State dependence of CO2 forcing and its implications for climate sensitivity

被引:34
作者
He, Haozhe [1 ,5 ]
Kramer, Ryan J. [2 ,3 ,6 ]
Soden, Brian J. [1 ]
Jeevanjee, Nadir [4 ]
机构
[1] Univ Miami, Rosenstiel Sch Marine Atmospher & Earth Sci, Miami, FL 33149 USA
[2] Univ Maryland, Goddard Earth Sci Technol & Res 2, Baltimore, MD USA
[3] NASA Goddard Space Flight Ctr, Climate & Radiat Lab, Greenbelt, MD USA
[4] Geophys Fluid Dynam Lab, Princeton, NJ USA
[5] Princeton Univ, High Meadows Environm Inst, Princeton, NJ USA
[6] Geophys Fluid Dynam Lab, Princeton, NJ USA
来源
SCIENCE | 2023年 / 382卷 / 6674期
基金
美国海洋和大气管理局; 美国国家航空航天局;
关键词
MODEL INTERCOMPARISON PROJECT; EXPERIMENTAL-DESIGN; UNCERTAINTIES; CMIP5;
D O I
10.1126/science.abq6872
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
When evaluating the effect of carbon dioxide (CO2) changes on Earth's climate, it is widely assumed that instantaneous radiative forcing from a doubling of a given CO2 concentration (IRF2xCO2) is constant and that variances in climate sensitivity arise from differences in radiative feedbacks or dependence of these feedbacks on the climatological base state. Here, we show that the IRF2xCO2 is not constant, but rather depends on the climatological base state, increasing by about 25% for every doubling of CO2, and has increased by about 10% since the preindustrial era primarily due to the cooling within the upper stratosphere, implying a proportionate increase in climate sensitivity. This base-state dependence also explains about half of the intermodel spread in IRF2xCO2, a problem that has persisted among climate models for nearly three decades.
引用
收藏
页码:1051 / 1056
页数:6
相关论文
共 69 条
  • [21] Observed changes in Brewer?Dobson circulation for 1980?2018
    Fu, Qiang
    Solomon, Susan
    Pahlavan, Hamid A.
    Lin, Pu
    [J]. ENVIRONMENTAL RESEARCH LETTERS, 2019, 14 (11)
  • [22] The Modern-Era Retrospective Analysis for Research and Applications, Version 2 (MERRA-2)
    Gelaro, Ronald
    McCarty, Will
    Suarez, Max J.
    Todling, Ricardo
    Molod, Andrea
    Takacs, Lawrence
    Randles, Cynthia A.
    Darmenov, Anton
    Bosilovich, Michael G.
    Reichle, Rolf
    Wargan, Krzysztof
    Coy, Lawrence
    Cullather, Richard
    Draper, Clara
    Akella, Santha
    Buchard, Virginie
    Conaty, Austin
    da Silva, Arlindo M.
    Gu, Wei
    Kim, Gi-Kong
    Koster, Randal
    Lucchesi, Robert
    Merkova, Dagmar
    Nielsen, Jon Eric
    Partyka, Gary
    Pawson, Steven
    Putman, William
    Rienecker, Michele
    Schubert, Siegfried D.
    Sienkiewicz, Meta
    Zhao, Bin
    [J]. JOURNAL OF CLIMATE, 2017, 30 (14) : 5419 - 5454
  • [23] The Detection and Attribution Model Intercomparison Project (DAMIP v1.0) contribution to CMIP6
    Gillett, Nathan P.
    Shiogama, Hideo
    Funke, Bernd
    Hegerl, Gabriele
    Knutti, Reto
    Matthes, Katja
    Santer, Benjamin D.
    Stone, Daithi
    Tebaldi, Claudia
    [J]. GEOSCIENTIFIC MODEL DEVELOPMENT, 2016, 9 (10) : 3685 - 3697
  • [24] nonlinMIP contribution to CMIP6: model intercomparison project for non-linear mechanisms: physical basis, experimental design and analysis principles (v1.0)
    Good, Peter
    Andrews, Timothy
    Chadwick, Robin
    Dufresne, Jean-Louis
    Gregory, Jonathan M.
    Lowe, Jason A.
    Schaller, Nathalie
    Shiogama, Hideo
    [J]. GEOSCIENTIFIC MODEL DEVELOPMENT, 2016, 9 (11) : 4019 - 4028
  • [25] The ERA5 global reanalysis
    Hersbach, Hans
    Bell, Bill
    Berrisford, Paul
    Hirahara, Shoji
    Horanyi, Andras
    Munoz-Sabater, Joaquin
    Nicolas, Julien
    Peubey, Carole
    Radu, Raluca
    Schepers, Dinand
    Simmons, Adrian
    Soci, Cornel
    Abdalla, Saleh
    Abellan, Xavier
    Balsamo, Gianpaolo
    Bechtold, Peter
    Biavati, Gionata
    Bidlot, Jean
    Bonavita, Massimo
    De Chiara, Giovanna
    Dahlgren, Per
    Dee, Dick
    Diamantakis, Michail
    Dragani, Rossana
    Flemming, Johannes
    Forbes, Richard
    Fuentes, Manuel
    Geer, Alan
    Haimberger, Leo
    Healy, Sean
    Hogan, Robin J.
    Holm, Elias
    Janiskova, Marta
    Keeley, Sarah
    Laloyaux, Patrick
    Lopez, Philippe
    Lupu, Cristina
    Radnoti, Gabor
    de Rosnay, Patricia
    Rozum, Iryna
    Vamborg, Freja
    Villaume, Sebastien
    Thepaut, Jean-Noel
    [J]. QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETY, 2020, 146 (730) : 1999 - 2049
  • [26] A Synopsis of AIRS Global-Mean Clear-Sky Radiance Trends From 2003 to 2020
    Huang, Xianglei
    Chen, Xiuhong
    Fan, Chongxing
    Kato, Seiji
    Loeb, Norman
    Bosilovich, Michael
    Ham, Seung-Hee
    Rose, Fred G.
    Strow, Lawrence L.
    [J]. JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2022, 127 (24)
  • [27] Inhomogeneous radiative forcing of homogeneous greenhouse gases
    Huang, Yi
    Tan, Xiaoxiao
    Xia, Yan
    [J]. JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2016, 121 (06) : 2780 - 2789
  • [28] An Analytical Model for Spatially Varying Clear-Sky CO2 Forcing
    Jeevanjee, Nadir
    Seeley, Jacob T.
    Paynter, David
    Fueglistaler, Stephan
    [J]. JOURNAL OF CLIMATE, 2021, 34 (23) : 9463 - 9480
  • [29] Kanamitsu M, 2002, B AM METEOROL SOC, V83, P1631, DOI 10.1175/Bams-83-11-1631
  • [30] Earth's outgoing longwave radiation linear due to H2O greenhouse effect
    Koll, Daniel D. B.
    Cronin, Timothy W.
    [J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2018, 115 (41) : 10293 - 10298
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