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Main Authors: Kesic, Robert, Elliott, John E, Lamont, Myles, Lee, Sandi L, Cheng, Kimberly M, Maisonneuve, France
Format: Artículo científico
Language:en
Published: Environmental science & technology 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41841382/
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author Kesic, Robert
Elliott, John E
Lamont, Myles
Lee, Sandi L
Cheng, Kimberly M
Maisonneuve, France
author_facet Kesic, Robert
Elliott, John E
Lamont, Myles
Lee, Sandi L
Cheng, Kimberly M
Maisonneuve, France
Kesic, Robert
Elliott, John E
Lamont, Myles
Lee, Sandi L
Cheng, Kimberly M
Maisonneuve, France
collection PubMed - marine biology
contents Using a Multi-Tracer Approach to Examine Perfluoroalkyl Substance Sources and Dietary Exposure Pathways in Pacific Bald Eagles. Kesic, Robert Elliott, John E Lamont, Myles Lee, Sandi L Cheng, Kimberly M Maisonneuve, France Animals Eagles Fluorocarbons Dietary Exposure Food Chain British Columbia Environmental Monitoring Perfluoroalkyl substances (PFAS) are globally distributed contaminants that bioaccumulate in avian apex predators, yet species-specific bioaccumulation processes and links to dietary sources remain poorly resolved. Using an integrative, multi-habitat sampling framework, we blood sampled 89 bald eagle () nestlings across eight regions from the Pacific coast of British Columbia (BC), Canada and quantified 17 PFAS. We paired contaminant data with stable isotope analyses (δN, δC, δS) to characterize trophic position and habitat use, and fatty acid (FA) profiling to partition aquatic vs terrestrial prey sources, while modeling biological covariates. Our most parsimonious model describing spatial variation in PFAS exposure included region and nestling age. PFAS profiles were dominated by PFOS (mean = 23.5; range 2.1-159 ng/mL), comprising 33-72% of ∑ PFAS, with remaining burdens composed of PFNA, PFDA, PFUdA, and PFTrDA. Stable isotopes did not uniformly predict PFAS concentrations; however, PFUdA and PFTrDA were positively correlated with δC and ∑ Omega-3 FAs, consistent with marine-derived diets. PFOS and PFHxS were negatively correlated with ∑ Omega-6 FAs, suggesting greater biomagnification in nestlings feeding within terrestrial or mammalian food webs. To our knowledge, this work represents the first comprehensive assessment of PFAS exposure in Pacific bald eagles and is also one of the first attempts to apply a multi-dietary tracer approach to contextualize habitat use and dietary pathways of PFAS in a regional apex predator.
format Artículo científico
id pubmed_41841382
institution PubMed
language en
publishDate 2026
publisher Environmental science & technology
record_format pubmed
spellingShingle Using a Multi-Tracer Approach to Examine Perfluoroalkyl Substance Sources and Dietary Exposure Pathways in Pacific Bald Eagles.
Kesic, Robert
Elliott, John E
Lamont, Myles
Lee, Sandi L
Cheng, Kimberly M
Maisonneuve, France
Animals
Eagles
Fluorocarbons
Dietary Exposure
Food Chain
British Columbia
Environmental Monitoring
Using a Multi-Tracer Approach to Examine Perfluoroalkyl Substance Sources and Dietary Exposure Pathways in Pacific Bald Eagles. Kesic, Robert Elliott, John E Lamont, Myles Lee, Sandi L Cheng, Kimberly M Maisonneuve, France Animals Eagles Fluorocarbons Dietary Exposure Food Chain British Columbia Environmental Monitoring Perfluoroalkyl substances (PFAS) are globally distributed contaminants that bioaccumulate in avian apex predators, yet species-specific bioaccumulation processes and links to dietary sources remain poorly resolved. Using an integrative, multi-habitat sampling framework, we blood sampled 89 bald eagle () nestlings across eight regions from the Pacific coast of British Columbia (BC), Canada and quantified 17 PFAS. We paired contaminant data with stable isotope analyses (δN, δC, δS) to characterize trophic position and habitat use, and fatty acid (FA) profiling to partition aquatic vs terrestrial prey sources, while modeling biological covariates. Our most parsimonious model describing spatial variation in PFAS exposure included region and nestling age. PFAS profiles were dominated by PFOS (mean = 23.5; range 2.1-159 ng/mL), comprising 33-72% of ∑ PFAS, with remaining burdens composed of PFNA, PFDA, PFUdA, and PFTrDA. Stable isotopes did not uniformly predict PFAS concentrations; however, PFUdA and PFTrDA were positively correlated with δC and ∑ Omega-3 FAs, consistent with marine-derived diets. PFOS and PFHxS were negatively correlated with ∑ Omega-6 FAs, suggesting greater biomagnification in nestlings feeding within terrestrial or mammalian food webs. To our knowledge, this work represents the first comprehensive assessment of PFAS exposure in Pacific bald eagles and is also one of the first attempts to apply a multi-dietary tracer approach to contextualize habitat use and dietary pathways of PFAS in a regional apex predator.
title Using a Multi-Tracer Approach to Examine Perfluoroalkyl Substance Sources and Dietary Exposure Pathways in Pacific Bald Eagles.
topic Animals
Eagles
Fluorocarbons
Dietary Exposure
Food Chain
British Columbia
Environmental Monitoring
url https://pubmed.ncbi.nlm.nih.gov/41841382/