Polar Stratospheric Clouds and Sulfate Aerosol Particles: Microphysics, Denitrification and Heterogeneous Chemistry

Clouds and aerosol particles play important roles in the chemistry of the polar winter stratosphere. Under extremely cold conditions their surfaces host heterogeneous chemical reactions, which—depending on temperature and aerosol loading—may lead to a very fast transformation of chlorine containing...

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Main Authors: Peter, Thomas, Grooß, Jens-Uwe
Format: Book Part
Language:English
Published: The Royal Society of Chemistry 2011
Subjects:
Antarc*
Antarctic
Arctic
Online Access:http://dx.doi.org/10.1039/9781849733182-00108
https://books.rsc.org/books/edited-volume/chapter-pdf/1202711/bk9781849730020-00108.pdf
id crroyalschem:10.1039/9781849733182-00108
record_format openpolar
spelling crroyalschem:10.1039/9781849733182-00108 2024-05-19T07:29:11+00:00 Polar Stratospheric Clouds and Sulfate Aerosol Particles: Microphysics, Denitrification and Heterogeneous Chemistry Peter, Thomas Grooß, Jens-Uwe 2011 http://dx.doi.org/10.1039/9781849733182-00108 https://books.rsc.org/books/edited-volume/chapter-pdf/1202711/bk9781849730020-00108.pdf en eng The Royal Society of Chemistry Stratospheric Ozone Depletion and Climate Change page 108-144 ISBN 9781849730020 9781849730020 9781849733182 book-chapter 2011 crroyalschem https://doi.org/10.1039/9781849733182-00108 2024-05-02T09:35:12Z Clouds and aerosol particles play important roles in the chemistry of the polar winter stratosphere. Under extremely cold conditions their surfaces host heterogeneous chemical reactions, which—depending on temperature and aerosol loading—may lead to a very fast transformation of chlorine containing reservoir compounds into active, ozone destroying chlorine. Furthermore, polar stratospheric clouds (PSCs) may generate large nitric-acid-containing particles, which sediment rapidly, thereby denitrifying the stratospheric air and disabling reactive nitrogen species to deactivate the ozone-destroying chlorine. Both processes, heterogeneous chemistry and denitrification provide the basis for chlorine-catalyzed ozone destruction, which under sustained cold conditions leads to the ozone hole over the Antarctic and substantial ozone depletion over the Arctic. While the principles of these polar ozone loss mechanisms have long been recognized, very recently new measurements and modeling of PSCs have cast serious doubts on our understanding of some of the most fundamental processes of PSC formation and heterogeneous chemistry. One important open question is whether the nucleation of nitric acid hydrates and subsequent denitrification are governed predominantly by ice-assisted or ice-free processes. A number of previously discussed processes appear to be unlikely from today's perspective, such as homogeneous nucleation of hydrates in supercooled liquid solution droplets, nucleation of hydrates in glassy aerosols or pseudo-heterogeneous nucleation at a droplet/vapor interface. However, while heterogeneous nucleation of hydrates on water ice is accepted in the light of laboratory experiments and field observations, an unidentified ice-free heterogeneous nucleation process, e.g. on dust particles, appears to be required in order to explain a number of very recent field observations, in particular by the downward-looking LiDAR on the CALIPSO satellite in the Arctic winter 2009–2010. This result is perplexing and reverses the ... Book Part Antarc* Antarctic Arctic Royal Society of Chemistry 108 144
institution Open Polar
collection Royal Society of Chemistry
op_collection_id crroyalschem
language English
description Clouds and aerosol particles play important roles in the chemistry of the polar winter stratosphere. Under extremely cold conditions their surfaces host heterogeneous chemical reactions, which—depending on temperature and aerosol loading—may lead to a very fast transformation of chlorine containing reservoir compounds into active, ozone destroying chlorine. Furthermore, polar stratospheric clouds (PSCs) may generate large nitric-acid-containing particles, which sediment rapidly, thereby denitrifying the stratospheric air and disabling reactive nitrogen species to deactivate the ozone-destroying chlorine. Both processes, heterogeneous chemistry and denitrification provide the basis for chlorine-catalyzed ozone destruction, which under sustained cold conditions leads to the ozone hole over the Antarctic and substantial ozone depletion over the Arctic. While the principles of these polar ozone loss mechanisms have long been recognized, very recently new measurements and modeling of PSCs have cast serious doubts on our understanding of some of the most fundamental processes of PSC formation and heterogeneous chemistry. One important open question is whether the nucleation of nitric acid hydrates and subsequent denitrification are governed predominantly by ice-assisted or ice-free processes. A number of previously discussed processes appear to be unlikely from today's perspective, such as homogeneous nucleation of hydrates in supercooled liquid solution droplets, nucleation of hydrates in glassy aerosols or pseudo-heterogeneous nucleation at a droplet/vapor interface. However, while heterogeneous nucleation of hydrates on water ice is accepted in the light of laboratory experiments and field observations, an unidentified ice-free heterogeneous nucleation process, e.g. on dust particles, appears to be required in order to explain a number of very recent field observations, in particular by the downward-looking LiDAR on the CALIPSO satellite in the Arctic winter 2009–2010. This result is perplexing and reverses the ...
format Book Part
author Peter, Thomas
Grooß, Jens-Uwe
spellingShingle Peter, Thomas
Grooß, Jens-Uwe
Polar Stratospheric Clouds and Sulfate Aerosol Particles: Microphysics, Denitrification and Heterogeneous Chemistry
author_facet Peter, Thomas
Grooß, Jens-Uwe
author_sort Peter, Thomas
title Polar Stratospheric Clouds and Sulfate Aerosol Particles: Microphysics, Denitrification and Heterogeneous Chemistry
title_short Polar Stratospheric Clouds and Sulfate Aerosol Particles: Microphysics, Denitrification and Heterogeneous Chemistry
title_full Polar Stratospheric Clouds and Sulfate Aerosol Particles: Microphysics, Denitrification and Heterogeneous Chemistry
title_fullStr Polar Stratospheric Clouds and Sulfate Aerosol Particles: Microphysics, Denitrification and Heterogeneous Chemistry
title_full_unstemmed Polar Stratospheric Clouds and Sulfate Aerosol Particles: Microphysics, Denitrification and Heterogeneous Chemistry
title_sort polar stratospheric clouds and sulfate aerosol particles: microphysics, denitrification and heterogeneous chemistry
publisher The Royal Society of Chemistry
publishDate 2011
url http://dx.doi.org/10.1039/9781849733182-00108
https://books.rsc.org/books/edited-volume/chapter-pdf/1202711/bk9781849730020-00108.pdf
genre Antarc*
Antarctic
Arctic
genre_facet Antarc*
Antarctic
Arctic
op_source Stratospheric Ozone Depletion and Climate Change
page 108-144
ISBN 9781849730020 9781849730020 9781849733182
op_doi https://doi.org/10.1039/9781849733182-00108
container_start_page 108
op_container_end_page 144
_version_ 1799477919995658240

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