New insights into the atmospheric mercury cycling in central Antarctica and implications on a continental scale

Under the framework of the GMOS project (Global Mercury Observation System) atmospheric mercury monitoring has been implemented at Concordia Station on the high-altitude Antarctic plateau (75°06′ S, 123°20′ E, 3220 m above sea level). We report here the first year-round measurements of gaseous eleme...

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Main Authors: Angot, Hélène, Magand, Olivier, Helmig, Detlev, Ricaud, Philippe, Quennehen, Boris, Gallée, Hubert, Del Guasta, Massimo, Sprovieri, Francesca, Pirrone, Nicola, Savarino, Joël, Dommergue, Aurélien
Format: Text
Language:unknown
Published: CU Scholar 2016
Subjects:
Antarctic
The Antarctic
East Antarctic Ice Sheet
Concordia Station
Antarc*
Antarctica
Arctic
Ice Sheet
Online Access:https://scholar.colorado.edu/instaar_facpapers/6
https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1006&context=instaar_facpapers
id ftunicolboulder:oai:scholar.colorado.edu:instaar_facpapers-1006
record_format openpolar
spelling ftunicolboulder:oai:scholar.colorado.edu:instaar_facpapers-1006 2023-05-15T13:49:40+02:00 New insights into the atmospheric mercury cycling in central Antarctica and implications on a continental scale Angot, Hélène Magand, Olivier Helmig, Detlev Ricaud, Philippe Quennehen, Boris Gallée, Hubert Del Guasta, Massimo Sprovieri, Francesca Pirrone, Nicola Savarino, Joël Dommergue, Aurélien 2016-07-08T07:00:00Z application/pdf https://scholar.colorado.edu/instaar_facpapers/6 https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1006&context=instaar_facpapers unknown CU Scholar https://scholar.colorado.edu/instaar_facpapers/6 https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1006&context=instaar_facpapers Institute of Arctic & Alpine Research Faculty Contributions text 2016 ftunicolboulder 2018-10-07T09:05:45Z Under the framework of the GMOS project (Global Mercury Observation System) atmospheric mercury monitoring has been implemented at Concordia Station on the high-altitude Antarctic plateau (75°06′ S, 123°20′ E, 3220 m above sea level). We report here the first year-round measurements of gaseous elemental mercury (Hg(0)) in the atmosphere and in snowpack interstitial air on the East Antarctic ice sheet. This unique data set shows evidence of an intense oxidation of atmospheric Hg(0) in summer (24-hour daylight) due to the high oxidative capacity of the Antarctic plateau atmosphere in this period of the year. Summertime Hg(0) concentrations exhibited a pronounced daily cycle in ambient air with maximal concentrations around midday. Photochemical reactions and chemical exchange at the air–snow interface were prominent, highlighting the role of the snowpack on the atmospheric mercury cycle. Our observations reveal a 20 to 30 % decrease of atmospheric Hg(0) concentrations from May to mid-August (winter, 24 h darkness). This phenomenon has not been reported elsewhere and possibly results from the dry deposition of Hg(0) onto the snowpack. We also reveal the occurrence of multi-day to weeklong atmospheric Hg(0) depletion events in summer, not associated with depletions of ozone, and likely due to a stagnation of air masses above the plateau triggering an accumulation of oxidants within the shallow boundary layer. Our observations suggest that the inland atmospheric reservoir is depleted in Hg(0) in summer. Due to katabatic winds flowing out from the Antarctic plateau down the steep vertical drops along the coast and according to observations at coastal Antarctic stations, the striking reactivity observed on the plateau most likely influences the cycle of atmospheric mercury on a continental scale. Text Antarc* Antarctic Antarctica Arctic Ice Sheet University of Colorado, Boulder: CU Scholar Antarctic The Antarctic East Antarctic Ice Sheet 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 Under the framework of the GMOS project (Global Mercury Observation System) atmospheric mercury monitoring has been implemented at Concordia Station on the high-altitude Antarctic plateau (75°06′ S, 123°20′ E, 3220 m above sea level). We report here the first year-round measurements of gaseous elemental mercury (Hg(0)) in the atmosphere and in snowpack interstitial air on the East Antarctic ice sheet. This unique data set shows evidence of an intense oxidation of atmospheric Hg(0) in summer (24-hour daylight) due to the high oxidative capacity of the Antarctic plateau atmosphere in this period of the year. Summertime Hg(0) concentrations exhibited a pronounced daily cycle in ambient air with maximal concentrations around midday. Photochemical reactions and chemical exchange at the air–snow interface were prominent, highlighting the role of the snowpack on the atmospheric mercury cycle. Our observations reveal a 20 to 30 % decrease of atmospheric Hg(0) concentrations from May to mid-August (winter, 24 h darkness). This phenomenon has not been reported elsewhere and possibly results from the dry deposition of Hg(0) onto the snowpack. We also reveal the occurrence of multi-day to weeklong atmospheric Hg(0) depletion events in summer, not associated with depletions of ozone, and likely due to a stagnation of air masses above the plateau triggering an accumulation of oxidants within the shallow boundary layer. Our observations suggest that the inland atmospheric reservoir is depleted in Hg(0) in summer. Due to katabatic winds flowing out from the Antarctic plateau down the steep vertical drops along the coast and according to observations at coastal Antarctic stations, the striking reactivity observed on the plateau most likely influences the cycle of atmospheric mercury on a continental scale.
format Text
author Angot, Hélène
Magand, Olivier
Helmig, Detlev
Ricaud, Philippe
Quennehen, Boris
Gallée, Hubert
Del Guasta, Massimo
Sprovieri, Francesca
Pirrone, Nicola
Savarino, Joël
Dommergue, Aurélien
spellingShingle Angot, Hélène
Magand, Olivier
Helmig, Detlev
Ricaud, Philippe
Quennehen, Boris
Gallée, Hubert
Del Guasta, Massimo
Sprovieri, Francesca
Pirrone, Nicola
Savarino, Joël
Dommergue, Aurélien
New insights into the atmospheric mercury cycling in central Antarctica and implications on a continental scale
author_facet Angot, Hélène
Magand, Olivier
Helmig, Detlev
Ricaud, Philippe
Quennehen, Boris
Gallée, Hubert
Del Guasta, Massimo
Sprovieri, Francesca
Pirrone, Nicola
Savarino, Joël
Dommergue, Aurélien
author_sort Angot, Hélène
title New insights into the atmospheric mercury cycling in central Antarctica and implications on a continental scale
title_short New insights into the atmospheric mercury cycling in central Antarctica and implications on a continental scale
title_full New insights into the atmospheric mercury cycling in central Antarctica and implications on a continental scale
title_fullStr New insights into the atmospheric mercury cycling in central Antarctica and implications on a continental scale
title_full_unstemmed New insights into the atmospheric mercury cycling in central Antarctica and implications on a continental scale
title_sort new insights into the atmospheric mercury cycling in central antarctica and implications on a continental scale
publisher CU Scholar
publishDate 2016
url https://scholar.colorado.edu/instaar_facpapers/6
https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1006&context=instaar_facpapers
long_lat ENVELOPE(123.333,123.333,-75.100,-75.100)
geographic Antarctic
The Antarctic
East Antarctic Ice Sheet
Concordia Station
geographic_facet Antarctic
The Antarctic
East Antarctic Ice Sheet
Concordia Station
genre Antarc*
Antarctic
Antarctica
Arctic
Ice Sheet
genre_facet Antarc*
Antarctic
Antarctica
Arctic
Ice Sheet
op_source Institute of Arctic & Alpine Research Faculty Contributions
op_relation https://scholar.colorado.edu/instaar_facpapers/6
https://scholar.colorado.edu/cgi/viewcontent.cgi?article=1006&context=instaar_facpapers
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