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Shoreline wave breaking strongly enhances the coastal sea spray aerosol population: Climate and air quality implications

Shengqian Zhou, Matthew Salter, Timothy H. Bertram, Eduardo Brito de Azevedo, Francisco Reis, Jian Wang

2025Science Advances7 citationsDOIOpen Access PDF

Abstract

Sea spray aerosol (SSA) emission is a major source of atmospheric aerosols, influencing global climate and coastal air quality. Much of our knowledge about SSA derives from coastal observations near shorelines, but whether and when these observations accurately represent open oceans remain unclear. Here, we show that strong nearshore SSA production during high-wave periods greatly enhances downwind cloud condensation nuclei (CCN) and aerosol mass concentrations. Strong shoreline wave breaking is widespread globally, and swell waves, which are decoupled from local winds, play a dominant role in many coastal regions. Therefore, extrapolating results based on coastal measurements to open oceans may significantly overestimate SSA concentration and its contribution to CCN and, by extension, the impact of SSA on clouds and climate. Additionally, the strong enhancement of coastal aerosol population by shoreline wave breaking and its environmental impact on coastal communities cannot be captured by current regional models, which do not parameterize nearshore SSA generation using wave energy or completely neglect it.

Topics & Concepts

AerosolShoreEnvironmental scienceClimate changeBreaking waveSwellAtmospheric sciencesPopulationAir quality indexOceanographyCloud condensation nucleiStormClimatologyMeteorologyGeologyGeographyWave propagationPhysicsQuantum mechanicsDemographySociologyAtmospheric chemistry and aerosolsAtmospheric aerosols and cloudsOcean Waves and Remote Sensing
Shoreline wave breaking strongly enhances the coastal sea spray aerosol population: Climate and air quality implications | Litcius