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Air-Sea Trace Gas Fluxes: Direct and Indirect Measurements

C. W. Fairall, Mingxi Yang, Sophia E. Brumer, Byron Blomquist, James B. Edson, Christopher J. Zappa, Ludovic Bariteau, Sergio Pezoa, Thomas G. Bell, E. S. Saltzman

2022Frontiers in Marine Science26 citationsDOIOpen Access PDF

Abstract

The past decade has seen significant technological advance in the observation of trace gas fluxes over the open ocean, most notably CO 2 , but also an impressive list of other gases. Here we will emphasize flux observations from the air-side of the interface including both turbulent covariance (direct) and surface-layer similarity-based (indirect) bulk transfer velocity methods. Most applications of direct covariance observations have been from ships but recently work has intensified on buoy-based implementation. The principal use of direct methods is to quantify empirical coefficients in bulk estimates of the gas transfer velocity. Advances in direct measurements and some recent field programs that capture a considerable range of conditions with wind speeds exceeding 20 ms -1 are discussed. We use coincident direct flux measurements of CO 2 and dimethylsulfide (DMS) to infer the scaling of interfacial viscous and bubble-mediated (whitecap driven) gas transfer mechanisms. This analysis suggests modest chemical enhancement of CO 2 flux at low wind speed. We include some updates to the theoretical structure of bulk parameterizations (including chemical enhancement) as framed in the COAREG gas transfer algorithm.

Topics & Concepts

Trace gasFlux (metallurgy)Environmental scienceScalingTurbulenceWind speedAtmospheric sciencesRange (aeronautics)MeteorologyMechanicsPhysicsMaterials scienceMetallurgyMathematicsGeometryComposite materialOceanographic and Atmospheric ProcessesAtmospheric and Environmental Gas DynamicsMarine and coastal ecosystems
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