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High concentrations of perfluoroalkyl acids in Arctic seawater driven by early thawing sea ice
Garnett, J.; Halsall, C.; Vader, A.; Joerss, H.; Ebinghaus, R.; Leeson, A.; Wynn, P.M. (2021). High concentrations of perfluoroalkyl acids in Arctic seawater driven by early thawing sea ice. Environ. Sci. Technol. 55(16): 11049-11059. https://dx.doi.org/10.1021/acs.est.1c01676
In: Environmental Science and Technology. American Chemical Society: Easton. ISSN 0013-936X; e-ISSN 1520-5851, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Author keywords
    PFAS, Arctic, sea ice, seawate,r snow, meltpond, chemical exposure

Auteurs  Top 
  • Garnett, J.
  • Halsall, C.
  • Vader, A.
  • Joerss, H.
  • Ebinghaus, R., meer
  • Leeson, A.
  • Wynn, P.M.

Abstract
    Poly- and perfluoroalkyl substances are synthetic chemicals that are widely present in the global environment including the Arctic. However, little is known about how these chemicals (particularly perfluoroalkyl acids, PFAA) enter the Arctic marine system and cycle between seawater and sea ice compartments. To evaluate this, we analyzed sea ice, snow, melt ponds, and near-surface seawater at two ice-covered stations located north of the Barents Sea (81 °N) with the aim of investigating PFAA dynamics in the late-season ice pack. Sea ice showed high concentrations of PFAA particularly at the surface with snow-ice (the uppermost sea ice layer strongly influenced by snow) comprising 26–62% of the total PFAA burden. Low salinities (<2.5 ppt) and low δ18OH20 values (<1‰ in snow and upper ice layers) in sea ice revealed the strong influence of meteoric water on sea ice, thus indicating a significant atmospheric source of PFAA with subsequent transfer down the sea ice column in meltwater. Importantly, the under-ice seawater (0.5 m depth) displayed some of the highest concentrations notably for the long-chain PFAA (e.g., PFOA 928 ± 617 pg L–1), which were ≈3-fold higher than those of deeper water (5 m depth) and ≈2-fold higher than those recently measured in surface waters of the North Sea infuenced by industrial inputs of PFAAs. The evidence provided here suggests that meltwater arising early in the melt season from snow and other surface ice floe components drives the higher PFAA concentrations observed in under-ice seawater, which could in turn influence the timing and extent of PFAA exposure for organisms at the base of the marine food web.

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