Going With the Flow: Using a Particle Dispersion Model to Reveal Links Between Ocean Ecosystems and Marine Aerosols

Marine biogenic particle contributions to atmospheric aerosol concentrations are not well understood though they are important for determining cloud optical and cloud nucleating properties. Here we examine the relationship between marine aerosol measurements with satellite and model fields of ocean...

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Hauptverfasser:	Sanchez, Kevin J, Zhang, Bo, Liu, Hongyu, Saliba, Georges, Chen, Chia-Li, Shook, Michael Andrew, Crosbie, Ewan Colin, Ziemba, Luke David, Brown, Matthew Donald, Shingler, Taylor J, Robinson, Claire Elizabeth, Wiggins, Elizabeth Brooke, Thornhill, Kenneth L, Winstead, Edward L, Jordan, Carolyn, Quinn, Patricia, Bates, Timothy, Porter, Jack, Bell, Thomas G., Saltzman, Eric S., Behrenfeld, Michael J, Moore, Richard Herbert
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Sprache:	eng
Schlagworte:	Oceanography
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creator	Sanchez, Kevin J Zhang, Bo Liu, Hongyu Saliba, Georges Chen, Chia-Li Shook, Michael Andrew Crosbie, Ewan Colin Ziemba, Luke David Brown, Matthew Donald Shingler, Taylor J Robinson, Claire Elizabeth Wiggins, Elizabeth Brooke Thornhill, Kenneth L Winstead, Edward L Jordan, Carolyn Quinn, Patricia Bates, Timothy Porter, Jack Bell, Thomas G. Saltzman, Eric S. Behrenfeld, Michael J Moore, Richard Herbert
description	Marine biogenic particle contributions to atmospheric aerosol concentrations are not well understood though they are important for determining cloud optical and cloud nucleating properties. Here we examine the relationship between marine aerosol measurements with satellite and model fields of ocean biology and meteorological variables during the North Atlantic Aerosols and Marine Ecosystems Study (NAAMES). NAAMES consisted of four field campaigns between November 2015 and April 2018 that aligned with the four major phases of the annual phytoplankton bloom cycle. The FLEXPART Lagrangian particle dispersion model is used to connect these variables spatiotemporally to ship-based aerosol. We find that correlations between some aerosol measurements with satellite measured and modelled variables increase with increasing trajectory length. This indicates biological and meteorological processes over the air mass history are influential to measured particle properties. For example, results show organic aerosol mass is driven by biogenic volatile organic compound (VOC) emissions from photosynthesis by phytoplankton stocks during advection into the region. In contrast, primary marine aerosol (PMA) concentrations showed better correlations to variables weighted with shorter air mass residence times, which reflects their localized origin as primary emissions. Evidence also suggest variability in PMA concentrations likely play an important role in VOC emission removal. The removal of VOCs lessen their impact on particle number and mass concentrations. The sensitivity of marine aerosols to the main ecosystem-atmosphere drivers and its dependence on air mass history are to be further discussed.
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title	Going With the Flow: Using a Particle Dispersion Model to Reveal Links Between Ocean Ecosystems and Marine Aerosols
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