Add to ORKGRadiative forcing (RF) time series for total ozone from 1850 up to the present day are calculated based on historical simulations of ozone from 10 climate models contributing to the Coupled Model Intercomparison Project Phase 6 (CMIP6). In addition, RF is calculated for ozone fields prepared as an input for CMIP6 models without chemistry schemes and from a chemical transport model simulation. A radiative kernel for ozone is constructed and used to derive the RF. The ozone RF in 2010 (2005–2014) relative to 1850 is 0.35 W m−2 [0.08–0.61] (5–95% uncertainty range) based on models with both tropospheric and stratospheric chemistry. One of these models has a negative present-day total ozone RF. Excluding this model, the present-day ozone RF inc...
Improved estimates of the radiative forcing from tropospheric ozone increases since the preindustri...
This document describes additional supporting aspects of the publication: Historical tropospheric an...
Radiative forcing due to changes in ozone is expected for the 21st century. An assessment on change...
Changes in atmospheric ozone have occurred since the preindustrial era as a result of increasing ant...
We have developed a global model for the study of chemistry-climate interactions by incorporating a ...
Changes in atmospheric ozone have occurred since the preindustrial era as a result of increasing ant...
Changes in atmospheric ozone have occurred since the preindustrial era as a result of increasing ant...
A continuous tropospheric and stratospheric vertically resolved ozone time series, from 1850 to 209...
One metric to show the impact of changes in the human and natural emissions of climate active agents...
Ozone (O3) from 17 atmospheric chemistry models taking part in the Atmospheric Chemistry and Climate...
<p>This dataset provides to the reader/user with two netCDF files which illustrate the structure and...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
19 pags, 6 figs, 2 tabsOver the 21st century changes in both tropospheric and stratospheric ozone ar...
A background tropospheric chemistry model that is coupled to the general circulation model ECHAM4 is...
We calculate ozone radiative forcing (RF) and stratospheric temperature adjustments for the period ...
Improved estimates of the radiative forcing from tropospheric ozone increases since the preindustri...
This document describes additional supporting aspects of the publication: Historical tropospheric an...
Radiative forcing due to changes in ozone is expected for the 21st century. An assessment on change...
Changes in atmospheric ozone have occurred since the preindustrial era as a result of increasing ant...
We have developed a global model for the study of chemistry-climate interactions by incorporating a ...
Changes in atmospheric ozone have occurred since the preindustrial era as a result of increasing ant...
Changes in atmospheric ozone have occurred since the preindustrial era as a result of increasing ant...
A continuous tropospheric and stratospheric vertically resolved ozone time series, from 1850 to 209...
One metric to show the impact of changes in the human and natural emissions of climate active agents...
Ozone (O3) from 17 atmospheric chemistry models taking part in the Atmospheric Chemistry and Climate...
<p>This dataset provides to the reader/user with two netCDF files which illustrate the structure and...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
19 pags, 6 figs, 2 tabsOver the 21st century changes in both tropospheric and stratospheric ozone ar...
A background tropospheric chemistry model that is coupled to the general circulation model ECHAM4 is...
We calculate ozone radiative forcing (RF) and stratospheric temperature adjustments for the period ...
Improved estimates of the radiative forcing from tropospheric ozone increases since the preindustri...
This document describes additional supporting aspects of the publication: Historical tropospheric an...
Radiative forcing due to changes in ozone is expected for the 21st century. An assessment on change...