Effect of resolving ocean eddies on the transient response of global mean surface temperature to abrupt 4xCO<sub>2</sub> forcing

doi:10.1029/2020GL092049

The magnitude of global mean surface temperature (GMST) response to increasing atmospheric CO₂ concentrations is affected by the efficiency of ocean heat uptake, which in turn can be affected by oceanic mesoscale eddies. Using the Max Planck Institute ‐ Earth System Model (MPI‐ESM1.2), we find that resolving eddies leads to a –0.1°C cooler response of GMST to an abrupt CO₂ quadrupling, which is related to a larger rate of heat uptake by an eddying ocean. This is consistent with changes in the energy budget of the whole climate system induced by increasing ocean resolution under the same radiative forcing and climate feedback. As a fast response, heat is taken up by the deep ocean, independent of resolution. The change in deep ocean heat uptake due to resolved eddies is an amplification in the magnitude of the responses of all heat processes, including eddy heat advection, mean heat advection and diffusive processes.

DOI	10.1029/2020GL092049
	Effect of resolving ocean eddies on the transient response of global mean surface temperature to abrupt 4xCO₂ forcing
	D. A. Putrasahan; O. Gutjahr; H. Haak; J. H. Jungclaus; K. Lohmann; M. J. Roberts; J.‐; S. von Storch
	2021-03-27
发表期刊	Geophysical Research Letters
出版年	2021
英文摘要	The magnitude of global mean surface temperature (GMST) response to increasing atmospheric CO₂ concentrations is affected by the efficiency of ocean heat uptake, which in turn can be affected by oceanic mesoscale eddies. Using the Max Planck Institute ‐ Earth System Model (MPI‐ESM1.2), we find that resolving eddies leads to a –0.1°C cooler response of GMST to an abrupt CO₂ quadrupling, which is related to a larger rate of heat uptake by an eddying ocean. This is consistent with changes in the energy budget of the whole climate system induced by increasing ocean resolution under the same radiative forcing and climate feedback. As a fast response, heat is taken up by the deep ocean, independent of resolution. The change in deep ocean heat uptake due to resolved eddies is an amplification in the magnitude of the responses of all heat processes, including eddy heat advection, mean heat advection and diffusive processes.
领域	气候变化
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文献类型	期刊论文
条目标识符	http://119.78.100.173/C666/handle/2XK7JSWQ/320907
专题	气候变化
推荐引用方式 GB/T 7714	D. A. Putrasahan,O. Gutjahr,H. Haak,et al. Effect of resolving ocean eddies on the transient response of global mean surface temperature to abrupt 4xCO₂ forcing[J]. Geophysical Research Letters,2021.
APA	D. A. Putrasahan.,O. Gutjahr.,H. Haak.,J. H. Jungclaus.,K. Lohmann.,...&S. von Storch.(2021).Effect of resolving ocean eddies on the transient response of global mean surface temperature to abrupt 4xCO₂ forcing.Geophysical Research Letters.
MLA	D. A. Putrasahan,et al."Effect of resolving ocean eddies on the transient response of global mean surface temperature to abrupt 4xCO₂ forcing".Geophysical Research Letters (2021).

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