Studies of Arctic Tropospheric Ozone Depletion Events Through Buoy-Borne Observations and Laboratory Studies
The photochemically-induced destruction of ground-level Arctic ozone in the Arctic occurs at the onset of spring, in concert with polar sunrise. Solar radiation is believed to stimulate a series of reactions that cause the production and release of molecular halogens from frozen, salty surfaces, tho...
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Purdue University
2016
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| Online Access: | https://docs.lib.purdue.edu/open_access_dissertations/767 https://docs.lib.purdue.edu/context/open_access_dissertations/article/1959/viewcontent/Halfacre.pdf |
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ftpurdueuniv:oai:docs.lib.purdue.edu:open_access_dissertations-1959 2023-07-02T03:30:59+02:00 Studies of Arctic Tropospheric Ozone Depletion Events Through Buoy-Borne Observations and Laboratory Studies Halfacre, John W. 2016-08-01T07:00:00Z application/pdf https://docs.lib.purdue.edu/open_access_dissertations/767 https://docs.lib.purdue.edu/context/open_access_dissertations/article/1959/viewcontent/Halfacre.pdf unknown Purdue University https://docs.lib.purdue.edu/open_access_dissertations/767 https://docs.lib.purdue.edu/context/open_access_dissertations/article/1959/viewcontent/Halfacre.pdf Open Access Dissertations Atmospheric Chemistry Pure sciences Earth sciences Arctic Halogens Ozone Troposphere Atmospheric Sciences Chemistry text 2016 ftpurdueuniv 2023-06-12T21:09:48Z The photochemically-induced destruction of ground-level Arctic ozone in the Arctic occurs at the onset of spring, in concert with polar sunrise. Solar radiation is believed to stimulate a series of reactions that cause the production and release of molecular halogens from frozen, salty surfaces, though this mechanism is not yet well understood. The subsequent photolysis of molecular halogens produces reactive halogen atoms that remove ozone from the atmosphere in these so-called “Ozone Depletion Events” (ODEs). Given that much of the Arctic region is sunlit, meteorologically stable, and covered by saline ice and snow, it is expected that ODEs could be a phenomenon that occurs across the entire Arctic region. Indeed, an ever-growing body of evidence from coastal sites indicates that Arctic air masses devoid of O3 most often pass over sea ice-covered regions before arriving at an observation site, suggesting ODE chemistry occurs upwind over the frozen Arctic Ocean. However, outside of coastal observations, there exist very few long-term observations from the Arctic Ocean from which quantitative assessments of basic ODE characteristics can be made. This work presents the interpretation of ODEs through unique chemical and meteorological observations from several ice-tethered buoys deployed around the Arctic Ocean. These observations include detection of ozone, bromine monoxide, and measurements of temperature, relative humidity, atmospheric pressure, wind speed, and wind direction. To assess whether the O-Buoys were observing locally based depletion chemistry or the transport of ozone-poor air masses, periods of ozone decay were interpreted based on current understanding of ozone depletion kinetics, which are believed to follow a pseudo-first order rate law. In addition, the spatial extents of ODEs were estimated using air mass trajectory modeling to assess whether they are a localized or synoptic phenomenon. Results indicate that current understanding of the responsible chemical mechanisms are lacking, ODEs are ... Text Arctic Arctic Ocean Sea ice Purdue University: e-Pubs Arctic Arctic Ocean |
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Open Polar |
| collection |
Purdue University: e-Pubs |
| op_collection_id |
ftpurdueuniv |
| language |
unknown |
| topic |
Atmospheric Chemistry Pure sciences Earth sciences Arctic Halogens Ozone Troposphere Atmospheric Sciences Chemistry |
| spellingShingle |
Atmospheric Chemistry Pure sciences Earth sciences Arctic Halogens Ozone Troposphere Atmospheric Sciences Chemistry Halfacre, John W. Studies of Arctic Tropospheric Ozone Depletion Events Through Buoy-Borne Observations and Laboratory Studies |
| topic_facet |
Atmospheric Chemistry Pure sciences Earth sciences Arctic Halogens Ozone Troposphere Atmospheric Sciences Chemistry |
| description |
The photochemically-induced destruction of ground-level Arctic ozone in the Arctic occurs at the onset of spring, in concert with polar sunrise. Solar radiation is believed to stimulate a series of reactions that cause the production and release of molecular halogens from frozen, salty surfaces, though this mechanism is not yet well understood. The subsequent photolysis of molecular halogens produces reactive halogen atoms that remove ozone from the atmosphere in these so-called “Ozone Depletion Events” (ODEs). Given that much of the Arctic region is sunlit, meteorologically stable, and covered by saline ice and snow, it is expected that ODEs could be a phenomenon that occurs across the entire Arctic region. Indeed, an ever-growing body of evidence from coastal sites indicates that Arctic air masses devoid of O3 most often pass over sea ice-covered regions before arriving at an observation site, suggesting ODE chemistry occurs upwind over the frozen Arctic Ocean. However, outside of coastal observations, there exist very few long-term observations from the Arctic Ocean from which quantitative assessments of basic ODE characteristics can be made. This work presents the interpretation of ODEs through unique chemical and meteorological observations from several ice-tethered buoys deployed around the Arctic Ocean. These observations include detection of ozone, bromine monoxide, and measurements of temperature, relative humidity, atmospheric pressure, wind speed, and wind direction. To assess whether the O-Buoys were observing locally based depletion chemistry or the transport of ozone-poor air masses, periods of ozone decay were interpreted based on current understanding of ozone depletion kinetics, which are believed to follow a pseudo-first order rate law. In addition, the spatial extents of ODEs were estimated using air mass trajectory modeling to assess whether they are a localized or synoptic phenomenon. Results indicate that current understanding of the responsible chemical mechanisms are lacking, ODEs are ... |
| format |
Text |
| author |
Halfacre, John W. |
| author_facet |
Halfacre, John W. |
| author_sort |
Halfacre, John W. |
| title |
Studies of Arctic Tropospheric Ozone Depletion Events Through Buoy-Borne Observations and Laboratory Studies |
| title_short |
Studies of Arctic Tropospheric Ozone Depletion Events Through Buoy-Borne Observations and Laboratory Studies |
| title_full |
Studies of Arctic Tropospheric Ozone Depletion Events Through Buoy-Borne Observations and Laboratory Studies |
| title_fullStr |
Studies of Arctic Tropospheric Ozone Depletion Events Through Buoy-Borne Observations and Laboratory Studies |
| title_full_unstemmed |
Studies of Arctic Tropospheric Ozone Depletion Events Through Buoy-Borne Observations and Laboratory Studies |
| title_sort |
studies of arctic tropospheric ozone depletion events through buoy-borne observations and laboratory studies |
| publisher |
Purdue University |
| publishDate |
2016 |
| url |
https://docs.lib.purdue.edu/open_access_dissertations/767 https://docs.lib.purdue.edu/context/open_access_dissertations/article/1959/viewcontent/Halfacre.pdf |
| geographic |
Arctic Arctic Ocean |
| geographic_facet |
Arctic Arctic Ocean |
| genre |
Arctic Arctic Ocean Sea ice |
| genre_facet |
Arctic Arctic Ocean Sea ice |
| op_source |
Open Access Dissertations |
| op_relation |
https://docs.lib.purdue.edu/open_access_dissertations/767 https://docs.lib.purdue.edu/context/open_access_dissertations/article/1959/viewcontent/Halfacre.pdf |
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1770275247650504704 |