Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols

The remoteness and extreme conditions of the Southern Ocean and Antarctic region have meant that observations in this region are rare, and typically restricted to summertime during research or resupply voyages. Observations of aerosols outside of the summer season are typically limited to long-term...

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Published in:Atmospheric Chemistry and Physics
Main Authors: Humphries, Ruhi S., Keywood, Melita D., Ward, Jason P., Harnwell, James, Alexander, Simon P., Klekociuk, Andrew R., Hara, Keiichiro, Mcrobert, Ian M., Protat, Alain, Alroe, Joel, Cravigan, Luke T., Miljevic, Branka, Ristovski, Zoran D., Schofield, Robyn, Wilson, Stephen R., Flynn, Connor J., Kulkarni, Gourihar R., Mace, Gerald G., Mcfarquhar, Greg M., Chambers, Scott D., Williams, Alastair G., Griffiths, Alan D.
Format: Article in Journal/Newspaper
Language:unknown
Published: European Geosciences Union 2023
Subjects:
Antarc*
Antarctic
Macquarie Island
Sea ice
Southern Ocean
Online Access:https://eprints.qut.edu.au/249268/
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institution Open Polar
collection Queensland University of Technology: QUT ePrints
op_collection_id ftqueensland
language unknown
description The remoteness and extreme conditions of the Southern Ocean and Antarctic region have meant that observations in this region are rare, and typically restricted to summertime during research or resupply voyages. Observations of aerosols outside of the summer season are typically limited to long-term stations, such as Kennaook / Cape Grim (KCG; 40.7S, 144.7E), which is situated in the northern latitudes of the Southern Ocean, and Antarctic research stations, such as the Japanese operated Syowa (SYO; 69.0S, 39.6E). Measurements in the midlatitudes of the Southern Ocean are important, particularly in light of recent observations that highlighted the latitudinal gradient that exists across the region in summertime. Here we present 2 years (March 2016-March 2018) of observations from Macquarie Island (MQI; 54.5S, 159.0E) of aerosol (condensation nuclei larger than 10nm, CN10) and cloud condensation nuclei (CCN at various supersaturations) concentrations. This important multi-year data set is characterised, and its features are compared with the long-term data sets from KCG and SYO together with those from recent, regionally relevant voyages. CN10 concentrations were the highest at KCG by a factor of ∼50% across all non-winter seasons compared to the other two stations, which were similar (summer medians of 530, 426 and 468cm-3 at KCG, MQI and SYO, respectively). In wintertime, seasonal minima at KCG and MQI were similar (142 and 152cm-3, respectively), with SYO being distinctly lower (87cm-3), likely the result of the reduction in sea spray aerosol generation due to the sea ice ocean cover around the site. CN10 seasonal maxima were observed at the stations at different times of year, with KCG and MQI exhibiting January maxima and SYO having a distinct February high. Comparison of CCN0.5 data between KCG and MQI showed similar overall trends with summertime maxima and wintertime minima; however, KCG exhibited slightly (∼10%) higher concentrations in summer (medians of 158 and 145cm-3, respectively), whereas KCG showed ...
format Article in Journal/Newspaper
author Humphries, Ruhi S.
Keywood, Melita D.
Ward, Jason P.
Harnwell, James
Alexander, Simon P.
Klekociuk, Andrew R.
Hara, Keiichiro
Mcrobert, Ian M.
Protat, Alain
Alroe, Joel
Cravigan, Luke T.
Miljevic, Branka
Ristovski, Zoran D.
Schofield, Robyn
Wilson, Stephen R.
Flynn, Connor J.
Kulkarni, Gourihar R.
Mace, Gerald G.
Mcfarquhar, Greg M.
Chambers, Scott D.
Williams, Alastair G.
Griffiths, Alan D.
spellingShingle Humphries, Ruhi S.
Keywood, Melita D.
Ward, Jason P.
Harnwell, James
Alexander, Simon P.
Klekociuk, Andrew R.
Hara, Keiichiro
Mcrobert, Ian M.
Protat, Alain
Alroe, Joel
Cravigan, Luke T.
Miljevic, Branka
Ristovski, Zoran D.
Schofield, Robyn
Wilson, Stephen R.
Flynn, Connor J.
Kulkarni, Gourihar R.
Mace, Gerald G.
Mcfarquhar, Greg M.
Chambers, Scott D.
Williams, Alastair G.
Griffiths, Alan D.
Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols
author_facet Humphries, Ruhi S.
Keywood, Melita D.
Ward, Jason P.
Harnwell, James
Alexander, Simon P.
Klekociuk, Andrew R.
Hara, Keiichiro
Mcrobert, Ian M.
Protat, Alain
Alroe, Joel
Cravigan, Luke T.
Miljevic, Branka
Ristovski, Zoran D.
Schofield, Robyn
Wilson, Stephen R.
Flynn, Connor J.
Kulkarni, Gourihar R.
Mace, Gerald G.
Mcfarquhar, Greg M.
Chambers, Scott D.
Williams, Alastair G.
Griffiths, Alan D.
author_sort Humphries, Ruhi S.
title Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols
title_short Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols
title_full Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols
title_fullStr Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols
title_full_unstemmed Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols
title_sort measurement report: understanding the seasonal cycle of southern ocean aerosols
publisher European Geosciences Union
publishDate 2023
url https://eprints.qut.edu.au/249268/
genre Antarc*
Antarctic
Macquarie Island
Sea ice
Southern Ocean
genre_facet Antarc*
Antarctic
Macquarie Island
Sea ice
Southern Ocean
op_source Atmospheric Chemistry and Physics
op_relation doi:10.5194/acp-23-3749-2023
Humphries, Ruhi S., Keywood, Melita D., Ward, Jason P., Harnwell, James, Alexander, Simon P., Klekociuk, Andrew R., Hara, Keiichiro, Mcrobert, Ian M., Protat, Alain, Alroe, Joel, Cravigan, Luke T., Miljevic, Branka, Ristovski, Zoran D., Schofield, Robyn, Wilson, Stephen R., Flynn, Connor J., Kulkarni, Gourihar R., Mace, Gerald G., Mcfarquhar, Greg M., Chambers, Scott D., Williams, Alastair G., & Griffiths, Alan D. (2023) Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols. Atmospheric Chemistry and Physics, 23(6), pp. 3749-3777.
https://eprints.qut.edu.au/249268/
Faculty of Science; School of Earth & Atmospheric Sciences
op_rights © 2023 Ruhi S. Humphries et al.
This work is covered by copyright. Unless the document is being made available under a Creative Commons Licence, you must assume that re-use is limited to personal use and that permission from the copyright owner must be obtained for all other uses. If the document is available under a Creative Commons License (or other specified license) then refer to the Licence for details of permitted re-use. It is a condition of access that users recognise and abide by the legal requirements associated with these rights. If you believe that this work infringes copyright please provide details by email to qut.copyright@qut.edu.au
op_doi https://doi.org/10.5194/acp-23-3749-2023
container_title Atmospheric Chemistry and Physics
container_volume 23
container_issue 6
container_start_page 3749
op_container_end_page 3777
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spelling ftqueensland:oai:eprints.qut.edu.au:249268 2024-09-15T17:44:59+00:00 Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols Humphries, Ruhi S. Keywood, Melita D. Ward, Jason P. Harnwell, James Alexander, Simon P. Klekociuk, Andrew R. Hara, Keiichiro Mcrobert, Ian M. Protat, Alain Alroe, Joel Cravigan, Luke T. Miljevic, Branka Ristovski, Zoran D. Schofield, Robyn Wilson, Stephen R. Flynn, Connor J. Kulkarni, Gourihar R. Mace, Gerald G. Mcfarquhar, Greg M. Chambers, Scott D. Williams, Alastair G. Griffiths, Alan D. 2023-03-29 https://eprints.qut.edu.au/249268/ unknown European Geosciences Union doi:10.5194/acp-23-3749-2023 Humphries, Ruhi S., Keywood, Melita D., Ward, Jason P., Harnwell, James, Alexander, Simon P., Klekociuk, Andrew R., Hara, Keiichiro, Mcrobert, Ian M., Protat, Alain, Alroe, Joel, Cravigan, Luke T., Miljevic, Branka, Ristovski, Zoran D., Schofield, Robyn, Wilson, Stephen R., Flynn, Connor J., Kulkarni, Gourihar R., Mace, Gerald G., Mcfarquhar, Greg M., Chambers, Scott D., Williams, Alastair G., & Griffiths, Alan D. (2023) Measurement report: Understanding the seasonal cycle of Southern Ocean aerosols. Atmospheric Chemistry and Physics, 23(6), pp. 3749-3777. https://eprints.qut.edu.au/249268/ Faculty of Science; School of Earth & Atmospheric Sciences © 2023 Ruhi S. Humphries et al. This work is covered by copyright. Unless the document is being made available under a Creative Commons Licence, you must assume that re-use is limited to personal use and that permission from the copyright owner must be obtained for all other uses. If the document is available under a Creative Commons License (or other specified license) then refer to the Licence for details of permitted re-use. It is a condition of access that users recognise and abide by the legal requirements associated with these rights. If you believe that this work infringes copyright please provide details by email to qut.copyright@qut.edu.au Atmospheric Chemistry and Physics Contribution to Journal 2023 ftqueensland https://doi.org/10.5194/acp-23-3749-2023 2024-08-28T00:03:14Z The remoteness and extreme conditions of the Southern Ocean and Antarctic region have meant that observations in this region are rare, and typically restricted to summertime during research or resupply voyages. Observations of aerosols outside of the summer season are typically limited to long-term stations, such as Kennaook / Cape Grim (KCG; 40.7S, 144.7E), which is situated in the northern latitudes of the Southern Ocean, and Antarctic research stations, such as the Japanese operated Syowa (SYO; 69.0S, 39.6E). Measurements in the midlatitudes of the Southern Ocean are important, particularly in light of recent observations that highlighted the latitudinal gradient that exists across the region in summertime. Here we present 2 years (March 2016-March 2018) of observations from Macquarie Island (MQI; 54.5S, 159.0E) of aerosol (condensation nuclei larger than 10nm, CN10) and cloud condensation nuclei (CCN at various supersaturations) concentrations. This important multi-year data set is characterised, and its features are compared with the long-term data sets from KCG and SYO together with those from recent, regionally relevant voyages. CN10 concentrations were the highest at KCG by a factor of ∼50% across all non-winter seasons compared to the other two stations, which were similar (summer medians of 530, 426 and 468cm-3 at KCG, MQI and SYO, respectively). In wintertime, seasonal minima at KCG and MQI were similar (142 and 152cm-3, respectively), with SYO being distinctly lower (87cm-3), likely the result of the reduction in sea spray aerosol generation due to the sea ice ocean cover around the site. CN10 seasonal maxima were observed at the stations at different times of year, with KCG and MQI exhibiting January maxima and SYO having a distinct February high. Comparison of CCN0.5 data between KCG and MQI showed similar overall trends with summertime maxima and wintertime minima; however, KCG exhibited slightly (∼10%) higher concentrations in summer (medians of 158 and 145cm-3, respectively), whereas KCG showed ... Article in Journal/Newspaper Antarc* Antarctic Macquarie Island Sea ice Southern Ocean Queensland University of Technology: QUT ePrints Atmospheric Chemistry and Physics 23 6 3749 3777

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