Surface ozone variations at the Great Wall Station, Antarctica during austral summer

Surface ozone (O3) is a secondary pollutant harmful to human health and a greenhouse gas which is one of the prime climate forcers. Due to the clean atmospheric environment of the Antarctic region and given the complexity of O3 chemistry, the observation of surface O3 variability in this region is n...

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Main Authors: Justin Sentian, Franky Herman, Mohd Sharul, Vivian Kong
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
QE Geology
Antarctic
Austral
Great Wall Station
The Antarctic
Advances in Polar Science
Antarc*
Antarctica
Polar Science
Online Access:http://eprints.ums.edu.my/id/eprint/25788/
http://eprints.ums.edu.my/id/eprint/25788/1/Surface%20ozone%20variations%20at%20the%20Great%20Wall%20Station,%20Antarctica%20during%20austral%20summer.pdf
https://doi.org/10.13679/j.advps.2020.0007
id ftunivmalaysab:oai:eprints.ums.edu.my:25788
record_format openpolar
spelling ftunivmalaysab:oai:eprints.ums.edu.my:25788 2023-05-15T13:05:27+02:00 Surface ozone variations at the Great Wall Station, Antarctica during austral summer Justin Sentian Franky Herman Mohd Sharul Vivian Kong 2020 text http://eprints.ums.edu.my/id/eprint/25788/ http://eprints.ums.edu.my/id/eprint/25788/1/Surface%20ozone%20variations%20at%20the%20Great%20Wall%20Station,%20Antarctica%20during%20austral%20summer.pdf https://doi.org/10.13679/j.advps.2020.0007 en eng http://eprints.ums.edu.my/id/eprint/25788/1/Surface%20ozone%20variations%20at%20the%20Great%20Wall%20Station,%20Antarctica%20during%20austral%20summer.pdf Justin Sentian and Franky Herman and Mohd Sharul and Vivian Kong (2020) Surface ozone variations at the Great Wall Station, Antarctica during austral summer. Advances in Polar Science, 31 (2). pp. 92-102. QE Geology Article PeerReviewed 2020 ftunivmalaysab https://doi.org/10.13679/j.advps.2020.0007 2022-03-29T15:41:23Z Surface ozone (O3) is a secondary pollutant harmful to human health and a greenhouse gas which is one of the prime climate forcers. Due to the clean atmospheric environment of the Antarctic region and given the complexity of O3 chemistry, the observation of surface O3 variability in this region is necessary in the quest to better understand the potential sources and sink of polar surface O3. In this paper, we highlighted our observations on O3 variability at the Great Wall Station (GWS) during austral summer in December 2018 and January 2019. The continuous surface O3 measurement at the GWS, Antarctica was carried out using the Ecotech Ozone analyzer. To understand the roles of the meteorological conditions on the temporal variations of O3, meteorological data was obtained from the conventional auto-observational station at the GWS. The Hybrid Single-Particle Lagrangian Integrated Trajectory (HYSPLIT) model was employed to investigate the air mass transport over the region. The observed austral summer surface O3 concentrations at the GWS exhibited variability and were significantly lower than those previously observed at other permanent coastal stations in Antarctica. The surface ozone variability at the GWS was strongly influenced by the synoptic change of air mass origin although the roles of photochemistry production and destruction were still uncertain. Marine characteristics and stable surface O3 characterized the air masses that reached the GWS. The unique characteristic of surface O3 at the coastal site of GWS was emphasized by its synoptic air mass characteristics, which displayed a significant influence on surface O3 variability. Air mass that traveled over the ocean with relatively shorter distance was linked to the lower O3 level, whereby the marine transport of reactive bromine (Br) species was thought to play a significant role in the tropospheric chemistry that leads to O3 destruction. Meanwhile, the diurnal variation indicated that the O3 background concentration levels were not strongly associated with the local atmospheric conditions. Article in Journal/Newspaper Advances in Polar Science Antarc* Antarctic Antarctica Polar Science Polar Science Universiti Malaysia Sabah: UMS Institutional Repository Antarctic Austral Great Wall Station ENVELOPE(-58.970,-58.970,-62.217,-62.217) The Antarctic
institution Open Polar
collection Universiti Malaysia Sabah: UMS Institutional Repository
op_collection_id ftunivmalaysab
language English
topic QE Geology
spellingShingle QE Geology
Justin Sentian
Franky Herman
Mohd Sharul
Vivian Kong
Surface ozone variations at the Great Wall Station, Antarctica during austral summer
topic_facet QE Geology
description Surface ozone (O3) is a secondary pollutant harmful to human health and a greenhouse gas which is one of the prime climate forcers. Due to the clean atmospheric environment of the Antarctic region and given the complexity of O3 chemistry, the observation of surface O3 variability in this region is necessary in the quest to better understand the potential sources and sink of polar surface O3. In this paper, we highlighted our observations on O3 variability at the Great Wall Station (GWS) during austral summer in December 2018 and January 2019. The continuous surface O3 measurement at the GWS, Antarctica was carried out using the Ecotech Ozone analyzer. To understand the roles of the meteorological conditions on the temporal variations of O3, meteorological data was obtained from the conventional auto-observational station at the GWS. The Hybrid Single-Particle Lagrangian Integrated Trajectory (HYSPLIT) model was employed to investigate the air mass transport over the region. The observed austral summer surface O3 concentrations at the GWS exhibited variability and were significantly lower than those previously observed at other permanent coastal stations in Antarctica. The surface ozone variability at the GWS was strongly influenced by the synoptic change of air mass origin although the roles of photochemistry production and destruction were still uncertain. Marine characteristics and stable surface O3 characterized the air masses that reached the GWS. The unique characteristic of surface O3 at the coastal site of GWS was emphasized by its synoptic air mass characteristics, which displayed a significant influence on surface O3 variability. Air mass that traveled over the ocean with relatively shorter distance was linked to the lower O3 level, whereby the marine transport of reactive bromine (Br) species was thought to play a significant role in the tropospheric chemistry that leads to O3 destruction. Meanwhile, the diurnal variation indicated that the O3 background concentration levels were not strongly associated with the local atmospheric conditions.
format Article in Journal/Newspaper
author Justin Sentian
Franky Herman
Mohd Sharul
Vivian Kong
author_facet Justin Sentian
Franky Herman
Mohd Sharul
Vivian Kong
author_sort Justin Sentian
title Surface ozone variations at the Great Wall Station, Antarctica during austral summer
title_short Surface ozone variations at the Great Wall Station, Antarctica during austral summer
title_full Surface ozone variations at the Great Wall Station, Antarctica during austral summer
title_fullStr Surface ozone variations at the Great Wall Station, Antarctica during austral summer
title_full_unstemmed Surface ozone variations at the Great Wall Station, Antarctica during austral summer
title_sort surface ozone variations at the great wall station, antarctica during austral summer
publishDate 2020
url http://eprints.ums.edu.my/id/eprint/25788/
http://eprints.ums.edu.my/id/eprint/25788/1/Surface%20ozone%20variations%20at%20the%20Great%20Wall%20Station,%20Antarctica%20during%20austral%20summer.pdf
https://doi.org/10.13679/j.advps.2020.0007
long_lat ENVELOPE(-58.970,-58.970,-62.217,-62.217)
geographic Antarctic
Austral
Great Wall Station
The Antarctic
geographic_facet Antarctic
Austral
Great Wall Station
The Antarctic
genre Advances in Polar Science
Antarc*
Antarctic
Antarctica
Polar Science
Polar Science
genre_facet Advances in Polar Science
Antarc*
Antarctic
Antarctica
Polar Science
Polar Science
op_relation http://eprints.ums.edu.my/id/eprint/25788/1/Surface%20ozone%20variations%20at%20the%20Great%20Wall%20Station,%20Antarctica%20during%20austral%20summer.pdf
Justin Sentian and Franky Herman and Mohd Sharul and Vivian Kong (2020) Surface ozone variations at the Great Wall Station, Antarctica during austral summer. Advances in Polar Science, 31 (2). pp. 92-102.
op_doi https://doi.org/10.13679/j.advps.2020.0007
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