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@ARTICLE{Hassler:202041,
author = {Hassler, B. and Petropavlovskikh, I. and Staehelin, J. and
August, T. and Bhartia, P. K. and Clerbaux, C. and
Degenstein, D. and Mazière, M. De and Dinelli, B. M. and
Dudhia, A. and Dufour, G. and Frith, S. M. and Froidevaux,
L. and Godin-Beekmann, S. and Granville, J. and Harris, N.
R. P. and Hoppel, K. and Hubert, D. and Kasai, Y. and
Kurylo, M. J. and Kyrölä, E. and Lambert, J.-C. and
Levelt, P. F. and McElroy, C. T. and McPeters, R. D. and
Munro, R. and Nakajima, H. and Parrish, A. and Raspollini,
P. and Remsberg, E. E. and Rosenlof, K. H. and Rozanov, A.
and Sano, T. and Sasano, Y. and Shiotani, M. and Smit,
Herman G.J. and Stiller, G. and Tamminen, J. and Tarasick,
D. W. and Urban, J. and van der A, R. J. and Veefkind, J. P.
and Vigouroux, C. and von Clarmann, T. and von Savigny, C.
and Walker, K. A. and Weber, M. and Wild, J and Zawodny, J.
M.},
title = {{P}ast changes in the vertical distribution of ozone -
{P}art 1: {M}easurement techniques, uncertainties and
availability},
journal = {Atmospheric measurement techniques},
volume = {7},
number = {5},
issn = {1867-8548},
address = {Katlenburg-Lindau},
publisher = {Copernicus},
reportid = {FZJ-2015-04330},
pages = {1395 - 1427},
year = {2014},
abstract = {Peak stratospheric chlorofluorocarbon (CFC) and other ozone
depleting substance (ODS) concentrations were reached in the
mid- to late 1990s. Detection and attribution of the
expected recovery of the stratospheric ozone layer in an
atmosphere with reduced ODSs as well as efforts to
understand the evolution of stratospheric ozone in the
presence of increasing greenhouse gases are key current
research topics. These require a critical examination of the
ozone changes with an accurate knowledge of the spatial
(geographical and vertical) and temporal ozone response. For
such an examination, it is vital that the quality of the
measurements used be as high as possible and measurement
uncertainties well quantified.In preparation for the 2014
United Nations Environment Programme (UNEP)/World
Meteorological Organization (WMO) Scientific Assessment of
Ozone Depletion, the SPARC/IO3C/IGACO-O3/NDACC (SI2N)
Initiative was designed to study and document changes in the
global ozone profile distribution. This requires assessing
long-term ozone profile data sets in regards to measurement
stability and uncertainty characteristics. The ultimate goal
is to establish suitability for estimating long-term ozone
trends to contribute to ozone recovery studies. Some of the
data sets have been improved as part of this initiative with
updated versions now available.This summary presents an
overview of stratospheric ozone profile measurement data
sets (ground and satellite based) available for ozone
recovery studies. Here we document measurement techniques,
spatial and temporal coverage, vertical resolution, native
units and measurement uncertainties. In addition, the latest
data versions are briefly described (including data version
updates as well as detailing multiple retrievals when
available for a given satellite instrument). Archive
location information for each data set is also given.},
cin = {IEK-8},
ddc = {550},
cid = {I:(DE-Juel1)IEK-8-20101013},
pnm = {233 - Trace gas and aerosol processes in the troposphere
(POF2-233)},
pid = {G:(DE-HGF)POF2-233},
typ = {PUB:(DE-HGF)16},
UT = {WOS:000336740700016},
doi = {10.5194/amt-7-1395-2014},
url = {https://juser.fz-juelich.de/record/202041},
}
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