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Match observations in the Arctic winter 1996/97: High stratospheric ozone loss rates correlate with low temperatures deep inside the polar vortex
Author(s) -
Schulz A.,
Rex M.,
Steger J.,
Harris N. R. P.,
Braathen G. O.,
Reimer E.,
Alfier R.,
Beck A.,
Alpers M.,
Cisneros J.,
Claude H.,
De Backer H.,
Dier H.,
Dorokhov V.,
Fast H.,
Godin S.,
Hansen G.,
Kanzawa H.,
Kois B.,
Kondo Y.,
Kosmidis E.,
Kyrö E.,
Litynska Z.,
Molyneux M. J.,
Murphy G.,
Nakane H.,
Parrondo C.,
Ravegnani F.,
Varotsos C.,
Vialle C.,
Viatte P.,
Yushkov V.,
Zerefos C.,
von der Gathen P.
Publication year - 2000
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/1999gl010811
Subject(s) - polar vortex , ozone , stratosphere , vortex , atmospheric sciences , ozone layer , ozone depletion , environmental science , arctic , climatology , polar , meteorology , geology , oceanography , physics , astronomy
With the Match technique, which is based on the coordinated release of ozonesondes, chemical ozone loss rates in the Arctic stratospheric vortex in early 1997 have been quantified in a vertical region between 400 K and 550 K. Ozone destruction was observed from mid February to mid March in most of these levels, with maximum loss rates between 25 and 45ppbv/day. The vortex averaged loss rates and the accumulated vertically integrated ozone loss have been smaller than in the previous two winters, indicating that the record low ozone columns observed in spring 1997 were partly caused by dynamical effects. The observed ozone loss is inhomogeneous through the vortex with the highest loss rates located in the vortex centre, coinciding with the lowest temperatures. Here the loss rates per sunlit hour reached 6 ppbv/h, while the corresponding vortex averaged rates did not exceed 3.9 ppbv/h.