Submicron sea spray fluxes

Michael Geever; Colin D. O'Dowd; Stefan van Ekeren; Robert Flanagan; E. Douglas Nilsson; Gerrit de Leeuw; Üllar Rannik

doi:10.1029/2005GL023081

Submicron sea spray fluxes

Michael Geever, Colin D. O'Dowd, Stefan van Ekeren, Robert Flanagan, E. Douglas Nilsson, Gerrit de Leeuw, Üllar Rannik

Physics

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

87 Citations (Scopus)

Abstract

Eddy covariance aerosol flux measurements were conducted at the Mace Head coastal station in the North East Atlantic. Footprint and micrometeorological analysis under clean marine air mass conditions indicated that fluxes representative of open ocean conditions could be derived during high tide conditions and an oceanic fetch. Sea-spray fluxes were derived for total particle sizes larger than 10 nm and total particle sizes larger than 100 nm (i.e. covering the Aitken and Accumulation mode). The source fluxes (F) were found to be strongly correlated with both wind speed (U) and friction velocity (u*), following, by convention, an exponential relationship (Log F = a U + c) relationship. Comparison of source fluxes at sizes larger than 10 nm and larger than 100 nm demonstrates that approximately 50% of the number flux can be attributed to the accumulation mode and 50% to the Aitken mode. At 10 ms^-1 wind speeds, the total primary marine aerosol flux is of the order of 2 × 10⁶ m^-2 s^-1, increasing to 20 × 10⁶ m^-2 s^-1 at 20 ms^-1.

Original language	English
Article number	L15810
Number of pages	0
Journal	Geophysical Research Letters
Volume	32
Issue number	15
DOIs	https://doi.org/10.1029/2005GL023081
Publication status	Published - 16 Aug 2005

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Authors
Geever, M;O'Dowd, CD;van Ekeren, S;Flanagan, R;Nilsson, ED;de Leeuw, G;Rannik, U

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10.1029/2005GL023081

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title = "Submicron sea spray fluxes",

abstract = "Eddy covariance aerosol flux measurements were conducted at the Mace Head coastal station in the North East Atlantic. Footprint and micrometeorological analysis under clean marine air mass conditions indicated that fluxes representative of open ocean conditions could be derived during high tide conditions and an oceanic fetch. Sea-spray fluxes were derived for total particle sizes larger than 10 nm and total particle sizes larger than 100 nm (i.e. covering the Aitken and Accumulation mode). The source fluxes (F) were found to be strongly correlated with both wind speed (U) and friction velocity (u*), following, by convention, an exponential relationship (Log F = a U + c) relationship. Comparison of source fluxes at sizes larger than 10 nm and larger than 100 nm demonstrates that approximately 50% of the number flux can be attributed to the accumulation mode and 50% to the Aitken mode. At 10 ms-1 wind speeds, the total primary marine aerosol flux is of the order of 2 × 106 m-2 s-1, increasing to 20 × 106 m-2 s-1 at 20 ms-1.",

author = "Michael Geever and O'Dowd, {Colin D.} and {van Ekeren}, Stefan and Robert Flanagan and Nilsson, {E. Douglas} and {de Leeuw}, Gerrit and {\"U}llar Rannik",

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doi = "10.1029/2005GL023081",

language = "English",

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T1 - Submicron sea spray fluxes

AU - Geever, Michael

AU - O'Dowd, Colin D.

AU - van Ekeren, Stefan

AU - Flanagan, Robert

AU - Nilsson, E. Douglas

AU - de Leeuw, Gerrit

AU - Rannik, Üllar

PY - 2005/8/16

Y1 - 2005/8/16

N2 - Eddy covariance aerosol flux measurements were conducted at the Mace Head coastal station in the North East Atlantic. Footprint and micrometeorological analysis under clean marine air mass conditions indicated that fluxes representative of open ocean conditions could be derived during high tide conditions and an oceanic fetch. Sea-spray fluxes were derived for total particle sizes larger than 10 nm and total particle sizes larger than 100 nm (i.e. covering the Aitken and Accumulation mode). The source fluxes (F) were found to be strongly correlated with both wind speed (U) and friction velocity (u*), following, by convention, an exponential relationship (Log F = a U + c) relationship. Comparison of source fluxes at sizes larger than 10 nm and larger than 100 nm demonstrates that approximately 50% of the number flux can be attributed to the accumulation mode and 50% to the Aitken mode. At 10 ms-1 wind speeds, the total primary marine aerosol flux is of the order of 2 × 106 m-2 s-1, increasing to 20 × 106 m-2 s-1 at 20 ms-1.

AB - Eddy covariance aerosol flux measurements were conducted at the Mace Head coastal station in the North East Atlantic. Footprint and micrometeorological analysis under clean marine air mass conditions indicated that fluxes representative of open ocean conditions could be derived during high tide conditions and an oceanic fetch. Sea-spray fluxes were derived for total particle sizes larger than 10 nm and total particle sizes larger than 100 nm (i.e. covering the Aitken and Accumulation mode). The source fluxes (F) were found to be strongly correlated with both wind speed (U) and friction velocity (u*), following, by convention, an exponential relationship (Log F = a U + c) relationship. Comparison of source fluxes at sizes larger than 10 nm and larger than 100 nm demonstrates that approximately 50% of the number flux can be attributed to the accumulation mode and 50% to the Aitken mode. At 10 ms-1 wind speeds, the total primary marine aerosol flux is of the order of 2 × 106 m-2 s-1, increasing to 20 × 106 m-2 s-1 at 20 ms-1.

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U2 - 10.1029/2005GL023081

DO - 10.1029/2005GL023081

M3 - Article

SN - 0094-8276

VL - 32

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 15

M1 - L15810

ER -

Submicron sea spray fluxes

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