Seasonal environmental transitions and metabolic plasticity in a sea-ice alga from an individual cell perspective
Duncan, Rebecca J.; Søreide, Janne; Nielsen, Daniel A.; Varpe, Øystein; Wiktor, Józef; Tobin, Mark J.; Pitusi, Vanessa; Petrou, Katherina
Peer reviewed, Journal article
Published version
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https://hdl.handle.net/11250/3150960Utgivelsesdato
2024Metadata
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Sammendrag
Sea-ice microalgae are a key source of energy and nutrient supply to polar marine food webs,
particularly during spring, prior to open-water phytoplankton blooms. The nutritional quality of
microalgae as a food source depends on their biomolecular (lipid:protein:carbohydrate) composition.
In this study, we used synchrotron-based Fourier transform infra-red microspectroscopy (s-FTIR) to
measure the biomolecular content of a dominant sea-ice taxa, Nitzschia frigida, from natural land-fast
ice communities throughout the Arctic spring season. Repeated sampling over six weeks from an inner
(relatively stable) and an outer (relatively dynamic) ford site revealed high intra-specifc variability in
biomolecular content, elucidating the plasticity of N. frigida to adjust to the dynamic sea ice and water
conditions. Environmental triggers indicating the end of productivity in the ice and onset of ice melt,
including nitrogen limitation and increased water temperature, drove an increase in lipid and fatty
acids stores, and a decline in protein and carbohydrate content. In the context of climate change and
the predicted Atlantifcation of the Arctic, dynamic mixing and abrupt warmer water advection could
truncate these important end-of-season environmental shifts, causing the algae to be released from
the ice prior to adequate lipid storage, infuencing carbon transfer through the polar marine system.