دورية أكاديمية
Bayesian estimation of Earth's climate sensitivity and transient climate response from observational warming and heat content datasets
| العنوان: | Bayesian estimation of Earth's climate sensitivity and transient climate response from observational warming and heat content datasets |
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| المؤلفون: | P. Goodwin, B. B. Cael |
| المصدر: | Earth System Dynamics, Vol 12, Pp 709-723 (2021) |
| بيانات النشر: | Copernicus Publications, 2021. |
| سنة النشر: | 2021 |
| المجموعة: | LCC:Science LCC:Geology LCC:Dynamic and structural geology |
| مصطلحات موضوعية: | Science, Geology, QE1-996.5, Dynamic and structural geology, QE500-639.5 |
| الوصف: | Future climate change projections, impacts, and mitigation targets are directly affected by how sensitive Earth's global mean surface temperature is to anthropogenic forcing, expressed via the climate sensitivity (S) and transient climate response (TCR). However, the S and TCR are poorly constrained, in part because historic observations and future climate projections consider the climate system under different response timescales with potentially different climate feedback strengths. Here, we evaluate S and TCR by using historic observations of surface warming, available since the mid-19th century, and ocean heat uptake, available since the mid-20th century, to constrain a model with independent climate feedback components acting over multiple response timescales. Adopting a Bayesian approach, our prior uses a constrained distribution for the instantaneous Planck feedback combined with wide-ranging uniform distributions of the strengths of the fast feedbacks (acting over several days) and multi-decadal feedbacks. We extract posterior distributions by applying likelihood functions derived from different combinations of observational datasets. The resulting TCR distributions when using two preferred combinations of historic datasets both find a TCR of 1.5 (1.3 to 1.8 at 5–95 % range) ∘C. We find the posterior probability distribution for S for our preferred dataset combination evolves from S of 2.0 (1.6 to 2.5) ∘C on a 20-year response timescale to S of 2.3 (1.4 to 6.4) ∘C on a 140-year response timescale, due to the impact of multi-decadal feedbacks. Our results demonstrate how multi-decadal feedbacks allow a significantly higher upper bound on S than historic observations are otherwise consistent with. |
| نوع الوثيقة: | article |
| وصف الملف: | electronic resource |
| اللغة: | English |
| تدمد: | 2190-4979 2190-4987 |
| Relation: | https://esd.copernicus.org/articles/12/709/2021/esd-12-709-2021.pdf; https://doaj.org/toc/2190-4979; https://doaj.org/toc/2190-4987 |
| DOI: | 10.5194/esd-12-709-2021 |
| URL الوصول: | https://doaj.org/article/d3c49f24d3ef4251807ef82fda6adb39 |
| رقم الأكسشن: | edsdoj.3c49f24d3ef4251807ef82fda6adb39 |
| قاعدة البيانات: | Directory of Open Access Journals |
Full Text Finder | تدمد: | 21904979 21904987 |
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| DOI: | 10.5194/esd-12-709-2021 |