著者

JAIN Shipra CHHIN Rattana DOHERTY Ruth M. MISHRA Saroj K. YODEN Shigeo

出版者

Meteorological Society of Japan

雑誌

気象集誌. 第2輯 (ISSN:00261165)

巻号頁・発行日

pp.2021-021, (Released:2021-01-13)

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Equilibrium climate sensitivity (ECS) is defined as the change in global-mean surface air temperature due to the doubling or quadrupling of CO2 in a climate model simulation. This metric is used to determine the uncertainty in future climate projections, and therefore the impact of model changes on ECS is of large interest to the climate modeling community. In this paper, we propose a new graphical method, which is an extension of the Gregory's linear regression method, to represent the impact of model changes on ECS, climate forcing and climate feedbacks in a single diagram. Using this visualization method, one can quantify (a) whether the model- or process-change amplifies, reduces, or has no impact on global warming, and evaluate (b) the percentage changes in ECS, climate forcing and climate feedbacks and (c) ranges of the uncertainties in the estimated changes. We demonstrate this method using an example of climate sensitivity simulations with and without interactive chemistry. This method can be useful for multi-model assessments where the response of multiple models for the same model experiment (e.g., usage of interactive chemistry as compared to the prescribed chemistry as shown here) can be assessed simultaneously, which is otherwise difficult to compare and comprehend. We also demonstrate how this method can be used to examine the spread in ECS, climate forcing and climate feedbacks with respect to the multi-model mean (or one benchmark model) for multi-model frameworks like Coupled Model Intercomparison Project Phase 5 or for different ensemble members in a large ensemble of simulations carried out using a single model.