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Marine Boundary Layer Aerosol in the Eastern North Atlantic: Seasonal Variations and Key Controlling Processes
Atmospheric Chemistry and Physics
  • Guangjie Zheng
  • Yang Wang, Missouri University of Science and Technology
  • For full list of authors, see publisher's website., For full list of authors, see publisher's website.
Abstract

The response of marine low cloud systems to changes in aerosol concentration represents one of the largest uncertainties in climate simulations. Major contributions to this uncertainty are derived from poor understanding of aerosol under natural conditions and the perturbation by anthropogenic emissions. The eastern North Atlantic (ENA) is a region of persistent but diverse marine boundary layer (MBL) clouds, whose albedo and precipitation are highly susceptible to perturbations in aerosol properties. In this study, we examine MBL aerosol properties, trace gas mixing ratios, and meteorological parameters measured at the Atmospheric Radiation Measurement Climate Research Facility's ENA site on Graciosa Island, Azores, Portugal, during a 3- year period from 2015 to 2017. Measurements impacted by local pollution on Graciosa Island and during occasional intense biomass burning and dust events are excluded from this study. Submicron aerosol size distribution typically consists of three modes: Aitken (At, diameter Dp < ∼ 100 nm), accumulation (Ac, Dp within ∼ 100 to ∼ 300 nm), and larger accumulation (LA, Dp >∼ 300 nm) modes, with average number concentrations (denoted as NAt, NAc, and NLA below) of 330, 114, and 14 cm-3 , respectively. NAt, NAc, and NLA show contrasting seasonal variations, suggesting different sources and removal processes. NLA is dominated by sea spray aerosol (SSA) and is higher in winter and lower in summer. This is due to the seasonal variations of SSA production, in-cloud coalescence scavenging, and dilution by entrained free troposphere (FT) air. In comparison, SSA typically contributes a relatively minor fraction to NAt (10 %) and NAc (21 %) on an annual basis. In addition to SSA, sources of Acmode particles include entrainment of FT aerosols and condensation growth of Aitken-mode particles inside the MBL, while in-cloud coalescence scavenging is the major sink of NAc. The observed seasonal variation of NAc, being higher in summer and lower in winter, generally agrees with the steady-state concentration estimated from major sources and sinks. NAt is mainly controlled by entrainment of FT aerosol, coagulation loss, and growth of Aitken-mode particles into the Ac-mode size range. Our calculation suggests that besides the direct contribution from entrained FT Ac-mode particles, growth of entrained FT Aitken-mode particles in the MBL also represent a substantial source of cloud condensation nuclei (CCN), with the highest contribution potentially reaching 60% during summer. The growth of Aitken-mode particles to CCN size is an expected result of the condensation of sulfuric acid, a product from dimethyl sulfide oxidation, suggesting that ocean ecosystems may have a substantial influence on MBL CCN populations in the ENA.

Department(s)
Civil, Architectural and Environmental Engineering
Comments
The research was conducted with funding from the Atmospheric System Research (ASR) and Atmospheric Radiation Measurement (ARM) programs (Office of Biological and Environmental Research of US DOE, under contract DE-AC02-98CH10886). We acknowledge the ARM Climate Research Facility, a user facility of the United States Department of Energy (US DOE), Office of Science, sponsored by the Office of Biological and Environmental Research.
Keywords and Phrases
  • Aerosol,
  • Aerosol property,
  • Albedo,
  • Boundary layer,
  • Cloud,
  • Cloud condensation nucleus,
  • Concentration (composition),
  • Marine atmosphere,
  • Mixing ratio,
  • Particle size,
  • Seasonal variation,
  • Size distribution,
  • Atlantic Ocean,
  • Atlantic Ocean (North),
  • Azores,
  • Graciosa [Azores],
  • Portugal
Document Type
Article - Journal
Document Version
Final Version
File Type
text
Language(s)
English
Rights
© 2018 The Author(s), All rights reserved.
Creative Commons Licensing
Creative Commons Attribution 4.0
Publication Date
12-1-2018
Citation Information
Guangjie Zheng, Yang Wang and For full list of authors, see publisher's website.. "Marine Boundary Layer Aerosol in the Eastern North Atlantic: Seasonal Variations and Key Controlling Processes" Atmospheric Chemistry and Physics Vol. 18 Iss. 23 (2018) p. 17615 - 17635 ISSN: 1680-7316
Available at: http://works.bepress.com/yang-wang/14/