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Assessing the trophic ecology and migration on the exposure of cape petrels and Wilson's storm petrels from Antarctica to perfluoroalkylated substances, trace and major elements
Padilha, J.A.G.; Santos, S.; Willems, T.; Souza-Kasprzyk, J.; Leite, A.; Cunha, L.S.T.; Costa, E.S.; Pessoa, A.R.; Eens, M.; Prinsen, E.; Torres, J.P.M.; Das, K.; Lepoint, G.; Dorneles, P.R.; Bervoets, L.; Groffen, T. (2024). Assessing the trophic ecology and migration on the exposure of cape petrels and Wilson's storm petrels from Antarctica to perfluoroalkylated substances, trace and major elements. Environ. Res. 244: 117827. https://dx.doi.org/10.1016/j.envres.2023.117827
In: Environmental Research. Elsevier: Amsterdam. ISSN 0013-9351; e-ISSN 1096-0953, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoorden
    Aves [WoRMS]; Daption capense (Linnaeus, 1758) [WoRMS]; Oceanites oceanicus (Kuhl, 1820) [WoRMS]
Author keywords
    Metals; PFAS; Seabirds; Feathers; Polar environment

Auteurs  Top 
  • Padilha, J.A.G.
  • Santos, S.
  • Willems, T., meer
  • Souza-Kasprzyk, J.
  • Leite, A.
  • Cunha, L.S.T.
  • Costa, E.S.
  • Pessoa, A.R.
  • Eens, M., meer
  • Prinsen, E.
  • Torres, J.P.M.

Abstract
    Chemical pollution is a global concern as contaminants are transported and reach even the remote regions of Antarctica. serve as important sentinels of pollution due to their high trophic position and wide distribution. This study examines the influence of migration and trophic ecology on the exposure of two Antarctic , Wilson's storm petrel (Oceanites oceanicus - Ooc), and Cape petrel (Daption capense - Dca), to chemical elements and perfluoroalkyl substances (PFAS). Our methodology involved assessing the concentration of these pollutants in feather samples obtained from carcasses, offering a practical means for monitoring contamination. Trace and major element concentrations were comparable in both species, suggesting that migratory patterns have a minimal impact on exposure levels. However, Ooc had higher concentration of PFAS compared to Dca (mean, ng g(-1) dry weight, PFOA: Ooc:0.710, Dca:0.170; PFTrDA: Ooc:0.550, Dca:0.360, and PFTeDA: Ooc:1.01, Dca:0.190), indicating that migration to the more polluted Northern Hemisphere significantly affects PFAS exposure. Furthermore, while no strong associations were found between either trace elements or PFAS and the three stable isotopes (delta C-13, delta N-15, and delta S-34), a negative association was observed between PFUnDA and d15N, hinting at potential biodilution. The research concludes that the migratory patterns of these seabird species affect their PFAS exposure, underscoring the critical need for further exploration and understanding of these relationships to better inform conservation strategies.

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