Change in Climate Sensitivity and Its Dependence on the Lapse-Rate Feedback in 4 × CO2 Climate Model Experiments

Change in Climate Sensitivity and Its Dependence on the Lapse-Rate Feedback in 4 × CO2 Climate Model Experiments

Robust estimates of climate sensitivity are important for decision-making on mitigation of climate change. However, climate sensitivity and its governing processes are still subject to large uncertainty. Recently it has been established that climate sensitivity changes over time in numerical climate...

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Veröffentlicht in:Journal of climate 2022-05, Vol.35 (9), p.2919-2932
Hauptverfasser: Eiselt, Kai-Uwe, Graversen, Rune Grand
Format: Artikel
Sprache:eng
Schlagworte:
Albedo
Arctic sea ice
Carbon dioxide
Carbon dioxide concentration
Climate
Climate change
Climate change mitigation
Climate feedback
Climate models
Climate sensitivity
Decision making
Experiments
Feedback
Intercomparison
Lapse rate
Mitigation
Modelling
Radiation
Robustness (mathematics)
Sea ice
Sensitivity
Tropical climate
Water vapor
Water vapour
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container_title Journal of climate
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creator Eiselt, Kai-Uwe
Graversen, Rune Grand
description Robust estimates of climate sensitivity are important for decision-making on mitigation of climate change. However, climate sensitivity and its governing processes are still subject to large uncertainty. Recently it has been established that climate sensitivity changes over time in numerical climate model experiments with abrupt quadrupling of the CO 2 concentration. Here we conduct an analysis of such experiments from a range of climate models from phases 5 and 6 of the Coupled Model Intercomparison Project (CMIP). Climate feedbacks associated with clouds, lapse rate, Planck radiation, surface albedo, and water vapor and their changes over time are diagnosed based on a radiative kernel method. We find two clearly distinct model groups, one with weak and one with strong lapse-rate feedback change. The Arctic is the region showing the largest differences between these two model groups, with respect to both warming change and individual feedback changes. We retrace this change to the development over time of the Arctic sea ice, which impacts both the surface-albedo and lapse-rate feedbacks. Generally, models that warm quickly, both globally and in the Arctic, also quickly lose their Arctic sea ice and change their total global-mean climate feedback only little, and vice versa. However, it remains unclear if the Arctic changes are a cause or rather a by-product of the total global-mean feedback change. Finally, we find support for the results of previous studies finding that the relative warming in the tropical Indo-Pacific region may control the change of total climate feedback over time.
doi_str_mv 10.1175/JCLI-D-21-0623.1
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source American Meteorological Society; EZB-FREE-00999 freely available EZB journals
subjects Albedo
Arctic sea ice
Carbon dioxide
Carbon dioxide concentration
Climate
Climate change
Climate change mitigation
Climate feedback
Climate models
Climate sensitivity
Decision making
Experiments
Feedback
Intercomparison
Lapse rate
Mitigation
Modelling
Radiation
Robustness (mathematics)
Sea ice
Sensitivity
Tropical climate
Water vapor
Water vapour
title Change in Climate Sensitivity and Its Dependence on the Lapse-Rate Feedback in 4 × CO2 Climate Model Experiments
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