Climate models that do not simulate changes in stratospheric ozone concentrations require the prescription of ozone fields to accurately calculate UV fluxes and stratospheric heating rates. In this study, three different global ozone time series that are available for this purpose are compared: the data set of Randel and Wu (2007) (RW07), Cionni et al. (2011) (SPARC), and Bodeker et al. (2013) (BDBP). All three data sets represent multiple-linear regression fits to vertically resolved ozone observations, resulting in a spatially and temporally continuous stratospheric ozone field covering at least the period from 1979 to 2005. The main differences among the data sets result from regression models, which use different observations and includ...
As a result of the Montreal Protocol, ozone is expected to recover from the effect of ozone-depletin...
Ozone profile trends over the period 2000 to 2016 from several merged satellite ozone data sets and ...
We report results from a multiple linear regression analysis of long-term total ozone observations (...
Climate models that do not simulate changes in stratospheric ozone concentrations require the prescr...
Climate models that do not simulate changes in stratospheric ozone concentrations require ozone inpu...
A continuous tropospheric and stratospheric vertically resolved ozone time series, from 1850 to 209...
Trends in ozone columns and vertical distributions were calculated for the period 1979–2004 based on...
International audienceTrends in ozone columns and vertical distributions were calculated for the per...
The stratospheric ozone layer shields surface life from harmful ultraviolet radiation. Following the...
The trends and variability of ozone are assessed over a northern mid-latitude station, Haute-Proven...
We present a comparison of trends in total column ozone from 10 two-dimensional and 4 three-dimensio...
Accurate quantification of long-term trends in stratospheric ozone can be challenging due to their s...
Thirteen coupled Atmospheric Oceanic Global Circulation Models (AOGCMs) and seven Chemistry Climate ...
Satellite and ozone-sonde observations indicated a decreasing trend in the ozone concentration in th...
High vertical resolution ozone measurements from eight different satellite-based instruments have be...
As a result of the Montreal Protocol, ozone is expected to recover from the effect of ozone-depletin...
Ozone profile trends over the period 2000 to 2016 from several merged satellite ozone data sets and ...
We report results from a multiple linear regression analysis of long-term total ozone observations (...
Climate models that do not simulate changes in stratospheric ozone concentrations require the prescr...
Climate models that do not simulate changes in stratospheric ozone concentrations require ozone inpu...
A continuous tropospheric and stratospheric vertically resolved ozone time series, from 1850 to 209...
Trends in ozone columns and vertical distributions were calculated for the period 1979–2004 based on...
International audienceTrends in ozone columns and vertical distributions were calculated for the per...
The stratospheric ozone layer shields surface life from harmful ultraviolet radiation. Following the...
The trends and variability of ozone are assessed over a northern mid-latitude station, Haute-Proven...
We present a comparison of trends in total column ozone from 10 two-dimensional and 4 three-dimensio...
Accurate quantification of long-term trends in stratospheric ozone can be challenging due to their s...
Thirteen coupled Atmospheric Oceanic Global Circulation Models (AOGCMs) and seven Chemistry Climate ...
Satellite and ozone-sonde observations indicated a decreasing trend in the ozone concentration in th...
High vertical resolution ozone measurements from eight different satellite-based instruments have be...
As a result of the Montreal Protocol, ozone is expected to recover from the effect of ozone-depletin...
Ozone profile trends over the period 2000 to 2016 from several merged satellite ozone data sets and ...
We report results from a multiple linear regression analysis of long-term total ozone observations (...