The potential for ozone depletion in the arctic polar stratosphere

W. H. Brune; J. G. Anderson; D. W. Toohey; D. W. Fahey; S. R. Kawa; R. L. Jones; D. S. Mckenna; L. R. Poole

doi:10.1126/science.252.5010.1260

The potential for ozone depletion in the arctic polar stratosphere

W. H. Brune, J. G. Anderson, D. W. Toohey, D. W. Fahey, S. R. Kawa, R. L. Jones, D. S. Mckenna, L. R. Poole

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Abstract

The nature of the Arctic polar stratosphere is observed to be similar in many respects to that of the Antarctic polar stratosphere, where an ozone hole has been identified. Most of the available chlorine (HCl and ClONO₂) was converted by reactions on polar stratospheric clouds to reactive ClO and Cl₂O₂ throughout the Arctic polar vortex before midwinter. Reactive nitrogen was converted to HNO₃, and some, with spatial inhomogeneity, fell out of the stratosphere. These chemical changes ensured characteristic ozone losses of 10 to 15% at altitudes inside the polar vortex where polar stratospheric clouds had occurred. These local losses can translate into 5 to 8% losses in the vertical column abundance of ozone. As the amount of stratospheric chlorine inevitably increases by 50% over the next two decades, ozone losses recognizable as an ozone hole may well appear.

Original language	English (US)
Pages (from-to)	1260-1266
Number of pages	7
Journal	Science
Volume	252
Issue number	5010
DOIs	https://doi.org/10.1126/science.252.5010.1260
State	Published - May 31 1991

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10.1126/science.252.5010.1260

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title = "The potential for ozone depletion in the arctic polar stratosphere",

abstract = "The nature of the Arctic polar stratosphere is observed to be similar in many respects to that of the Antarctic polar stratosphere, where an ozone hole has been identified. Most of the available chlorine (HCl and ClONO2) was converted by reactions on polar stratospheric clouds to reactive ClO and Cl2O2 throughout the Arctic polar vortex before midwinter. Reactive nitrogen was converted to HNO3, and some, with spatial inhomogeneity, fell out of the stratosphere. These chemical changes ensured characteristic ozone losses of 10 to 15% at altitudes inside the polar vortex where polar stratospheric clouds had occurred. These local losses can translate into 5 to 8% losses in the vertical column abundance of ozone. As the amount of stratospheric chlorine inevitably increases by 50% over the next two decades, ozone losses recognizable as an ozone hole may well appear.",

author = "Brune, {W. H.} and Anderson, {J. G.} and Toohey, {D. W.} and Fahey, {D. W.} and Kawa, {S. R.} and Jones, {R. L.} and Mckenna, {D. S.} and Poole, {L. R.}",

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AU - Brune, W. H.

AU - Anderson, J. G.

AU - Toohey, D. W.

AU - Fahey, D. W.

AU - Kawa, S. R.

AU - Jones, R. L.

AU - Mckenna, D. S.

AU - Poole, L. R.

PY - 1991/5/31

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N2 - The nature of the Arctic polar stratosphere is observed to be similar in many respects to that of the Antarctic polar stratosphere, where an ozone hole has been identified. Most of the available chlorine (HCl and ClONO2) was converted by reactions on polar stratospheric clouds to reactive ClO and Cl2O2 throughout the Arctic polar vortex before midwinter. Reactive nitrogen was converted to HNO3, and some, with spatial inhomogeneity, fell out of the stratosphere. These chemical changes ensured characteristic ozone losses of 10 to 15% at altitudes inside the polar vortex where polar stratospheric clouds had occurred. These local losses can translate into 5 to 8% losses in the vertical column abundance of ozone. As the amount of stratospheric chlorine inevitably increases by 50% over the next two decades, ozone losses recognizable as an ozone hole may well appear.

AB - The nature of the Arctic polar stratosphere is observed to be similar in many respects to that of the Antarctic polar stratosphere, where an ozone hole has been identified. Most of the available chlorine (HCl and ClONO2) was converted by reactions on polar stratospheric clouds to reactive ClO and Cl2O2 throughout the Arctic polar vortex before midwinter. Reactive nitrogen was converted to HNO3, and some, with spatial inhomogeneity, fell out of the stratosphere. These chemical changes ensured characteristic ozone losses of 10 to 15% at altitudes inside the polar vortex where polar stratospheric clouds had occurred. These local losses can translate into 5 to 8% losses in the vertical column abundance of ozone. As the amount of stratospheric chlorine inevitably increases by 50% over the next two decades, ozone losses recognizable as an ozone hole may well appear.

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The potential for ozone depletion in the arctic polar stratosphere

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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