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Chemical depletion of Arctic ozone in winter 1999/2000 (2002)

Rex, Markus ; Salawitch, R. J. ; Harris, N. R. P. ; [et al.]

In: EPIC3Journal of Geophysical ResearchD20), 107, 8276 p.

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Publication Date: 2019-07-16

Description: Large losses of Arctic ozone occur during winters with cold, stable stratospheric circulations that result in the extensive occurrence of polar stratospheric clouds (PSCs). Reactions on the surface of PSCs lead to elevated abundances of chlorine monoxide (ClO) that, in the presence of sunlight, destroys ozone. Here we show that PSCs were more widespread during the 1999/2000 Arctic winter than for any other winter in the past two decades. We have used three fundamentally different approaches to derive the degree of chemical ozone loss from ozone sonde, balloon, aircraft and satelite instruments. We show that the ozone losses derived from these different instruments and approaches agree very well, resulting in a high level of confidence in the results. Chemical processes led to a 70% reduction of ozone for a ~1 km thick region of the lower stratosphere, the largest degree of local loss ever reported for the Arctic. The chemical loss of ozone in the total column amounted to about 100 DU by the end of the winter. This total column loss was balanced by transport, resulting in relatively constant total ozone between early January and late March, which is in contrast to the climatological increase of the total ozone column during this period, that is observed during most years.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Chemical loss of ozone during the Arctic winter of 1999/2000: An analysis based on balloon-borne observations (2002)

Salawitch, R. J. ; Margitan, J. J. ; Sen, B. ; [et al.]

In: EPIC3Journal of Geophysical ResearchD20), 107, 8269 p.

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Publication Date: 2019-07-16

Description: Simultaneous balloon-borne observations of ozone (O3) and nitrous oxide (N2O), a long-livedtracer of dynamical motion, are used to quantify the chemical loss of ozone in the Arctic vortexduring the winter of 1999/2000. Chemical loss of ozone occurred between altitudes of about 14 and22 km (pressures from ~120 to 30 mbar) and resulted in a 61 ± 13 Dobson unit reduction in totalcolumn ozone between late November 1999 and 5 March 2000 (the date of the last balloon-bornemeasurement considered here). This loss estimate is valid for the core of the vortex during the timeperiod covered by the observations. It is shown that the observed changes in the O3 versus N2Orelation were almost entirely due to chemistry and could not have been caused by dynamics. Thechemical loss of column ozone inferred from the balloon-borne measurements using the "ozoneversus tracer" technique is shown to compare well with estimates of chemical loss found usingboth the Match technique (as applied to independent ozonesonde data) and the "vortex-averageddescent" technique (as applied to Polar Ozone and Aerosol Measurement (POAM) III satellitemeasurements of ozone). This comparison establishes the validity of each approach for estimatingchemical loss of column ozone for the Arctic winter of 1999/2000.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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