Condensation Nuclei Measurements in the Midlatitude (1982-2012) and Antarctic (1986-2010) Stratosphere between 20 and 35 km

©2013. The Authors. Balloon-borne stratospheric condensation nuclei (CN) measurements have been made from McMurdo Station, Antarctica (78°S), 1986-2010, and from Laramie, Wyoming (41°N), 1982 to the present. In the Antarctic region, the measurements show the formation of a layer of enhanced concentr...

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Published in:Journal of Geophysical Research: Atmospheres
Main Authors: Campbell, P., Deshler, Terry
Format: Other Non-Article Part of Journal/Newspaper
Language:English
Published: University of Wyoming. Libraries 2014
Subjects:
Atmospheric movements
Condensation
Nucleation
Ambient temperature change
balloon-borne
Condensation nuclei
Formation mechanism
Homogeneous nucleation
Meridional transport
Stratospheric aerosols
Trajectory analysis
Measurements
Arctic Oscillation
balloon observation
latitude
stratosphere
volcanic eruption
Antarctica
East Antarctica
Laramie
McMurdo Station
United States
Wyoming
Engineering
Antarctic
Arctic
The Antarctic
Antarc*
Online Access:https://hdl.handle.net/20.500.11919/666
https://doi.org/10.1002/2013JD019710
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spelling ftcolostateunidc:oai:mountainscholar.org:20.500.11919/666 2023-05-15T13:48:16+02:00 Condensation Nuclei Measurements in the Midlatitude (1982-2012) and Antarctic (1986-2010) Stratosphere between 20 and 35 km Campbell, P. Deshler, Terry 2014-01-09 application/pdf https://hdl.handle.net/20.500.11919/666 https://doi.org/10.1002/2013JD019710 English eng eng University of Wyoming. Libraries Faculty Publications - Atmospheric Science https://hdl.handle.net/20.500.11919/666 doi:10.1002/2013JD019710 Atmospheric Science Faculty Publications Atmospheric movements Condensation Nucleation Ambient temperature change balloon-borne Condensation nuclei Formation mechanism Homogeneous nucleation Meridional transport Stratospheric aerosols Trajectory analysis Measurements Arctic Oscillation balloon observation latitude stratosphere volcanic eruption Antarctica East Antarctica Laramie McMurdo Station United States Wyoming Engineering Journal contribution 2014 ftcolostateunidc https://doi.org/20.500.11919/666 https://doi.org/10.1002/2013JD019710 2021-07-14T20:16:12Z ©2013. The Authors. Balloon-borne stratospheric condensation nuclei (CN) measurements have been made from McMurdo Station, Antarctica (78°S), 1986-2010, and from Laramie, Wyoming (41°N), 1982 to the present. In the Antarctic region, the measurements show the formation of a layer of enhanced concentrations of stratospheric CN, between 21 and 27 km, around mid-August, reaching its maximum extent between September and early October. CN concentrations increase from backgrounds of 10-20 cm-3 to over 100 cm-3 in the layer. In the northern midlatitudes, the measurements show a quasi-annual and smaller layer of enhanced CN concentrations between 25 and 31 km in late winter and early spring. In the quasi-annual layers, CN concentrations increase from backgrounds of 1-10 cm-3 to over 20 cm-3. Volcanic eruptions appear to enhance the CN layers observed over Laramie and McMurdo. The Arctic Oscillation generally correlates with the magnitude of the Laramie CN layer, suggesting the importance of meridional transport. Volatility measurements and nucleation modeling support a sulfuric acid and water composition and binary homogeneous nucleation as the likely CN formation mechanism in both locations. Bimonthly measurements above Laramie support coagulation as the main reason for the dissipation of the CN layer. Air parcel trajectory modeling confirms that the CN layer forms locally to McMurdo and that it is related to solar exposure, while above Laramie trajectory analysis indicates that Arctic conditions and ambient temperature changes during northerly transport impact the magnitude of the CN layer above Laramie. Key points: Condensation nuclei measurements in the stratosphere are presented Condensation nuclei layers exist in the high and midlatitude stratosphere; The formation and volatility of condensation nuclei layers are characterized. Other Non-Article Part of Journal/Newspaper Antarc* Antarctic Antarctica Arctic East Antarctica Digital Collections of Colorado (Colorado State University) Antarctic Arctic East Antarctica McMurdo Station ENVELOPE(166.667,166.667,-77.850,-77.850) The Antarctic Journal of Geophysical Research: Atmospheres 119 1 137 152
institution Open Polar
collection Digital Collections of Colorado (Colorado State University)
op_collection_id ftcolostateunidc
language English
topic Atmospheric movements
Condensation
Nucleation
Ambient temperature change
balloon-borne
Condensation nuclei
Formation mechanism
Homogeneous nucleation
Meridional transport
Stratospheric aerosols
Trajectory analysis
Measurements
Arctic Oscillation
balloon observation
latitude
stratosphere
volcanic eruption
Antarctica
East Antarctica
Laramie
McMurdo Station
United States
Wyoming
Engineering
spellingShingle Atmospheric movements
Condensation
Nucleation
Ambient temperature change
balloon-borne
Condensation nuclei
Formation mechanism
Homogeneous nucleation
Meridional transport
Stratospheric aerosols
Trajectory analysis
Measurements
Arctic Oscillation
balloon observation
latitude
stratosphere
volcanic eruption
Antarctica
East Antarctica
Laramie
McMurdo Station
United States
Wyoming
Engineering
Campbell, P.
Deshler, Terry
Condensation Nuclei Measurements in the Midlatitude (1982-2012) and Antarctic (1986-2010) Stratosphere between 20 and 35 km
topic_facet Atmospheric movements
Condensation
Nucleation
Ambient temperature change
balloon-borne
Condensation nuclei
Formation mechanism
Homogeneous nucleation
Meridional transport
Stratospheric aerosols
Trajectory analysis
Measurements
Arctic Oscillation
balloon observation
latitude
stratosphere
volcanic eruption
Antarctica
East Antarctica
Laramie
McMurdo Station
United States
Wyoming
Engineering
description ©2013. The Authors. Balloon-borne stratospheric condensation nuclei (CN) measurements have been made from McMurdo Station, Antarctica (78°S), 1986-2010, and from Laramie, Wyoming (41°N), 1982 to the present. In the Antarctic region, the measurements show the formation of a layer of enhanced concentrations of stratospheric CN, between 21 and 27 km, around mid-August, reaching its maximum extent between September and early October. CN concentrations increase from backgrounds of 10-20 cm-3 to over 100 cm-3 in the layer. In the northern midlatitudes, the measurements show a quasi-annual and smaller layer of enhanced CN concentrations between 25 and 31 km in late winter and early spring. In the quasi-annual layers, CN concentrations increase from backgrounds of 1-10 cm-3 to over 20 cm-3. Volcanic eruptions appear to enhance the CN layers observed over Laramie and McMurdo. The Arctic Oscillation generally correlates with the magnitude of the Laramie CN layer, suggesting the importance of meridional transport. Volatility measurements and nucleation modeling support a sulfuric acid and water composition and binary homogeneous nucleation as the likely CN formation mechanism in both locations. Bimonthly measurements above Laramie support coagulation as the main reason for the dissipation of the CN layer. Air parcel trajectory modeling confirms that the CN layer forms locally to McMurdo and that it is related to solar exposure, while above Laramie trajectory analysis indicates that Arctic conditions and ambient temperature changes during northerly transport impact the magnitude of the CN layer above Laramie. Key points: Condensation nuclei measurements in the stratosphere are presented Condensation nuclei layers exist in the high and midlatitude stratosphere; The formation and volatility of condensation nuclei layers are characterized.
format Other Non-Article Part of Journal/Newspaper
author Campbell, P.
Deshler, Terry
author_facet Campbell, P.
Deshler, Terry
author_sort Campbell, P.
title Condensation Nuclei Measurements in the Midlatitude (1982-2012) and Antarctic (1986-2010) Stratosphere between 20 and 35 km
title_short Condensation Nuclei Measurements in the Midlatitude (1982-2012) and Antarctic (1986-2010) Stratosphere between 20 and 35 km
title_full Condensation Nuclei Measurements in the Midlatitude (1982-2012) and Antarctic (1986-2010) Stratosphere between 20 and 35 km
title_fullStr Condensation Nuclei Measurements in the Midlatitude (1982-2012) and Antarctic (1986-2010) Stratosphere between 20 and 35 km
title_full_unstemmed Condensation Nuclei Measurements in the Midlatitude (1982-2012) and Antarctic (1986-2010) Stratosphere between 20 and 35 km
title_sort condensation nuclei measurements in the midlatitude (1982-2012) and antarctic (1986-2010) stratosphere between 20 and 35 km
publisher University of Wyoming. Libraries
publishDate 2014
url https://hdl.handle.net/20.500.11919/666
https://doi.org/10.1002/2013JD019710
long_lat ENVELOPE(166.667,166.667,-77.850,-77.850)
geographic Antarctic
Arctic
East Antarctica
McMurdo Station
The Antarctic
geographic_facet Antarctic
Arctic
East Antarctica
McMurdo Station
The Antarctic
genre Antarc*
Antarctic
Antarctica
Arctic
East Antarctica
genre_facet Antarc*
Antarctic
Antarctica
Arctic
East Antarctica
op_source Atmospheric Science Faculty Publications
op_relation Faculty Publications - Atmospheric Science
https://hdl.handle.net/20.500.11919/666
doi:10.1002/2013JD019710
op_doi https://doi.org/20.500.11919/666
https://doi.org/10.1002/2013JD019710
container_title Journal of Geophysical Research: Atmospheres
container_volume 119
container_issue 1
container_start_page 137
op_container_end_page 152
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