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PFAS Exposure Pathways for Humans and Wildlife: A Synthesis of Current Knowledge and Key Gaps in Understanding
Environment and Climate Change Canada, Burlington, ON, Canada.
AES Armitage Environmental Sciences, Inc., Ottawa, ON, Canada.
Green Science Policy Institute, Berkeley, CA, USA.
Eastern Research Group, Inc. (ERG), Washington, DC, USA.
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2021 (English)In: Environmental Toxicology and Chemistry, ISSN 0730-7268, E-ISSN 1552-8618, Vol. 40, no 3, p. 631-657Article, review/survey (Refereed) Published
Abstract [en]

Here we synthesize current understanding of the magnitudes and methods for assessing human and wildlife exposures to poly- and perfluoroalkyl substances (PFAS). Most human exposure assessments have focused on two to five legacy PFAS and wildlife assessments are typically limited to targeted PFAS (up to ~30 substances). However, shifts in chemical production are occurring rapidly and targeted methods for detecting PFAS have not kept pace with these changes. Total fluorine (TF) measurements complemented by suspect screening using high resolution mass spectrometry are thus emerging as essential tools for PFAS exposure assessment. Such methods enable researchers to better understand contributions from precursor compounds that degrade into terminal perfluoroalkyl acids (PFAA). Available data suggest that diet is the major human exposure pathway for some PFAS but there is large variability across populations and PFAS compounds. Additional data on TF in exposure media and the fraction of unidentified organofluorine are needed. Drinking water has been established as the major exposure source in contaminated communities. As water supplies are remediated, and for the general population, exposures from dust, personal care products, indoor environments and other sources may be more important. A major challenge for exposure assessments is the lack of statistically representative population surveys. For wildlife, bioaccumulation processes differ substantially between PFAS and neutral lipophilic organic compounds, prompting a revaluation of traditional bioaccumulation metrics. There is evidence that both phospholipids and proteins are important for the tissue partitioning and accumulation of PFAS. New mechanistic models for PFAS bioaccumulation are being developed that will assist in wildlife risk evaluations.

Place, publisher, year, edition, pages
Pergamon Press, 2021. Vol. 40, no 3, p. 631-657
Keywords [en]
Bioaccumulation, drinking water, exposure assessment, organofluorine, toxicants, wildlife
National Category
Environmental Sciences
Identifiers
URN: urn:nbn:se:oru:diva-87451DOI: 10.1002/etc.4935ISI: 000612769000001PubMedID: 33201517Scopus ID: 2-s2.0-85099955563OAI: oai:DiVA.org:oru-87451DiVA, id: diva2:1501890
Note

Funding Agencies:

National Institute of Environmental Health Sciences' (NIEHS') Superfund Research Program P42ES007381

National Science Foundation (NSF) 1845336

US National Oceanic and Atmospheric Administration's Dr. Nancy Foster Scholarship program NA17NOS4290028

NIEHS Superfund Research Program P42ES027706

United States Department of Health & Human Services

National Institutes of Health (NIH) - USA

NIH National Institute of Environmental Health Sciences (NIEHS) P42ES027706 R01ES027813 R01ES028800

Strategic Environmental Research and Development Program ER18-1280

North Carolina PFAS Testing Network through the North Carolina Policy Collaboratory 

Available from: 2020-11-18 Created: 2020-11-18 Last updated: 2022-02-03Bibliographically approved

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Kärrman, Anna

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