2010
DOI: 10.5194/acp-10-5749-2010
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Size-dependent aerosol deposition velocities during BEARPEX'07

Abstract: Abstract. Aerosol concentrations and 3-D winds were measured from 9 to 25 September 2007, above a pine forest in California. The measurements were combined using the eddy covariance (EC) technique to determine aerosol eddy fluxes as a function of particle diameter within the accumulation mode size range (0.25 µm≤D p ≤1 µm here). Measured heat and water vapor fluxes were utilized to correct the aerosol eddy fluxes for aerosol hygroscopic growth. The hygroscopic growth correction was necessary despite the low RH… Show more

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Cited by 39 publications
(30 citation statements)
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“…We observed deposition of NR-PM 1 during the BEARPEX-2007 campaign, consistent with particle number fluxes (Vong et al, 2010). Ammonium deposited to the forest surface.…”
Section: Bearpex-2007 and Ammonium Depositionsupporting
confidence: 63%
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“…We observed deposition of NR-PM 1 during the BEARPEX-2007 campaign, consistent with particle number fluxes (Vong et al, 2010). Ammonium deposited to the forest surface.…”
Section: Bearpex-2007 and Ammonium Depositionsupporting
confidence: 63%
“…In addition, the fluxes are derived from the aerosol mass within a certain size-range, which may not be a conserved parameter where the aerosol size changes beyond the upper or lower size cut-off during vertical transport. By integrating over the total accumulation mode mass of the chemical components, the HR-AMS is relatively insensitive to changes in size distribution within the instrument's submicron range, and we can generally consider the HR-AMS flux measurement to be insensitive to artifacts due to the small changes in submicron particle size caused by evaporation/condensational growth, which have been found to affect the measurement of size-segregated particle number fluxes within individual accumulation mode size bins or fluxes of total particle number above a specified cutoff (e.g., Nemitz et al, 2004aNemitz et al, , 2009aVong et al, 2010). Under some conditions, however, vertical gradients in particle growth in or out of the AMS-observable size range due to water uptake or changes in gas/aerosol partitioning with condensable chemical species could, however, cause an artifact.…”
Section: Hr-ams Eddy Covariance Fluxesmentioning
confidence: 99%
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“…Each sample was subjected to two contact times: the first contact was at 1 min, and the second contact was at 24 h. NO x was analysed using a 1 m long liquid waveguide capillary cell (LWCC) made of quartz capillary tubing, following the protocol described in Louis et al (2015). An extrapolated NO x release from dry deposition was estimated on the basis of a deposition velocity of submicron particles (0.4 m s −1 ; Vong et al, 2010).…”
Section: Atmospheric Depositionmentioning
confidence: 99%