Prolonged stratospheric ozone loss in the 1995-96 arctic winter

Markus Rex; Neil R.P. Harris; Peter Von der Gathen; Ralph Lehmann; Geir O. Braathen; Eberhard Reimer; Alexander Beck; Martyn P. Chipperfield; Reimond Alfier; Marc Allaart; Fiona O'Connor; Horst Dier; Valery Dorokhov; Hans Fast; Manuel Gil; Esko Kyrö; Zenobia Litynska; Ib Steen Mikkelsen; Mike G. Molyneux; Hideaki Nakane; Justus Notholt; Markku Rummukainen; Pierre Viatte; John Wenger

doi:10.1038/39849

Prolonged stratospheric ozone loss in the 1995-96 arctic winter

Markus Rex
, Neil R.P. Harris
, Peter Von der Gathen
, Ralph Lehmann
, Geir O. Braathen
, Eberhard Reimer
, Alexander Beck
, Martyn P. Chipperfield
, Reimond Alfier
, Marc Allaart
, Fiona O'Connor
, Horst Dier
, Valery Dorokhov
, Hans Fast
, Manuel Gil
, Esko Kyrö
, Zenobia Litynska
, Ib Steen Mikkelsen
, Mike G. Molyneux
, Hideaki Nakane

Justus Notholt, Markku Rummukainen, Pierre Viatte, John Wenger

Research output: Contribution to journal › Article › peer-review

Abstract

It is well established that extensive depletion of ozone, initiated by heterogenous reactions on polar stratospheric clouds (PSCs) can occur in both the Arctic and Antarctic lower stratosphere. Moreover, it has been shown that ozone loss rates in the Arctic region in recent years reached values comparable to those over the Antarctic. But until now the accumulated ozone losses over the Arctic have been the smaller, mainly because the period of Arctic ozone loss has not-unlike over the Antarctic-persisted well into springtime. Here we report the occurrence-during the unusually cold 1995-96 Arctic winter-of the highest recorded chemical ozone loss over the Arctic region. Two new kinds of behaviour were observed. First, ozone loss at some altitudes was observed long after the last exposure to PSCs. This continued loss appears to be due to a removal of the nitrogen species that slow down chemical ozone depletion. Second, in another altitude range ozone loss rates decreased while PSCs were still present, apparently because of an early transformation of the ozone-destroying chlorine species into less active chlorinenitrate. The balance between these two counteracting mechanisms is probably a fine one, determined by small differences in wintertime stratospheric temperatures. If the apparent cooling trend in the Arctic stratosphere is real, more dramatic ozone losses may occur in the future.

Original language	English
Pages (from-to)	835-838
Number of pages	4
Journal	Nature
Volume	389
Issue number	6653
DOIs	https://doi.org/10.1038/39849
Publication status	Published - 1997
Externally published	Yes

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Rex, M., Harris, N. R. P., Von der Gathen, P., Lehmann, R., Braathen, G. O., Reimer, E., Beck, A., Chipperfield, M. P., Alfier, R., Allaart, M., O'Connor, F., Dier, H., Dorokhov, V., Fast, H., Gil, M., Kyrö, E., Litynska, Z., Mikkelsen, I. S., Molyneux, M. G., ... Wenger, J. (1997). Prolonged stratospheric ozone loss in the 1995-96 arctic winter. Nature, 389(6653), 835-838. https://doi.org/10.1038/39849

@article{bb68e1de07dc4570bd56366ff5ff67c2,

title = "Prolonged stratospheric ozone loss in the 1995-96 arctic winter",

abstract = "It is well established that extensive depletion of ozone, initiated by heterogenous reactions on polar stratospheric clouds (PSCs) can occur in both the Arctic and Antarctic lower stratosphere. Moreover, it has been shown that ozone loss rates in the Arctic region in recent years reached values comparable to those over the Antarctic. But until now the accumulated ozone losses over the Arctic have been the smaller, mainly because the period of Arctic ozone loss has not-unlike over the Antarctic-persisted well into springtime. Here we report the occurrence-during the unusually cold 1995-96 Arctic winter-of the highest recorded chemical ozone loss over the Arctic region. Two new kinds of behaviour were observed. First, ozone loss at some altitudes was observed long after the last exposure to PSCs. This continued loss appears to be due to a removal of the nitrogen species that slow down chemical ozone depletion. Second, in another altitude range ozone loss rates decreased while PSCs were still present, apparently because of an early transformation of the ozone-destroying chlorine species into less active chlorinenitrate. The balance between these two counteracting mechanisms is probably a fine one, determined by small differences in wintertime stratospheric temperatures. If the apparent cooling trend in the Arctic stratosphere is real, more dramatic ozone losses may occur in the future.",

author = "Markus Rex and Harris, \{Neil R.P.\} and \{Von der Gathen\}, Peter and Ralph Lehmann and Braathen, \{Geir O.\} and Eberhard Reimer and Alexander Beck and Chipperfield, \{Martyn P.\} and Reimond Alfier and Marc Allaart and Fiona O'Connor and Horst Dier and Valery Dorokhov and Hans Fast and Manuel Gil and Esko Kyr{\"o} and Zenobia Litynska and Mikkelsen, \{Ib Steen\} and Molyneux, \{Mike G.\} and Hideaki Nakane and Justus Notholt and Markku Rummukainen and Pierre Viatte and John Wenger",

year = "1997",

doi = "10.1038/39849",

language = "English",

volume = "389",

pages = "835--838",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "6653",

}

Rex, M, Harris, NRP, Von der Gathen, P, Lehmann, R, Braathen, GO, Reimer, E, Beck, A, Chipperfield, MP, Alfier, R, Allaart, M, O'Connor, F, Dier, H, Dorokhov, V, Fast, H, Gil, M, Kyrö, E, Litynska, Z, Mikkelsen, IS, Molyneux, MG, Nakane, H, Notholt, J, Rummukainen, M, Viatte, P & Wenger, J 1997, 'Prolonged stratospheric ozone loss in the 1995-96 arctic winter', Nature, vol. 389, no. 6653, pp. 835-838. https://doi.org/10.1038/39849

TY - JOUR

T1 - Prolonged stratospheric ozone loss in the 1995-96 arctic winter

AU - Rex, Markus

AU - Harris, Neil R.P.

AU - Von der Gathen, Peter

AU - Lehmann, Ralph

AU - Braathen, Geir O.

AU - Reimer, Eberhard

AU - Beck, Alexander

AU - Chipperfield, Martyn P.

AU - Alfier, Reimond

AU - Allaart, Marc

AU - O'Connor, Fiona

AU - Dier, Horst

AU - Dorokhov, Valery

AU - Fast, Hans

AU - Gil, Manuel

AU - Kyrö, Esko

AU - Litynska, Zenobia

AU - Mikkelsen, Ib Steen

AU - Molyneux, Mike G.

AU - Nakane, Hideaki

AU - Notholt, Justus

AU - Rummukainen, Markku

AU - Viatte, Pierre

AU - Wenger, John

PY - 1997

Y1 - 1997

N2 - It is well established that extensive depletion of ozone, initiated by heterogenous reactions on polar stratospheric clouds (PSCs) can occur in both the Arctic and Antarctic lower stratosphere. Moreover, it has been shown that ozone loss rates in the Arctic region in recent years reached values comparable to those over the Antarctic. But until now the accumulated ozone losses over the Arctic have been the smaller, mainly because the period of Arctic ozone loss has not-unlike over the Antarctic-persisted well into springtime. Here we report the occurrence-during the unusually cold 1995-96 Arctic winter-of the highest recorded chemical ozone loss over the Arctic region. Two new kinds of behaviour were observed. First, ozone loss at some altitudes was observed long after the last exposure to PSCs. This continued loss appears to be due to a removal of the nitrogen species that slow down chemical ozone depletion. Second, in another altitude range ozone loss rates decreased while PSCs were still present, apparently because of an early transformation of the ozone-destroying chlorine species into less active chlorinenitrate. The balance between these two counteracting mechanisms is probably a fine one, determined by small differences in wintertime stratospheric temperatures. If the apparent cooling trend in the Arctic stratosphere is real, more dramatic ozone losses may occur in the future.

AB - It is well established that extensive depletion of ozone, initiated by heterogenous reactions on polar stratospheric clouds (PSCs) can occur in both the Arctic and Antarctic lower stratosphere. Moreover, it has been shown that ozone loss rates in the Arctic region in recent years reached values comparable to those over the Antarctic. But until now the accumulated ozone losses over the Arctic have been the smaller, mainly because the period of Arctic ozone loss has not-unlike over the Antarctic-persisted well into springtime. Here we report the occurrence-during the unusually cold 1995-96 Arctic winter-of the highest recorded chemical ozone loss over the Arctic region. Two new kinds of behaviour were observed. First, ozone loss at some altitudes was observed long after the last exposure to PSCs. This continued loss appears to be due to a removal of the nitrogen species that slow down chemical ozone depletion. Second, in another altitude range ozone loss rates decreased while PSCs were still present, apparently because of an early transformation of the ozone-destroying chlorine species into less active chlorinenitrate. The balance between these two counteracting mechanisms is probably a fine one, determined by small differences in wintertime stratospheric temperatures. If the apparent cooling trend in the Arctic stratosphere is real, more dramatic ozone losses may occur in the future.

UR - https://www.scopus.com/pages/publications/0030731829

U2 - 10.1038/39849

DO - 10.1038/39849

M3 - Article

AN - SCOPUS:0030731829

SN - 0028-0836

VL - 389

SP - 835

EP - 838

JO - Nature

JF - Nature

IS - 6653

ER -

Prolonged stratospheric ozone loss in the 1995-96 arctic winter

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