Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations

Ice-nucleating particles (INPs) are known to affect the amount of ice in mixed-phase clouds, thereby influencing many of their properties. The atmospheric INP concentration changes by orders of magnitude from terrestrial to marine environments, which typically contain much lower concentrations. Many...

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Published in:Atmospheric Chemistry and Physics
Main Authors: Vergara-Temprado, Jesús, Murray, Benjamin J., Wilson, Theodore W., O'Sullivan, Daniel, Browse, Jo, Pringle, Kirsty J., Ardon-Dryer, Karin, Bertram, Allan K., Burrows, Susannah M., Ceburnis, Darius, DeMott, Paul J., Mason, Ryan H., O'Dowd, Colin D., Rinaldi, Matteo, Carslaw, Ken S.
Format: Article in Journal/Newspaper
Language:unknown
Published: Copernicus GmbH 2017
Subjects:
sea-spray aerosol
mixed-phase clouds
theory-based parameterization
mineral dust
forming nuclei
freezing nuclei
water droplets
fungal spores
laboratory experiments
kaolinite particles
Southern Ocean
Online Access:http://hdl.handle.net/10379/14307
https://doi.org/10.5194/acp-17-3637-2017
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spelling ftnuigalway:oai:aran.library.nuigalway.ie/:10379/14307 2023-06-11T04:17:04+02:00 Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations Vergara-Temprado, Jesús Murray, Benjamin J. Wilson, Theodore W. O'Sullivan, Daniel Browse, Jo Pringle, Kirsty J. Ardon-Dryer, Karin Bertram, Allan K. Burrows, Susannah M. Ceburnis, Darius DeMott, Paul J. Mason, Ryan H. O'Dowd, Colin D. Rinaldi, Matteo Carslaw, Ken S. 2017-03-15 http://hdl.handle.net/10379/14307 https://doi.org/10.5194/acp-17-3637-2017 unknown Copernicus GmbH Atmospheric Chemistry and Physics Vergara-Temprado, Jesús; Murray, Benjamin J. Wilson, Theodore W.; O'Sullivan, Daniel; Browse, Jo; Pringle, Kirsty J.; Ardon-Dryer, Karin; Bertram, Allan K.; Burrows, Susannah M.; Ceburnis, Darius; DeMott, Paul J.; Mason, Ryan H.; O'Dowd, Colin D.; Rinaldi, Matteo; Carslaw, Ken S. (2017). Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations. Atmospheric Chemistry and Physics 17 (5), 3637-3658 1680-7324 http://hdl.handle.net/10379/14307 doi:10.5194/acp-17-3637-2017 Attribution-NonCommercial-NoDerivs 3.0 Ireland https://creativecommons.org/licenses/by-nc-nd/3.0/ie/ sea-spray aerosol mixed-phase clouds theory-based parameterization mineral dust forming nuclei freezing nuclei water droplets fungal spores laboratory experiments kaolinite particles Article 2017 ftnuigalway https://doi.org/10.5194/acp-17-3637-2017 2023-05-28T18:06:03Z Ice-nucleating particles (INPs) are known to affect the amount of ice in mixed-phase clouds, thereby influencing many of their properties. The atmospheric INP concentration changes by orders of magnitude from terrestrial to marine environments, which typically contain much lower concentrations. Many modelling studies use parameterizations for heterogeneous ice nucleation and cloud ice processes that do not account for this difference because they were developed based on INP measurements made predominantly in terrestrial environments without considering the aerosol composition. Errors in the assumed INP concentration will influence the simulated amount of ice in mixed-phase clouds, leading to errors in top-of-atmosphere radiative flux and ultimately the climate sensitivity of the model. Here we develop a global model of INP concentrations relevant for mixed-phase clouds based on laboratory and field measurements of ice nucleation by K-feldspar (an ice-active component of desert dust) and marine organic aerosols (from sea spray). The simulated global distribution of INP concentrations based on these two species agrees much better with currently available ambient measurements than when INP concentrations are assumed to depend only on temperature or particle size. Underestimation of INP concentrations in some terrestrial locations may be due to the neglect of INPs from other terrestrial sources. Our model indicates that, on a monthly average basis, desert dusts dominate the contribution to the INP population over much of the world, but marine organics become increasingly important over remote oceans and they dominate over the Southern Ocean. However, day-to-day variability is important. Because desert dust aerosol tends to be sporadic, marine organic aerosols dominate the INP population on many days per month over much of the mid-and high-latitude Northern Hemisphere. This study advances our understanding of which aerosol species need to be included in order to adequately describe the global and regional ... Article in Journal/Newspaper Southern Ocean National University of Ireland (NUI), Galway: ARAN Southern Ocean Atmospheric Chemistry and Physics 17 5 3637 3658
institution Open Polar
collection National University of Ireland (NUI), Galway: ARAN
op_collection_id ftnuigalway
language unknown
topic sea-spray aerosol
mixed-phase clouds
theory-based parameterization
mineral dust
forming nuclei
freezing nuclei
water droplets
fungal spores
laboratory experiments
kaolinite particles
spellingShingle sea-spray aerosol
mixed-phase clouds
theory-based parameterization
mineral dust
forming nuclei
freezing nuclei
water droplets
fungal spores
laboratory experiments
kaolinite particles
Vergara-Temprado, Jesús
Murray, Benjamin J.
Wilson, Theodore W.
O'Sullivan, Daniel
Browse, Jo
Pringle, Kirsty J.
Ardon-Dryer, Karin
Bertram, Allan K.
Burrows, Susannah M.
Ceburnis, Darius
DeMott, Paul J.
Mason, Ryan H.
O'Dowd, Colin D.
Rinaldi, Matteo
Carslaw, Ken S.
Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations
topic_facet sea-spray aerosol
mixed-phase clouds
theory-based parameterization
mineral dust
forming nuclei
freezing nuclei
water droplets
fungal spores
laboratory experiments
kaolinite particles
description Ice-nucleating particles (INPs) are known to affect the amount of ice in mixed-phase clouds, thereby influencing many of their properties. The atmospheric INP concentration changes by orders of magnitude from terrestrial to marine environments, which typically contain much lower concentrations. Many modelling studies use parameterizations for heterogeneous ice nucleation and cloud ice processes that do not account for this difference because they were developed based on INP measurements made predominantly in terrestrial environments without considering the aerosol composition. Errors in the assumed INP concentration will influence the simulated amount of ice in mixed-phase clouds, leading to errors in top-of-atmosphere radiative flux and ultimately the climate sensitivity of the model. Here we develop a global model of INP concentrations relevant for mixed-phase clouds based on laboratory and field measurements of ice nucleation by K-feldspar (an ice-active component of desert dust) and marine organic aerosols (from sea spray). The simulated global distribution of INP concentrations based on these two species agrees much better with currently available ambient measurements than when INP concentrations are assumed to depend only on temperature or particle size. Underestimation of INP concentrations in some terrestrial locations may be due to the neglect of INPs from other terrestrial sources. Our model indicates that, on a monthly average basis, desert dusts dominate the contribution to the INP population over much of the world, but marine organics become increasingly important over remote oceans and they dominate over the Southern Ocean. However, day-to-day variability is important. Because desert dust aerosol tends to be sporadic, marine organic aerosols dominate the INP population on many days per month over much of the mid-and high-latitude Northern Hemisphere. This study advances our understanding of which aerosol species need to be included in order to adequately describe the global and regional ...
format Article in Journal/Newspaper
author Vergara-Temprado, Jesús
Murray, Benjamin J.
Wilson, Theodore W.
O'Sullivan, Daniel
Browse, Jo
Pringle, Kirsty J.
Ardon-Dryer, Karin
Bertram, Allan K.
Burrows, Susannah M.
Ceburnis, Darius
DeMott, Paul J.
Mason, Ryan H.
O'Dowd, Colin D.
Rinaldi, Matteo
Carslaw, Ken S.
author_facet Vergara-Temprado, Jesús
Murray, Benjamin J.
Wilson, Theodore W.
O'Sullivan, Daniel
Browse, Jo
Pringle, Kirsty J.
Ardon-Dryer, Karin
Bertram, Allan K.
Burrows, Susannah M.
Ceburnis, Darius
DeMott, Paul J.
Mason, Ryan H.
O'Dowd, Colin D.
Rinaldi, Matteo
Carslaw, Ken S.
author_sort Vergara-Temprado, Jesús
title Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations
title_short Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations
title_full Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations
title_fullStr Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations
title_full_unstemmed Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations
title_sort contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations
publisher Copernicus GmbH
publishDate 2017
url http://hdl.handle.net/10379/14307
https://doi.org/10.5194/acp-17-3637-2017
geographic Southern Ocean
geographic_facet Southern Ocean
genre Southern Ocean
genre_facet Southern Ocean
op_relation Atmospheric Chemistry and Physics
Vergara-Temprado, Jesús; Murray, Benjamin J. Wilson, Theodore W.; O'Sullivan, Daniel; Browse, Jo; Pringle, Kirsty J.; Ardon-Dryer, Karin; Bertram, Allan K.; Burrows, Susannah M.; Ceburnis, Darius; DeMott, Paul J.; Mason, Ryan H.; O'Dowd, Colin D.; Rinaldi, Matteo; Carslaw, Ken S. (2017). Contribution of feldspar and marine organic aerosols to global ice nucleating particle concentrations. Atmospheric Chemistry and Physics 17 (5), 3637-3658
1680-7324
http://hdl.handle.net/10379/14307
doi:10.5194/acp-17-3637-2017
op_rights Attribution-NonCommercial-NoDerivs 3.0 Ireland
https://creativecommons.org/licenses/by-nc-nd/3.0/ie/
op_doi https://doi.org/10.5194/acp-17-3637-2017
container_title Atmospheric Chemistry and Physics
container_volume 17
container_issue 5
container_start_page 3637
op_container_end_page 3658
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