Dependence of global radiative feedbacks on evolving patterns of surface heat fluxes
OPEN ACCESS
Loading...
Author / Producer
Date
2016-09-28
Publication Type
Journal Article
ETH Bibliography
yes
OPEN ACCESS
Data
Rights / License
Abstract
In most climate models, after an abrupt increase in radiative forcing the climate feedback parameter magnitude decreases with time. We demonstrate how the evolution of the pattern of ocean heat uptake—moving from a more homogeneous toward a heterogeneous and high-latitude-enhanced pattern—influences not only regional but also global climate feedbacks. We force a slab ocean model with scaled patterns of ocean heat uptake derived from a coupled ocean-atmosphere general circulation model. Steady state results from the slab ocean approximate transient results from the dynamic ocean configuration. Our results indicate that cloud radiative effects play an important role in decreasing the magnitude of the climate feedback parameter. The ocean strongly affects atmospheric temperatures through both heat uptake and through influencing atmospheric feedbacks. This highlights the challenges associated with reliably predicting transient or equilibrated climate system states from shorter-term climate simulations and observed climate variability.
Permanent link
Publication status
published
External links
Editor
Book title
Journal / series
Volume
43 (18)
Pages / Article No.
9877 - 9885
Publisher
American Geophysical Union
Event
Edition / version
Methods
Software
Geographic location
Date collected
Date created
Subject
Climate feedbacks; Climate sensitivity; Ocean heat uptake; Slab ocean; Surface heat fluxes
Organisational unit
03777 - Knutti, Reto / Knutti, Reto