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Connecting marine productivity to sea-spray via nanoscale biological processes: Phytoplankton Dance or Death Disco?
O'Dowd, C.; Ceburnis, D.; Ovadnevaite, J.; Bialek, J.; Connan, S.; Stengel, D.B.; Zacharias, M.; Nitschke, U.; Rinaldi, M.; Fuzzi, S.; Decesari, S.; Facchini, M.C.; Marullo, S.; Santoleri, R.; Dell'Anno, A.; Corinaldesi, C.; Tangherlini, M.; Danovaro, R. (2015). Connecting marine productivity to sea-spray via nanoscale biological processes: Phytoplankton Dance or Death Disco? NPG Scientific Reports 5(14883): 11 pp. http://dx.doi.org/10.1038/srep14883
In: Scientific Reports (Nature Publishing Group). Nature Publishing Group: London. ISSN 2045-2322; e-ISSN 2045-2322, more
Peer reviewed article  

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Keyword
    Marine/Coastal

Authors  Top 
  • O'Dowd, C.
  • Ceburnis, D.
  • Ovadnevaite, J.
  • Bialek, J.
  • Connan, S.
  • Stengel, D.B.
  • Zacharias, M.
  • Nitschke, U.
  • Rinaldi, M.
  • Fuzzi, S.
  • Decesari, S.
  • Facchini, M.C.
  • Marullo, S.
  • Santoleri, R.
  • Dell'Anno, A.
  • Corinaldesi, C.
  • Tangherlini, M.
  • Danovaro, R., more

Abstract
    Bursting bubbles at the ocean-surface produce airborne salt-water spray-droplets, in turn, forming climate-cooling marine haze and cloud layers. The reflectance and ultimate cooling effect of these layers is determined by the spray’s water-uptake properties that are modified through entrainment of ocean-surface organic matter (OM) into the airborne droplets. We present new results illustrating a clear dependence of OM mass-fraction enrichment in sea spray (OMss) on both phytoplankton-biomass, determined from Chlorophyll-a (Chl-a) and Net Primary Productivity (NPP). The correlation coefficient for OMss as a function of Chl-a increased form 0.67 on a daily timescale to 0.85 on a monthly timescale. An even stronger correlation was found as a function of NPP, increasing to 0.93 on a monthly timescale. We suggest the observed dependence is through the demise of the bloom, driven by nanoscale biological processes (such as viral infections), releasing large quantities of transferable OM comprising cell debris, exudates and other colloidal materials. This OM, through aggregation processes, leads to enrichment in sea-spray, thus demonstrating an important coupling between biologically-driven plankton bloom termination, marine productivity and sea-spray modification with potentially significant climate impacts.

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