Significant continental source of ice-nucleating particles at the tip of Chile's southernmost Patagonia region

The sources and abundance of ice-nucleating particles (INPs) that initiate cloud ice formation remain understudied, especially in the Southern Hemisphere. In this study, we present INP measurements taken close to Punta Arenas, Chile, at the southernmost tip of South America from May 2019 to March 20...

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Main Authors: Gong, Xianda, Radenz, Martin, Wex, Heike, Seifert, Patric, Ataei, Farnoush, Henning, Silvia, Baars, Holger, Barja, Boris, Ansmann, Albert, Stratmann, Frank
Format: Article in Journal/Newspaper
Language:English
Published: Katlenburg-Lindau : EGU 2022
Subjects:
Chile
aerosol
cloud classification
cloud microphysics
concentration (composition)
550
Argentina
Patagonia
Southern Ocean
Online Access:https://oa.tib.eu/renate/handle/123456789/11874
https://doi.org/10.34657/10907
id ftleibnizopen:oai:oai.leibnizopen.de:l4f5pIkBdbrxVwz6CaxG
record_format openpolar
spelling ftleibnizopen:oai:oai.leibnizopen.de:l4f5pIkBdbrxVwz6CaxG 2023-08-20T04:09:56+02:00 Significant continental source of ice-nucleating particles at the tip of Chile's southernmost Patagonia region Gong, Xianda Radenz, Martin Wex, Heike Seifert, Patric Ataei, Farnoush Henning, Silvia Baars, Holger Barja, Boris Ansmann, Albert Stratmann, Frank 2022 application/pdf https://oa.tib.eu/renate/handle/123456789/11874 https://doi.org/10.34657/10907 eng eng Katlenburg-Lindau : EGU CC BY 4.0 Unported https://creativecommons.org/licenses/by/4.0 Atmospheric chemistry and physics 22 (2022), Nr. 16 Chile aerosol cloud classification cloud microphysics concentration (composition) 550 article Text 2022 ftleibnizopen https://doi.org/10.34657/10907 2023-07-30T23:46:08Z The sources and abundance of ice-nucleating particles (INPs) that initiate cloud ice formation remain understudied, especially in the Southern Hemisphere. In this study, we present INP measurements taken close to Punta Arenas, Chile, at the southernmost tip of South America from May 2019 to March 2020, during the Dynamics, Aerosol, Cloud, And Precipitation Observations in the Pristine Environment of the Southern Ocean (DACAPO-PESO) campaign. The highest ice nucleation temperature was observed at −3◦C, and from this temperature down to ∼ −10◦C, a sharp increase of INP number concentration (NINP) was observed. Heating of the samples revealed that roughly 90 % and 80 % of INPs are proteinaceous-based biogenic particles at > −10 and −15◦C, respectively. The NINP at Punta Arenas is much higher than that in the Southern Ocean, but it is comparable with an agricultural area in Argentina and forestry environment in the US. Ice active surface site density (ns) is much higher than that for marine aerosol in the Southern Ocean, but comparable to English fertile soil dust. Parameterization based on particle number concentration in the size range larger than 500 nm (N>500 nm) from the global average (DeMott et al., 2010) overestimates the measured INP, but the parameterization representing biological particles from a forestry environment (Tobo et al., 2013) yields NINP comparable to this study. No clear seasonal variation of NINP was observed. High precipitation is one of the most important meteorological parameters to enhance the NINP in both cold and warm seasons. A comparison of data from in situ and lidar measurements showed good agreement for concentrations of large aerosol particles (> 500 nm) when assuming continental conditions for retrieval of the lidar data, suggesting that these particles were well mixed within the planetary boundary layer (PBL). This corroborates the continental origin of these particles, consistent with the results from our INP source analysis. Overall, we suggest that a high NINP of ... Article in Journal/Newspaper Southern Ocean LeibnizOpen (The Leibniz Association) Argentina Patagonia Southern Ocean
institution Open Polar
collection LeibnizOpen (The Leibniz Association)
op_collection_id ftleibnizopen
language English
topic Chile
aerosol
cloud classification
cloud microphysics
concentration (composition)
550
spellingShingle Chile
aerosol
cloud classification
cloud microphysics
concentration (composition)
550
Gong, Xianda
Radenz, Martin
Wex, Heike
Seifert, Patric
Ataei, Farnoush
Henning, Silvia
Baars, Holger
Barja, Boris
Ansmann, Albert
Stratmann, Frank
Significant continental source of ice-nucleating particles at the tip of Chile's southernmost Patagonia region
topic_facet Chile
aerosol
cloud classification
cloud microphysics
concentration (composition)
550
description The sources and abundance of ice-nucleating particles (INPs) that initiate cloud ice formation remain understudied, especially in the Southern Hemisphere. In this study, we present INP measurements taken close to Punta Arenas, Chile, at the southernmost tip of South America from May 2019 to March 2020, during the Dynamics, Aerosol, Cloud, And Precipitation Observations in the Pristine Environment of the Southern Ocean (DACAPO-PESO) campaign. The highest ice nucleation temperature was observed at −3◦C, and from this temperature down to ∼ −10◦C, a sharp increase of INP number concentration (NINP) was observed. Heating of the samples revealed that roughly 90 % and 80 % of INPs are proteinaceous-based biogenic particles at > −10 and −15◦C, respectively. The NINP at Punta Arenas is much higher than that in the Southern Ocean, but it is comparable with an agricultural area in Argentina and forestry environment in the US. Ice active surface site density (ns) is much higher than that for marine aerosol in the Southern Ocean, but comparable to English fertile soil dust. Parameterization based on particle number concentration in the size range larger than 500 nm (N>500 nm) from the global average (DeMott et al., 2010) overestimates the measured INP, but the parameterization representing biological particles from a forestry environment (Tobo et al., 2013) yields NINP comparable to this study. No clear seasonal variation of NINP was observed. High precipitation is one of the most important meteorological parameters to enhance the NINP in both cold and warm seasons. A comparison of data from in situ and lidar measurements showed good agreement for concentrations of large aerosol particles (> 500 nm) when assuming continental conditions for retrieval of the lidar data, suggesting that these particles were well mixed within the planetary boundary layer (PBL). This corroborates the continental origin of these particles, consistent with the results from our INP source analysis. Overall, we suggest that a high NINP of ...
format Article in Journal/Newspaper
author Gong, Xianda
Radenz, Martin
Wex, Heike
Seifert, Patric
Ataei, Farnoush
Henning, Silvia
Baars, Holger
Barja, Boris
Ansmann, Albert
Stratmann, Frank
author_facet Gong, Xianda
Radenz, Martin
Wex, Heike
Seifert, Patric
Ataei, Farnoush
Henning, Silvia
Baars, Holger
Barja, Boris
Ansmann, Albert
Stratmann, Frank
author_sort Gong, Xianda
title Significant continental source of ice-nucleating particles at the tip of Chile's southernmost Patagonia region
title_short Significant continental source of ice-nucleating particles at the tip of Chile's southernmost Patagonia region
title_full Significant continental source of ice-nucleating particles at the tip of Chile's southernmost Patagonia region
title_fullStr Significant continental source of ice-nucleating particles at the tip of Chile's southernmost Patagonia region
title_full_unstemmed Significant continental source of ice-nucleating particles at the tip of Chile's southernmost Patagonia region
title_sort significant continental source of ice-nucleating particles at the tip of chile's southernmost patagonia region
publisher Katlenburg-Lindau : EGU
publishDate 2022
url https://oa.tib.eu/renate/handle/123456789/11874
https://doi.org/10.34657/10907
geographic Argentina
Patagonia
Southern Ocean
geographic_facet Argentina
Patagonia
Southern Ocean
genre Southern Ocean
genre_facet Southern Ocean
op_source Atmospheric chemistry and physics 22 (2022), Nr. 16
op_rights CC BY 4.0 Unported
https://creativecommons.org/licenses/by/4.0
op_doi https://doi.org/10.34657/10907
_version_ 1774723694781792256

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