Relative contribution of submicron and supermicron particles to aerosol light scattering in the marine boundary layer

STEPHEN G. JENNINGS

Relative contribution of submicron and supermicron particles to aerosol light scattering in the marine boundary layer

STEPHEN G. JENNINGS

Physics

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Abstract

[1] Measurements of the aerosol light scattering coefficient (sigma(sp)) at a wavelength of lambda = 550 nm were conducted at a coastal atmospheric research station in the east Atlantic Ocean during June 1999. Size distribution measurements between diameters of 3 nm and 40 mum (at ambient humidity) were used to derive scattering coefficients from Mie theory. The calculated scattering coefficients were about a factor of 7.4 higher than the measured scattering coefficients. The discrepancy was explained by a reduced cutoff of the sampling system at particle diameters between 6 and 8 mum, dependent on wind speed. The calculated aerosol scattering was about 1 order of magnitude higher than previously reported measurements in the MBL and is attributed to supermicrometer particles at sizes d 10 mum dominating aerosol scattering.

Original language	English (Ireland)
Journal	Journal Of Geophysical Research-Atmospheres
Volume	107
Publication status	Published - 1 Sep 2002

Authors (Note for portal: view the doc link for the full list of authors)

Authors
Kleefeld, C,O'Dowd, CD,O'Reilly, S,Jennings, SG,Aalto, P,Becker, E,Kunz, G,de Leeuw, G

Cite this

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title = "Relative contribution of submicron and supermicron particles to aerosol light scattering in the marine boundary layer",

abstract = "[1] Measurements of the aerosol light scattering coefficient (sigma(sp)) at a wavelength of lambda = 550 nm were conducted at a coastal atmospheric research station in the east Atlantic Ocean during June 1999. Size distribution measurements between diameters of 3 nm and 40 mum (at ambient humidity) were used to derive scattering coefficients from Mie theory. The calculated scattering coefficients were about a factor of 7.4 higher than the measured scattering coefficients. The discrepancy was explained by a reduced cutoff of the sampling system at particle diameters between 6 and 8 mum, dependent on wind speed. The calculated aerosol scattering was about 1 order of magnitude higher than previously reported measurements in the MBL and is attributed to supermicrometer particles at sizes d 10 mum dominating aerosol scattering.",

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N2 - [1] Measurements of the aerosol light scattering coefficient (sigma(sp)) at a wavelength of lambda = 550 nm were conducted at a coastal atmospheric research station in the east Atlantic Ocean during June 1999. Size distribution measurements between diameters of 3 nm and 40 mum (at ambient humidity) were used to derive scattering coefficients from Mie theory. The calculated scattering coefficients were about a factor of 7.4 higher than the measured scattering coefficients. The discrepancy was explained by a reduced cutoff of the sampling system at particle diameters between 6 and 8 mum, dependent on wind speed. The calculated aerosol scattering was about 1 order of magnitude higher than previously reported measurements in the MBL and is attributed to supermicrometer particles at sizes d 10 mum dominating aerosol scattering.

AB - [1] Measurements of the aerosol light scattering coefficient (sigma(sp)) at a wavelength of lambda = 550 nm were conducted at a coastal atmospheric research station in the east Atlantic Ocean during June 1999. Size distribution measurements between diameters of 3 nm and 40 mum (at ambient humidity) were used to derive scattering coefficients from Mie theory. The calculated scattering coefficients were about a factor of 7.4 higher than the measured scattering coefficients. The discrepancy was explained by a reduced cutoff of the sampling system at particle diameters between 6 and 8 mum, dependent on wind speed. The calculated aerosol scattering was about 1 order of magnitude higher than previously reported measurements in the MBL and is attributed to supermicrometer particles at sizes d 10 mum dominating aerosol scattering.

M3 - Article

VL - 107

JO - Journal Of Geophysical Research-Atmospheres

JF - Journal Of Geophysical Research-Atmospheres

ER -

Relative contribution of submicron and supermicron particles to aerosol light scattering in the marine boundary layer

Abstract

Authors (Note for portal: view the doc link for the full list of authors)

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