Temporal and spatial characteristics of ozone depletion events from measurements in the Arctic
Following polar sunrise in the Arctic springtime, tropospheric ozone episodically decreases rapidly to near-zero levels during ozone depletion events (ODEs). Many uncertainties remain in our understanding of ODE characteristics, including the temporal and spatial scales, as well as environmental dri...
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Copernicus Publications
2014-05-01
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| Series: | Atmospheric Chemistry and Physics |
| Online Access: | http://www.atmos-chem-phys.net/14/4875/2014/acp-14-4875-2014.pdf |
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doaj-0e4cb84cb6e944398ca3f8f1766a98842020-11-24T21:47:19ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242014-05-0114104875489410.5194/acp-14-4875-2014Temporal and spatial characteristics of ozone depletion events from measurements in the ArcticJ. W. Halfacre0T. N. Knepp1P. B. Shepson2C. R. Thompson3K. A. Pratt4B. Li5P. K. Peterson6S. J. Walsh7W. R. Simpson8P. A. Matrai9J. W. Bottenheim10S. Netcheva11D. K. Perovich12A. Richter13Department of Chemistry, Purdue University, West Lafayette, Indiana, USADepartment of Chemistry, Purdue University, West Lafayette, Indiana, USADepartment of Chemistry, Purdue University, West Lafayette, Indiana, USADepartment of Chemistry, Purdue University, West Lafayette, Indiana, USADepartment of Chemistry, Purdue University, West Lafayette, Indiana, USADepartment of Statistics, Purdue University, West Lafayette, Indiana, USADepartment of Chemistry, University of Alaska, Fairbanks, Alaska, USADepartment of Chemistry, University of Alaska, Fairbanks, Alaska, USADepartment of Chemistry, University of Alaska, Fairbanks, Alaska, USABigelow Laboratory for Ocean Sciences, East Boothbay, Maine, USAAir Quality Research Division, Environment Canada, Toronto, Ontario, CanadaAir Quality Processes Research Section, Environment Canada, Toronto, Ontario, CanadaUS Army Cold Regions Research and Engineering Laboratory, Fairbanks, Alaska, USAInstitute of Environmental Physics, University of Bremen, Bremen, GermanyFollowing polar sunrise in the Arctic springtime, tropospheric ozone episodically decreases rapidly to near-zero levels during ozone depletion events (ODEs). Many uncertainties remain in our understanding of ODE characteristics, including the temporal and spatial scales, as well as environmental drivers. Measurements of ozone, bromine monoxide (BrO), and meteorology were obtained during several deployments of autonomous, ice-tethered buoys (O-Buoys) from both coastal sites and over the Arctic Ocean; these data were used to characterize observed ODEs. Detected decreases in surface ozone levels during the onset of ODEs corresponded to a median estimated apparent ozone depletion timescale (based on both chemistry and the advection of O<sub>3</sub>-depleted air) of 11 h. If assumed to be dominated by chemical mechanisms, these timescales would correspond to larger-than-observed BrO mole fractions based on known chemistry and assumed other radical levels. Using backward air mass trajectories and an assumption that transport mechanisms dominate observations, the spatial scales for ODEs (defined by time periods in which ozone levels ≤15 nmol mol<sup>−1</sup>) were estimated to be 877 km (median), while areas estimated to represent major ozone depletions (<10 nmol mol<sup>−1</sup>) had dimensions of 282 km (median). These observations point to a heterogeneous boundary layer with localized regions of active, ozone-destroying halogen chemistry, interspersed among larger regions of previously depleted air that retain reduced ozone levels through hindered atmospheric mixing. Based on the estimated size distribution, Monte Carlo simulations showed it was statistically possible that all ODEs observed could have originated upwind, followed by transport to the measurement site. Local wind speed averages were low during most ODEs (median of ~3.6 m s<sup>−1</sup>), and there was no apparent dependence on local temperature.http://www.atmos-chem-phys.net/14/4875/2014/acp-14-4875-2014.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
J. W. Halfacre T. N. Knepp P. B. Shepson C. R. Thompson K. A. Pratt B. Li P. K. Peterson S. J. Walsh W. R. Simpson P. A. Matrai J. W. Bottenheim S. Netcheva D. K. Perovich A. Richter |
| spellingShingle |
J. W. Halfacre T. N. Knepp P. B. Shepson C. R. Thompson K. A. Pratt B. Li P. K. Peterson S. J. Walsh W. R. Simpson P. A. Matrai J. W. Bottenheim S. Netcheva D. K. Perovich A. Richter Temporal and spatial characteristics of ozone depletion events from measurements in the Arctic Atmospheric Chemistry and Physics |
| author_facet |
J. W. Halfacre T. N. Knepp P. B. Shepson C. R. Thompson K. A. Pratt B. Li P. K. Peterson S. J. Walsh W. R. Simpson P. A. Matrai J. W. Bottenheim S. Netcheva D. K. Perovich A. Richter |
| author_sort |
J. W. Halfacre |
| title |
Temporal and spatial characteristics of ozone depletion events from measurements in the Arctic |
| title_short |
Temporal and spatial characteristics of ozone depletion events from measurements in the Arctic |
| title_full |
Temporal and spatial characteristics of ozone depletion events from measurements in the Arctic |
| title_fullStr |
Temporal and spatial characteristics of ozone depletion events from measurements in the Arctic |
| title_full_unstemmed |
Temporal and spatial characteristics of ozone depletion events from measurements in the Arctic |
| title_sort |
temporal and spatial characteristics of ozone depletion events from measurements in the arctic |
| publisher |
Copernicus Publications |
| series |
Atmospheric Chemistry and Physics |
| issn |
1680-7316 1680-7324 |
| publishDate |
2014-05-01 |
| description |
Following polar sunrise in the Arctic springtime, tropospheric ozone
episodically decreases rapidly to near-zero levels during ozone depletion
events (ODEs). Many uncertainties remain in our understanding of ODE
characteristics, including the temporal and spatial scales, as well as
environmental drivers. Measurements of ozone, bromine monoxide (BrO), and
meteorology were obtained during several deployments of autonomous,
ice-tethered buoys (O-Buoys) from both coastal sites and over the Arctic
Ocean; these data were used to characterize observed ODEs. Detected
decreases in surface ozone levels during the onset of ODEs corresponded to a
median estimated apparent ozone depletion timescale (based on both chemistry
and the advection of O<sub>3</sub>-depleted air) of 11 h. If assumed to be
dominated by chemical mechanisms, these timescales would correspond to
larger-than-observed BrO mole fractions based on known chemistry and assumed
other radical levels. Using backward air mass trajectories and an assumption
that transport mechanisms dominate observations, the spatial scales for ODEs
(defined by time periods in which ozone levels ≤15 nmol mol<sup>−1</sup>)
were estimated to be 877 km (median), while areas estimated to represent
major ozone depletions (<10 nmol mol<sup>−1</sup>) had dimensions of
282 km (median). These observations point to a heterogeneous boundary layer with
localized regions of active, ozone-destroying halogen chemistry,
interspersed among larger regions of previously depleted air that retain
reduced ozone levels through hindered atmospheric mixing. Based on the
estimated size distribution, Monte Carlo simulations showed it was
statistically possible that all ODEs observed could have originated upwind,
followed by transport to the measurement site. Local wind speed averages
were low during most ODEs (median of ~3.6 m s<sup>−1</sup>), and
there was no apparent dependence on local temperature. |
| url |
http://www.atmos-chem-phys.net/14/4875/2014/acp-14-4875-2014.pdf |
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