Making sense of palaeoclimate sensitivity

Authors
  • E.J. Rohling
  • A. Sluijs
  • H.A. Dijkstra
  • P. Köhler
  • R.S.W. van de Wal
  • A.S. von der Heydt
  • D.J. Beerling
  • A. Berger
  • P.K. Bijl
  • M. Crucifix
  • R. DeConto
  • S.S. Drijfhout
  • A. Fedorov
  • G.L. Foster
  • A. Ganapolski
  • J. Hansen
  • B. Hönisch
  • H. Hooghiemstra
  • M. Huber
  • P. Huybers
  • R. Knutti
  • D.W. Lea
  • L.J. Lourens
  • D. Lunt
  • V. Masson-Demotte
  • M. Medina-Elizalde
  • B. Otto-Bliesner
  • M. Pagani
  • H. Pälike
  • H. Renssen
  • D.L. Royer
  • M. Siddall
  • P. Valdes
  • J.C. Zachos
  • R.E. Zeebe
Publication date 2012
Journal Nature
Volume | Issue number 491 | 7426
Pages (from-to) 683-691
Organisations
  • Faculty of Science (FNWI) - Institute for Biodiversity and Ecosystem Dynamics (IBED)
Abstract
Many palaeoclimate studies have quantified pre-anthropogenic climate change to calculate climate sensitivity (equilibrium temperature change in response to radiative forcing change), but a lack of consistent methodologies produces a wide range of estimates and hinders comparability of results. Here we present a stricter approach, to improve intercomparison of palaeoclimate sensitivity estimates in a manner compatible with equilibrium projections for future climate change. Over the past 65 million years, this reveals a climate sensitivity (in K W−1 m2) of 0.3-1.9 or 0.6-1.3 at 95% or 68% probability, respectively. The latter implies a warming of 2.2-4.8 K per doubling of atmospheric CO2, which agrees with IPCC estimates.
Document type Article
Note With erratum
Language English
Published at https://doi.org/10.1038/nature11574
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