Publication

PFAS in drinking water and serum of the people of a southeast Alaska community: A pilot study

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Last modified
  • 06/25/2025
Type of Material
Authors
    Maksat Babayev, Indiana UniversityStaci L Capozzi, Indiana UniversityPamela Miller, Alaska Community Action on ToxicsKelly R McLaughlin, Gustavus PFAS Action CoalitionSamarys Seguinot Medina, Alaska Community Action on ToxicsSamuel Byrne, Middlebury CollegeGuomao Zheng, Southern University of Science and TechnologyAmina Salamova, Emory University
Language
  • English
Date
  • 2022-04-18
Publisher
  • ELSEVIER SCI LTD
Publication Version
Copyright Statement
  • © 2024 Elsevier B.V.
License
Final Published Version (URL)
Title of Journal or Parent Work
Volume
  • 305
Start Page
  • 119246
End Page
  • 119246
Grant/Funding Information
  • Sample collection was supported by funding from the Cedar Tree Foundation and the Groundswell Catalyst Fund
Supplemental Material (URL)
Abstract
  • Per- and polyfluoroalkyl substances (PFAS) have become a target of rigorous scientific research due to their ubiquitous nature and adverse health effects. However, there are still gaps in knowledge about their environmental fate and health implications. More attention is needed for remote locations with source exposures. This study focuses on assessing PFAS exposure in Gustavus, a small Alaska community, located near a significant PFAS source from airport operations and fire training sites. Residential water (n = 25) and serum (n = 40) samples were collected from Gustavus residents and analyzed for 39 PFAS compounds. In addition, two water samples were collected from the previously identified PFAS source near the community. Fourteen distinct PFAS were detected in Gustavus water samples, including 6 perfluorinated carboxylic acids (PFCAs), 7 perfluorosulfonic acids (PFSAs), and 1 fluorotelomer sulfonate (FTS). ΣPFAS concentrations in residential drinking water ranged from not detected to 120 ng/L. High ΣPFAS levels were detected in two source samples collected from the Gustavus Department of Transportation (14,600 ng/L) and the Gustavus Airport (228 ng/L), confirming these two locations as a nearby major source of PFAS contamination. Seventeen PFAS were detected in serum and ΣPFAS concentrations ranged from 0.0170 to 13.1 ng/mL (median 0.0823 ng/mL). Perfluorooctanesulfonic acid (PFOS) and perfluorohexanesulfonic acid (PFHxS) were the most abundant PFAS in both water and serum samples and comprised up to 70% of ΣPFAS concentrations in these samples. Spearman's correlation analysis revealed PFAS concentrations in water and sera were significantly and positively correlated (r = 0.495; p = 0.0192). Our results confirm a presence of a significant PFAS source near Gustavus, Alaska and suggest that contaminated drinking water from private wells contributes to the overall PFAS body burden in Gustavus residents.
Author Notes
Keywords
Research Categories
  • Engineering, Environmental
  • Engineering, Biomedical
  • Health Sciences, Public Health
  • Environmental Sciences
  • Biology, General

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