Aerosol number size distributions from 3 to 500 nm diameter in the arctic marine boundary layer during summer and autumn

Aerosol physics measurements made onboard the Swedish icebreaker Oden in the late Summer and early Autumn of 1991 during the International Arctic Ocean Expedition (IAOE-91) have provided the first data on the size distribution of particles in the Arctic marine boundary layer (MBL) that cover both th...

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Bibliographic Details
Main Authors: Covert, D.S., Wiedensohler, A., Aalto, P., Heintzenberg, J., Mcmurry, P.H., Leck, C.
Format: Article in Journal/Newspaper
Language:English
Published: Copenhagen : Blackwell Munksgaard 1996
Subjects:
accumulation mode
aerosol size
aerosols
Aitken mode
IAOE
IAOE-91
marine boundary layer
oceanic boundary layer
particle number mode
shipborne observation
size distributions
statistical analysis
ultrafine mode
Arctic Ocean
550
Aitken
Arctic
oden
Online Access:https://oa.tib.eu/renate/handle/123456789/5414
https://doi.org/10.34657/4043
id ftleibnizopen:oai:oai.leibnizopen.de:HzA974cBdbrxVwz6mtFU
record_format openpolar
spelling ftleibnizopen:oai:oai.leibnizopen.de:HzA974cBdbrxVwz6mtFU 2023-06-11T04:08:43+02:00 Aerosol number size distributions from 3 to 500 nm diameter in the arctic marine boundary layer during summer and autumn Covert, D.S. Wiedensohler, A. Aalto, P. Heintzenberg, J. Mcmurry, P.H. Leck, C. 1996 application/pdf text/plain; charset=utf-8 https://oa.tib.eu/renate/handle/123456789/5414 https://doi.org/10.34657/4043 eng eng Copenhagen : Blackwell Munksgaard CC BY 3.0 Unported https://creativecommons.org/licenses/by/3.0/ Tellus, Series B: Chemical and Physical Meteorology 48 (1996), Nr. 2 accumulation mode aerosol size aerosols Aitken mode IAOE IAOE-91 marine boundary layer oceanic boundary layer particle number mode shipborne observation size distributions statistical analysis ultrafine mode Arctic Ocean 550 article Text 1996 ftleibnizopen https://doi.org/10.34657/4043 2023-05-07T23:25:31Z Aerosol physics measurements made onboard the Swedish icebreaker Oden in the late Summer and early Autumn of 1991 during the International Arctic Ocean Expedition (IAOE-91) have provided the first data on the size distribution of particles in the Arctic marine boundary layer (MBL) that cover both the number and mass modes of the size range from 3 to 500 nm diameter. These measurements were made in conjunction with atmospheric gas and condensed phase chemistry measurements in an effort to understand a part of the ocean-atmosphere sulfur cycle. Analysis of the particle physics data showed that there were three distinct number modes in the submicrometric aerosol in the Arctic MBL. These modes had geometric mean diameters of around 170 nm. 45 nm and 14 nm referred to as accumulation, Aitken and ultrafine modes, respectively. There were clear minima in number concentrations between the modes that appeared at 20 to 30 nm and at 80 to 100 nm. The total number concentration was most frequently between 30 and 60 particles cm-3 with a mean value of around 100 particles cm-3, but the hourly average concentration varied over two to three orders of magnitude during the 70 days of the expedition. On average, the highest concentration was in the accumulation mode that contained about 45% of the total number, while the Aitken mode contained about 40%. The greatest variability was in the ultrafine mode concentration which is indicative of active, earby sources (nucleation from the gas phase) and sinks; the Aitken and accumulation mode concentrations were much less variable. The ultrafine mode was observed about two thirds of the time and was dominant 10% of the time. A detailed description and statistical analysis of the modal aerosol parameters is presented here. publishedVersion Article in Journal/Newspaper Arctic Arctic Ocean oden LeibnizOpen (The Leibniz Association) Aitken ENVELOPE(-44.516,-44.516,-60.733,-60.733) Arctic Arctic Ocean
institution Open Polar
collection LeibnizOpen (The Leibniz Association)
op_collection_id ftleibnizopen
language English
topic accumulation mode
aerosol size
aerosols
Aitken mode
IAOE
IAOE-91
marine boundary layer
oceanic boundary layer
particle number mode
shipborne observation
size distributions
statistical analysis
ultrafine mode
Arctic Ocean
550
spellingShingle accumulation mode
aerosol size
aerosols
Aitken mode
IAOE
IAOE-91
marine boundary layer
oceanic boundary layer
particle number mode
shipborne observation
size distributions
statistical analysis
ultrafine mode
Arctic Ocean
550
Covert, D.S.
Wiedensohler, A.
Aalto, P.
Heintzenberg, J.
Mcmurry, P.H.
Leck, C.
Aerosol number size distributions from 3 to 500 nm diameter in the arctic marine boundary layer during summer and autumn
topic_facet accumulation mode
aerosol size
aerosols
Aitken mode
IAOE
IAOE-91
marine boundary layer
oceanic boundary layer
particle number mode
shipborne observation
size distributions
statistical analysis
ultrafine mode
Arctic Ocean
550
description Aerosol physics measurements made onboard the Swedish icebreaker Oden in the late Summer and early Autumn of 1991 during the International Arctic Ocean Expedition (IAOE-91) have provided the first data on the size distribution of particles in the Arctic marine boundary layer (MBL) that cover both the number and mass modes of the size range from 3 to 500 nm diameter. These measurements were made in conjunction with atmospheric gas and condensed phase chemistry measurements in an effort to understand a part of the ocean-atmosphere sulfur cycle. Analysis of the particle physics data showed that there were three distinct number modes in the submicrometric aerosol in the Arctic MBL. These modes had geometric mean diameters of around 170 nm. 45 nm and 14 nm referred to as accumulation, Aitken and ultrafine modes, respectively. There were clear minima in number concentrations between the modes that appeared at 20 to 30 nm and at 80 to 100 nm. The total number concentration was most frequently between 30 and 60 particles cm-3 with a mean value of around 100 particles cm-3, but the hourly average concentration varied over two to three orders of magnitude during the 70 days of the expedition. On average, the highest concentration was in the accumulation mode that contained about 45% of the total number, while the Aitken mode contained about 40%. The greatest variability was in the ultrafine mode concentration which is indicative of active, earby sources (nucleation from the gas phase) and sinks; the Aitken and accumulation mode concentrations were much less variable. The ultrafine mode was observed about two thirds of the time and was dominant 10% of the time. A detailed description and statistical analysis of the modal aerosol parameters is presented here. publishedVersion
format Article in Journal/Newspaper
author Covert, D.S.
Wiedensohler, A.
Aalto, P.
Heintzenberg, J.
Mcmurry, P.H.
Leck, C.
author_facet Covert, D.S.
Wiedensohler, A.
Aalto, P.
Heintzenberg, J.
Mcmurry, P.H.
Leck, C.
author_sort Covert, D.S.
title Aerosol number size distributions from 3 to 500 nm diameter in the arctic marine boundary layer during summer and autumn
title_short Aerosol number size distributions from 3 to 500 nm diameter in the arctic marine boundary layer during summer and autumn
title_full Aerosol number size distributions from 3 to 500 nm diameter in the arctic marine boundary layer during summer and autumn
title_fullStr Aerosol number size distributions from 3 to 500 nm diameter in the arctic marine boundary layer during summer and autumn
title_full_unstemmed Aerosol number size distributions from 3 to 500 nm diameter in the arctic marine boundary layer during summer and autumn
title_sort aerosol number size distributions from 3 to 500 nm diameter in the arctic marine boundary layer during summer and autumn
publisher Copenhagen : Blackwell Munksgaard
publishDate 1996
url https://oa.tib.eu/renate/handle/123456789/5414
https://doi.org/10.34657/4043
long_lat ENVELOPE(-44.516,-44.516,-60.733,-60.733)
geographic Aitken
Arctic
Arctic Ocean
geographic_facet Aitken
Arctic
Arctic Ocean
genre Arctic
Arctic Ocean
oden
genre_facet Arctic
Arctic Ocean
oden
op_source Tellus, Series B: Chemical and Physical Meteorology 48 (1996), Nr. 2
op_rights CC BY 3.0 Unported
https://creativecommons.org/licenses/by/3.0/
op_doi https://doi.org/10.34657/4043
_version_ 1768382164153401344

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