An under‑ice bloom of mixotrophic haptophytes in low nutrient and freshwater‑influenced Arctic waters

The pelagic spring bloom is essential for Arctic marine food webs, and a crucial driver of carbon transport to the ocean depths. A critical challenge is understanding its timing and magnitude, to predict its changes in coming decades. Spring bloom onset is typically light-limited, beginning when irr...

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Bibliographic Details
Published in:Scientific Reports
Main Authors: Søgaard, Dorte H., Sorrell, Brian K., Sejr, Mikael K., Andersen, Per, Rysgaard, Søren, Hansen, Per Juel, Skyttä, Annaliina, Lemcke, Signe, Lund-Hansen, Lars Chresten
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Arctic
Arctic Ocean
Sea ice
Online Access:https://curis.ku.dk/portal/da/publications/an-underice-bloom-of-mixotrophic-haptophytes-in-low-nutrient-and-freshwaterinfluenced-arctic-waters(b491f93a-6594-448c-9310-4250a1f263e7).html
https://doi.org/10.1038/s41598-021-82413-y
https://curis.ku.dk/ws/files/256572005/An_under_ice_bloom_of_mixotrophic_haptophytes_in_low_nutrient_and_freshwater_influenced_Arctic_waters.pdf
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Summary:The pelagic spring bloom is essential for Arctic marine food webs, and a crucial driver of carbon transport to the ocean depths. A critical challenge is understanding its timing and magnitude, to predict its changes in coming decades. Spring bloom onset is typically light-limited, beginning when irradiance increases or during ice breakup. Here we report an acute 9-day under-ice algal bloom in nutrient-poor, freshwater-influenced water under 1-m thick sea ice. It was dominated by mixotrophic brackish water haptophytes (Chrysochromulina/ Prymnesium) that produced 5.7 g C m−2 new production. This estimate represents about half the annual pelagic production, occurring below sea ice with a large contribution from the mixotrophic algae bloom. The freshwater-influenced, nutrient dilute and low light environment combined with mixotrophic community dominance implies that phagotrophy played a critical role in the under-ice bloom. We argue that such blooms dominated by potentially toxic mixotrophic algae might become more common and widespread in the future Arctic Ocean.

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