A42D-04
Eddy Covariance Measurements of the Sea-Spray Aerosol Flu

Thursday, 17 December 2015: 11:05
3010 (Moscone West)
Ian M Brooks1, Sarah J. Norris1, Margaret J Yelland2, Robin W Pascal2 and John Prytherch3, (1)University of Leeds, Institute for Climate and Atmospheric Science, Leeds, United Kingdom, (2)National Oceanography Centre, Southampton, United Kingdom, (3)University of Leeds, Leeds, United Kingdom
Abstract:
Historically, almost all estimates of the sea-spray aerosol source flux have been inferred through various indirect methods. Direct estimates via eddy covariance have been attempted by only a handful of studies, most of which measured only the total number flux, or achieved rather coarse size segregation. Applying eddy covariance to the measurement of sea-spray fluxes is challenging: most instrumentation must be located in a laboratory space requiring long sample lines to an inlet collocated with a sonic anemometer; however, larger particles are easily lost to the walls of the sample line. Marine particle concentrations are generally low, requiring a high sample volume to achieve adequate statistics. The highly hygroscopic nature of sea salt means particles change size rapidly with fluctuations in relative humidity; this introduces an apparent bias in flux measurements if particles are sized at ambient humidity.

The Compact Lightweight Aerosol Spectrometer Probe (CLASP) was developed specifically to make high rate measurements of aerosol size distributions for use in eddy covariance measurements, and the instrument and data processing and analysis techniques have been refined over the course of several projects. Here we will review some of the issues and limitations related to making eddy covariance measurements of the sea spray source flux over the open ocean, summarise some key results from the last decade, and present new results from a 3-year long ship-based measurement campaign as part of the WAGES project. Finally we will consider requirements for future progress.