Hydrography, inorganic nutrients and chlorophyll a linked to sea ice cover in the Atlantic Water inflow region north of Svalbard
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https://hdl.handle.net/10037/31918Date
2023-11-04Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Renner, Angelika; Bailey, Allison Michelle; Reigstad, Marit; Sundfjord, Arild; Chierici, Melissa; Jones, Elizabeth MarieAbstract
Changes in the inflow of Atlantic Water (AW) and its properties to the Arctic Ocean bring more warm water,
contribute to sea ice decline, promote borealisation of marine ecosystems, and affect biological and particularly
primary productivity in the Eurasian Arctic Ocean. One of the two branches of AW inflow follows the shelf
break north of Svalbard, where it dominates oceanographic conditions, bringing in heat, salt, nutrients and
organisms. However, the interplay with sea ice and Polar Surface Water (PSW) determines the supply of
nutrients to the euphotic layer especially northeast of Svalbard where AW subducts below PSW. In an effort to
build up a time series monitoring the key characteristics of the AW inflow, repeat sampling of hydrography,
macronutrients (nitrate, phosphate and silicate), and chlorophyll a (chl a) was undertaken along a transect
across the AW inflow at 31◦E, 81.5◦N since 2012 — first during late summer and in later years during early
winter. Such time series are scarce but invaluable for investigating the range of variability in hydrography and
nutrient concentrations. We investigate linkages between late summer hydrographic conditions and nutrient
concentrations along the transect and the preceding seasonal dynamics of surface chl a and sea ice cover in the
region north of Svalbard. We find large interannual variability in hydrography, nutrients and chl a, indicating
varying levels of nutrient drawdown by primary producers over summer. Sea ice conditions varied considerably
between the years, impacting upper ocean stratification, light availability and potential wind-driven mixing,
with a strong potential for steering chl a concentration over the productive season. Early winter measurements
show variable efficiency of nutrient re-supply through vertical mixing when stratification was low, related
to autumn wind forcing and sea ice conditions. While this re-supply elevates nutrient levels sufficiently for
primary production, it likely happens too late in the season when light levels are already low, limiting the
potential for autumn blooms. Such multidisciplinary observations provide insight into the interplay between
physical, chemical and biological drivers in the marine environment and are key to understanding ongoing
and future changes, especially at this entrance to the central Arctic Ocean.
Publisher
ElsevierCitation
Renner AHH, Bailey A, Reigstad M, Sundfjord A, Chierici M, Jones EM. Hydrography, inorganic nutrients and chlorophyll a linked to sea ice cover in the Atlantic Water inflow region north of Svalbard. Progress in Oceanography. 2023Metadata
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