Aarhus University Seal / Aarhus Universitets segl

Rune Dietz

Fluorine Mass Balance and Suspect Screening in Marine Mammals from the Northern Hemisphere

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisTidsskriftartikelForskningpeer review


  • Kyra M. Spaan, Stockholm University
  • ,
  • Carmen van Noordenburg, Stockholm University
  • ,
  • Merle M. Plassmann, Stockholm University
  • ,
  • Lara Schultes, Stockholm University
  • ,
  • Susan Shaw, Maine 04614 United States
  • ,
  • Michelle Berger, Maine 04614 United States
  • ,
  • Mads Peter Heide-Jørgensen, Greenland Institute of Natural Resources
  • ,
  • Aqqalu Rosing-Asvid, Greenland Institute of Natural Resources
  • ,
  • Sandra M. Granquist, Marine and Freshwater Research Institute, Icelandic Seal Center
  • ,
  • Rune Dietz
  • Christian Sonne
  • Frank Rigét
  • Anna Roos, Greenland Institute of Natural Resources, Naturhistoriska Riksmuseet
  • ,
  • Jonathan P. Benskin, Stockholm University

There is increasing evidence that the ∼20 routinely monitored perfluoroalkyl and polyfluoroalkyl substances (PFASs) account for only a fraction of extractable organofluorine (EOF) occurring in the environment. To assess whether PFAS exposure is being underestimated in marine mammals from the Northern Hemisphere, we performed a fluorine mass balance on liver tissues from 11 different species using a combination of targeted PFAS analysis, EOF and total fluorine determination, and suspect screening. Samples were obtained from the east coast United States (US), west and east coast of Greenland, Iceland, and Sweden from 2000 to 2017. Of the 36 target PFASs, perfluorooctane sulfonate (PFOS) dominated in all but one Icelandic and three US samples, where the 7:3 fluorotelomer carboxylic acid (7:3 FTCA) was prevalent. This is the first report of 7:3 FTCA in polar bears (∼1000 ng/g, ww) and cetaceans (<6-190 ng/g, ww). In 18 out of 25 samples, EOF was not significantly greater than fluorine concentrations derived from sum target PFASs. For the remaining 7 samples (mostly from the US east coast), 30-75% of the EOF was unidentified. Suspect screening revealed an additional 37 PFASs (not included in the targeted analysis) bringing the total to 63 detected PFASs from 12 different classes. Overall, these results highlight the importance of a multiplatform approach for accurately characterizing PFAS exposure in marine mammals.

TidsskriftEnvironmental Science & Technology
Sider (fra-til)4046-4058
Antal sider13
StatusUdgivet - 2020

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