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Unexpected winter phytoplankton blooms in the North Atlantic subpolar gyre
Lacour, L.; Ardyna, M.; Stec, K.F.; Claustre, H.; Prieur, L.; Poteau, A.; Ribera d’Alcalà, M.; Iudicone, D. (2017). Unexpected winter phytoplankton blooms in the North Atlantic subpolar gyre. Nature Geoscience 10(11): 836-839. https://dx.doi.org/10.1038/ngeo3035
In: Nature Geoscience. Nature Publishing Group: London. ISSN 1752-0894; e-ISSN 1752-0908, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Auteurs  Top 
  • Lacour, L.
  • Ardyna, M.
  • Stec, K.F.
  • Claustre, H.
  • Prieur, L.
  • Poteau, A.
  • Ribera d’Alcalà, M., meer
  • Iudicone, D.

Abstract
    In mid- and high-latitude oceans, winter surface cooling and strong winds drive turbulent mixing that carries phytoplankton to depths of several hundred metres, well below the sunlit layer. This downward mixing, in combination with low solar radiation, drastically limits phytoplankton growth during the winter, especially that of the diatoms and other species that are involved in seeding the spring bloom. Here we present observational evidence for widespread winter phytoplankton blooms in a large part of the North Atlantic subpolar gyre from autonomous profiling floats equipped with biogeochemical sensors. These blooms were triggered by intermittent restratification of the mixed layer when mixed-layer eddies led to a horizontal transport of lighter water over denser layers. Combining a bio-optical index with complementary chemotaxonomic and modelling approaches, we show that these restratification events increase phytoplankton residence time in the sunlight zone, resulting in greater light interception and the emergence of winter blooms. Restratification also caused a phytoplankton community shift from pico- and nanophytoplankton to phototrophic diatoms. We conclude that transient winter blooms can maintain active diatom populations throughout the winter months, directly seeding the spring bloom and potentially making a significant contribution to over-winter carbon export.

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