Dependency of climate change and carbon cycle on CO2 emission pathways

Previous research has indicated that the response of globally average temperature is approximately proportional to cumulative CO _2 emissions, yet evidence of the robustness of this relationship over a range of CO _2 emission pathways is lacking. To address this, we evaluate the dependency of climat...

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Bibliographic Details
Published in:Environmental Research Letters
Main Authors: Daisuke Nohara, Yoshikatsu Yoshida, Kazuhiro Misumi, Masamichi Ohba
Format: Article in Journal/Newspaper
Language:English
Published: IOP Publishing 2013
Subjects:
Q
Online Access:https://doi.org/10.1088/1748-9326/8/1/014047
https://doaj.org/article/3d6407c70374463988f836d4e556d3d3
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Summary:Previous research has indicated that the response of globally average temperature is approximately proportional to cumulative CO _2 emissions, yet evidence of the robustness of this relationship over a range of CO _2 emission pathways is lacking. To address this, we evaluate the dependency of climate and carbon cycle change on CO _2 emission pathways using a fully coupled climate–carbon cycle model. We design five idealized pathways (including an overshoot scenario for cumulative emissions), each of which levels off to final cumulative emissions of 2000 GtC. The cumulative emissions of the overshoot scenario reach 4000 GtC temporarily, subsequently reducing to 2000 GtC as a result of continuous negative emissions. Although we find that responses of climatic variables and the carbon cycle are largely independent of emission pathways, a much weakened Atlantic meridional overturning circulation (AMOC) is projected in the overshoot scenario despite cessation of emissions. This weakened AMOC is enhanced by rapid warming in the Arctic region due to considerable temporary elevation of atmospheric CO _2 concentration and induces the decline of surface air temperature and decrease of precipitation over the northern Atlantic and Europe region. Moreover, the weakened AMOC reduces CO _2 uptake by the Atlantic and Arctic oceans. However, the weakened AMOC contributes little to the global carbon cycle. In conclusion, although climate variations have been found to be dependent on emission pathways, the global carbon cycle is relatively independent of these emission pathways, at least superficially.