An accurate quantification of the stratospheric ozone feedback in climate change simulations requires knowledge of the ozone response to increased greenhouse gases. Here, an analysis is presented of the ozone layer response to an abrupt quadrupling of CO2 concentrations in four chemistry–climate models. The authors show that increased CO2 levels lead to a decrease in ozone concentrations in the tropical lower stratosphere, and an increase over the high latitudes and throughout the upper stratosphere. This pattern is robust across all models examined here, although important intermodel differences in the magnitude of the response are found. As a result of the cancellation between the upper- and lower-stratospheric ozone, the total column ozo...
State-of-the-art climate models now include more climate processes which are simulated at higher spa...
The projected recovery of ozone from the effects of ozone depleting substances this century will off...
In this study, we perform dedicated model experiments with the ECHAM/MESSy (European Center Hamburg ...
The quantification of the climate impacts exerted by stratospheric ozone changes in abrupt 4 × CO2 f...
The increase of atmospheric CO2 concentrations changes the atmospheric temperature distribution, whi...
State-of-the-art climate models now include more climate processes simulated at higher spatial resol...
We examine the characteristics of the climate response to anthropogenic changes in tropospheric ozon...
A number of climate modeling studies have shown that differences between typical choices for represe...
Interactively coupled climate chemistry models (CCMs) extend the number of feedback mechanisms in cl...
A state-of-the-art chemistry climate model coupled to a three-dimensional ocean model is used to pro...
Three recently-completed sets of simulations of multiple chemistry-climate models with greenhouse ga...
Ozone has been considered mainly as a contributor to climate change in terms of radiative forcing. H...
An increase in atmospheric CO2 concentration changes the temperatures and dynamics of the stratosphe...
Occurence of an ozone radiative feedback has been demonstrated in CO2-driven global warming simulati...
The El Niño–Southern Oscillation (ENSO) in the tropical Pacific Ocean is of key importance to global...
State-of-the-art climate models now include more climate processes which are simulated at higher spa...
The projected recovery of ozone from the effects of ozone depleting substances this century will off...
In this study, we perform dedicated model experiments with the ECHAM/MESSy (European Center Hamburg ...
The quantification of the climate impacts exerted by stratospheric ozone changes in abrupt 4 × CO2 f...
The increase of atmospheric CO2 concentrations changes the atmospheric temperature distribution, whi...
State-of-the-art climate models now include more climate processes simulated at higher spatial resol...
We examine the characteristics of the climate response to anthropogenic changes in tropospheric ozon...
A number of climate modeling studies have shown that differences between typical choices for represe...
Interactively coupled climate chemistry models (CCMs) extend the number of feedback mechanisms in cl...
A state-of-the-art chemistry climate model coupled to a three-dimensional ocean model is used to pro...
Three recently-completed sets of simulations of multiple chemistry-climate models with greenhouse ga...
Ozone has been considered mainly as a contributor to climate change in terms of radiative forcing. H...
An increase in atmospheric CO2 concentration changes the temperatures and dynamics of the stratosphe...
Occurence of an ozone radiative feedback has been demonstrated in CO2-driven global warming simulati...
The El Niño–Southern Oscillation (ENSO) in the tropical Pacific Ocean is of key importance to global...
State-of-the-art climate models now include more climate processes which are simulated at higher spa...
The projected recovery of ozone from the effects of ozone depleting substances this century will off...
In this study, we perform dedicated model experiments with the ECHAM/MESSy (European Center Hamburg ...