T.M.L. analyzed data; and L.K., C.X., J.D., K.L.E., G.G., T.A.K., J.R., M.S., H.J.S., W.S., and T.M.L. wrote the paper.

Author information

Luke Kemp https://orcid.org/0000-0002-7447-4335

Chi Xu https://orcid.org/0000-0002-1841-9032

Kristie L. Ebi https://orcid.org/0000-0003-4746-8236

Timothy A. Kohler https://orcid.org/0000-0002-3414-6660

Marten Scheffer https://orcid.org/0000-0002-2100-0312

Hans Joachim Schellnhuber https://orcid.org/0000-0001-7453-4935

Will Steffen https://orcid.org/0000-0003-1163-6736

Timothy M. Lenton https://orcid.org/0000-0002-6725-7498

Article

Publisher ID: 202108146

DOI: 10.1073/pnas.2108146119

PMC ID: 9407216

PubMed ID: 35914185

SO-VID: 8b4bd639-9449-4295-ab5e-71e5cba43b93

License:

This open access article is distributed under Creative Commons Attribution License 4.0 (CC BY).

History

Page count

Pages: 9

Funding

Funded by: John Templeton Foundation (JTF) 100000925

Award ID: TWCF0128

Award Recipient : Luke Kemp

Funded by: National Science Foundation (NSF) 100000001

Award ID: IBSS-1620462

Award Recipient : Timothy A. Kohler

Funded by: National Science Foundation (NSF) 100000001

Award ID: SMA-1637171

Award Recipient : Timothy A. Kohler

Funded by: Leverhulme Trust 501100000275

Award ID: RPG-2018-046

Award Recipient : Timothy M. Lenton

Funded by: National Natural Science Foundation of China (NSFC) 501100001809

Award ID: 32061143014

Award Recipient : Chi Xu

Funded by: EC | H2020 | H2020 Priority Excellent Science | H2020 European Research Council (ERC) 100010663

Award ID: ERC-743080

Award Recipient : Johan Rockström

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Climate Endgame: Exploring catastrophic climate change scenarios

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Climate Change: Open Access

Most cited references 101

Planetary boundaries: Guiding human development on a changing planet

Climate Change 2007

Trajectories of the Earth System in the Anthropocene

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