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Adjustments to climate perturbations -mechanisms, implications, observational constraints
  • +26
  • Johannes Quaas,
  • Timothy Andrews,
  • Nicolas Bellouin,
  • Karoline Block,
  • Olivier Boucher,
  • Paulo Ceppi,
  • Guy Dagan,
  • Sabine Doktorowski,
  • Hannah Marie Eichholz,
  • Piers Forster,
  • Tom Goren,
  • Edward Gryspeerdt,
  • Øivind Hodnebrog,
  • Hailing Jia,
  • Ryan Kramer,
  • Charlotte Lange,
  • Amanda C Maycock,
  • Johannes Mülmenstädt,
  • Gunnar Myhre,
  • Fiona M O'connor,
  • Robert Pincus,
  • Bjørn Hallvard Samset,
  • Fabian Senf,
  • Keith P Shine,
  • Chris Smith,
  • Camilla Weum Stjern,
  • Toshihiko Takemura,
  • Velle Toll,
  • Casey J Wall
Johannes Quaas
Institute for Meteorology, Leipzig University

Corresponding Author:[email protected]

Author Profile
Timothy Andrews
Met Office, Hadley Centre
Nicolas Bellouin
Department of Meteorology, University of Reading, Institut Pierre-Simon Laplace, Sorbonne Université / CNRS
Karoline Block
Institute for Meteorology, Leipzig University
Olivier Boucher
Institut Pierre-Simon Laplace, Sorbonne Université / CNRS
Paulo Ceppi
Imperial College London
Guy Dagan
Hebrew University Jerusalem
Sabine Doktorowski
Institute for Meteorology, Leipzig University
Hannah Marie Eichholz
Institute for Meteorology, Leipzig University
Piers Forster
University of Leeds
Tom Goren
Institute for Meteorology, Leipzig University, Bar Ilan University
Edward Gryspeerdt
Imperial College London
Øivind Hodnebrog
CICERO Oslo
Hailing Jia
Institute for Meteorology, Leipzig University, SRON
Ryan Kramer
Earth Sciences Division, NASA Goddard Space Flight Center, GESTAR-II, University of Maryland Baltimore County
Charlotte Lange
Institute for Meteorology, Leipzig University
Amanda C Maycock
University of Leeds
Johannes Mülmenstädt
Pacific Northwest National Laboratory
Gunnar Myhre
CICERO Oslo
Fiona M O'connor
Met Office, Hadley Centre, Department of Mathematics and Statistics, Global Systems Institute, University of Exeter
Robert Pincus
Lamont-Doherty Earth Observatory, Columbia University
Bjørn Hallvard Samset
CICERO Oslo
Fabian Senf
Leibniz Institute for Tropospheric Research
Keith P Shine
Department of Meteorology, University of Reading
Chris Smith
University of Leeds, International Institute for Applied Systems Analysis
Camilla Weum Stjern
CICERO Oslo
Toshihiko Takemura
Kyushu University
Velle Toll
University of Tartu
Casey J Wall
University of Oslo

Abstract

Since the 5th Assessment Report of the Intergovernmental Panel on Climate Change (AR5) an extended concept of the energetic analysis of climate change including forcings, feedbacks and adjustment processes has become widely adopted. Adjustments are defined as processes that occur in response to the introduction of a climate forcing agent, but that are independent of global-mean surface temperature changes. Most considered are the adjustments that impact the Earth energy budget and strengthen or weaken the instantaneous radiative forcing due to the forcing agent. Some adjustment mechanisms also impact other aspects of climate not related to the Earth radiation budget. Since AR5 and a following description by Sherwood et al. (2015), much research on adjustments has been performed and is reviewed here. We classify the adjustment mechanisms into six main categories, and discuss methods of quantifying these adjustments in terms of their potentials, shortcomings and practicality. We furthermore describe aspects of adjustments that act beyond the energetic framework, and we propose new ideas to observe adjustments or to make use of observations to constrain their representation in models. Altogether, the problem of adjustments is now on a robust scientific footing, and better quantification and observational constraint is possible. This allows for improvements in understanding and quantifying climate change.
17 Jul 2024Submitted to ESS Open Archive
18 Jul 2024Published in ESS Open Archive