Inter-annual variability of surface ozone at coastal (Dumont d'Urville, 2004-2014) and inland (Concordia, 2007-2014) sites in East Antarctica
Surface ozone has been measured since 2004 at the coastal East Antarctic site of Dumont d'Urville (DDU), and since 2007 at the Concordia station located on the high East Antarctic plateau. This paper discusses long-term changes, seasonal and diurnal cycles, as well as inter-annual summer variab...
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CU Scholar
2016
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| Online Access: | https://scholar.colorado.edu/instaar_facpapers/7 https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1005&context=instaar_facpapers |
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ftunicolboulder:oai:scholar.colorado.edu:instaar_facpapers-1005 |
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ftunicolboulder:oai:scholar.colorado.edu:instaar_facpapers-1005 2023-05-15T13:49:40+02:00 Inter-annual variability of surface ozone at coastal (Dumont d'Urville, 2004-2014) and inland (Concordia, 2007-2014) sites in East Antarctica Legrand, Michel Preunkert, Susanne Savarino, Joël Frey, Markus M. Kukui, Alexandre Helmig, Detlev Jourdain, Bruno Jones, Anna E. Weller, Rolf Brough, Neil Gallée, Hubert 2016-07-01T07:00:00Z application/pdf https://scholar.colorado.edu/instaar_facpapers/7 https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1005&context=instaar_facpapers unknown CU Scholar https://scholar.colorado.edu/instaar_facpapers/7 https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1005&context=instaar_facpapers Institute of Arctic & Alpine Research Faculty Contributions text 2016 ftunicolboulder 2018-10-07T09:05:45Z Surface ozone has been measured since 2004 at the coastal East Antarctic site of Dumont d'Urville (DDU), and since 2007 at the Concordia station located on the high East Antarctic plateau. This paper discusses long-term changes, seasonal and diurnal cycles, as well as inter-annual summer variability observed at these two East Antarctic sites. At Concordia, near-surface ozone data were complemented by balloon soundings and compared to similar measurements done at the South Pole. The DDU record is compared to those obtained at the coastal site of Syowa, also located in East Antarctica, as well as the coastal sites of Neumayer and Halley, both located on the coast of the Weddell Sea in West Antarctica. Surface ozone mixing ratios exhibit very similar seasonal cycles at Concordia and the South Pole. However, in summer the diurnal cycle of ozone is different at the two sites with a drop of ozone in the afternoon at Concordia but not at the South Pole. The vertical distribution of ozone above the snow surface also differs. When present, the ozone-rich layer located near the ground is better mixed and deeper at Concordia (up to 400 m) than at the South Pole during sunlight hours. These differences are related to different solar radiation and wind regimes encountered at these two inland sites. DDU appears to be the coastal site where the impact of the late winter/spring bromine chemistry is the weakest, but where the impact of elevated ozone levels caused by NOx snow emissions from the high Antarctic plateau is the highest. The highest impact of the bromine chemistry is seen at Halley and Neumayer, and to a lesser extent at Syowa. These three sites are only weakly impacted by the NOx chemistry and the net ozone production occurring on the high Antarctic plateau. The differences in late winter/spring are attributed to the abundance of sea ice offshore from the sites, whereas those in summer are related to the topography of East Antarctica that promotes the katabatic flow bringing oxidant-rich inland air masses to the site. There appears to be a decreasing change in summer surface ozone at the two East Antarctic sites of Concordia and DDU over the most recent period (2004–2014 and 2007–2014). Further research, including continued monitoring, is needed at these two sites to better separate the effect of synoptic transport from possible change of NOx snow emissions in response to recovery of the stratospheric ozone layer leading to penetration of more UV radiation to the surface. Text Antarc* Antarctic Antarctica Arctic East Antarctica Sea ice South pole South pole Weddell Sea West Antarctica University of Colorado, Boulder: CU Scholar Antarctic Weddell Sea East Antarctica Neumayer West Antarctica Weddell South Pole Dumont d'Urville ENVELOPE(140.017,140.017,-66.667,-66.667) Dumont-d'Urville ENVELOPE(140.013,140.013,-66.667,-66.667) Concordia Station ENVELOPE(123.333,123.333,-75.100,-75.100) |
| institution |
Open Polar |
| collection |
University of Colorado, Boulder: CU Scholar |
| op_collection_id |
ftunicolboulder |
| language |
unknown |
| description |
Surface ozone has been measured since 2004 at the coastal East Antarctic site of Dumont d'Urville (DDU), and since 2007 at the Concordia station located on the high East Antarctic plateau. This paper discusses long-term changes, seasonal and diurnal cycles, as well as inter-annual summer variability observed at these two East Antarctic sites. At Concordia, near-surface ozone data were complemented by balloon soundings and compared to similar measurements done at the South Pole. The DDU record is compared to those obtained at the coastal site of Syowa, also located in East Antarctica, as well as the coastal sites of Neumayer and Halley, both located on the coast of the Weddell Sea in West Antarctica. Surface ozone mixing ratios exhibit very similar seasonal cycles at Concordia and the South Pole. However, in summer the diurnal cycle of ozone is different at the two sites with a drop of ozone in the afternoon at Concordia but not at the South Pole. The vertical distribution of ozone above the snow surface also differs. When present, the ozone-rich layer located near the ground is better mixed and deeper at Concordia (up to 400 m) than at the South Pole during sunlight hours. These differences are related to different solar radiation and wind regimes encountered at these two inland sites. DDU appears to be the coastal site where the impact of the late winter/spring bromine chemistry is the weakest, but where the impact of elevated ozone levels caused by NOx snow emissions from the high Antarctic plateau is the highest. The highest impact of the bromine chemistry is seen at Halley and Neumayer, and to a lesser extent at Syowa. These three sites are only weakly impacted by the NOx chemistry and the net ozone production occurring on the high Antarctic plateau. The differences in late winter/spring are attributed to the abundance of sea ice offshore from the sites, whereas those in summer are related to the topography of East Antarctica that promotes the katabatic flow bringing oxidant-rich inland air masses to the site. There appears to be a decreasing change in summer surface ozone at the two East Antarctic sites of Concordia and DDU over the most recent period (2004–2014 and 2007–2014). Further research, including continued monitoring, is needed at these two sites to better separate the effect of synoptic transport from possible change of NOx snow emissions in response to recovery of the stratospheric ozone layer leading to penetration of more UV radiation to the surface. |
| format |
Text |
| author |
Legrand, Michel Preunkert, Susanne Savarino, Joël Frey, Markus M. Kukui, Alexandre Helmig, Detlev Jourdain, Bruno Jones, Anna E. Weller, Rolf Brough, Neil Gallée, Hubert |
| spellingShingle |
Legrand, Michel Preunkert, Susanne Savarino, Joël Frey, Markus M. Kukui, Alexandre Helmig, Detlev Jourdain, Bruno Jones, Anna E. Weller, Rolf Brough, Neil Gallée, Hubert Inter-annual variability of surface ozone at coastal (Dumont d'Urville, 2004-2014) and inland (Concordia, 2007-2014) sites in East Antarctica |
| author_facet |
Legrand, Michel Preunkert, Susanne Savarino, Joël Frey, Markus M. Kukui, Alexandre Helmig, Detlev Jourdain, Bruno Jones, Anna E. Weller, Rolf Brough, Neil Gallée, Hubert |
| author_sort |
Legrand, Michel |
| title |
Inter-annual variability of surface ozone at coastal (Dumont d'Urville, 2004-2014) and inland (Concordia, 2007-2014) sites in East Antarctica |
| title_short |
Inter-annual variability of surface ozone at coastal (Dumont d'Urville, 2004-2014) and inland (Concordia, 2007-2014) sites in East Antarctica |
| title_full |
Inter-annual variability of surface ozone at coastal (Dumont d'Urville, 2004-2014) and inland (Concordia, 2007-2014) sites in East Antarctica |
| title_fullStr |
Inter-annual variability of surface ozone at coastal (Dumont d'Urville, 2004-2014) and inland (Concordia, 2007-2014) sites in East Antarctica |
| title_full_unstemmed |
Inter-annual variability of surface ozone at coastal (Dumont d'Urville, 2004-2014) and inland (Concordia, 2007-2014) sites in East Antarctica |
| title_sort |
inter-annual variability of surface ozone at coastal (dumont d'urville, 2004-2014) and inland (concordia, 2007-2014) sites in east antarctica |
| publisher |
CU Scholar |
| publishDate |
2016 |
| url |
https://scholar.colorado.edu/instaar_facpapers/7 https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1005&context=instaar_facpapers |
| long_lat |
ENVELOPE(140.017,140.017,-66.667,-66.667) ENVELOPE(140.013,140.013,-66.667,-66.667) ENVELOPE(123.333,123.333,-75.100,-75.100) |
| geographic |
Antarctic Weddell Sea East Antarctica Neumayer West Antarctica Weddell South Pole Dumont d'Urville Dumont-d'Urville Concordia Station |
| geographic_facet |
Antarctic Weddell Sea East Antarctica Neumayer West Antarctica Weddell South Pole Dumont d'Urville Dumont-d'Urville Concordia Station |
| genre |
Antarc* Antarctic Antarctica Arctic East Antarctica Sea ice South pole South pole Weddell Sea West Antarctica |
| genre_facet |
Antarc* Antarctic Antarctica Arctic East Antarctica Sea ice South pole South pole Weddell Sea West Antarctica |
| op_source |
Institute of Arctic & Alpine Research Faculty Contributions |
| op_relation |
https://scholar.colorado.edu/instaar_facpapers/7 https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1005&context=instaar_facpapers |
| _version_ |
1766251935876251648 |