Technical BRIEF
INNOVATIVE RESEARCH FOR A SUSTAINABLE FUTURE
www.epa.gov/research
Perfluoroalkyl and Polyfluoroalkyl Substances (PFAS)
Methods and guidance for sampling and analyzing water and other environmental media
Background
Per- and polyfluoroalkyl substances (PFAS) are a group of
synthetic chemicals that have been in use since the
1940s. PFAS are found in a wide array of consumer and
industrial products. PFAS manufacturing and processing
facilities, facilities using PFAS in production of other
goods, airports, and military installations are some of the
contributors of PFAS releases into the air, soil, and water.
Due to their widespread use and persistence in the
environment, most people in the United States have been
exposed to PFAS. There is evidence that continued
exposure above specific levels to certain PFAS may lead to
adverse health effects. The U.S. Environmental Protection
Agency (EPA) will continue to partner with other federal
agencies, states, tribes, and local communities to protect
human health and, where necessary and appropriate, to
limit human exposure to potentially harmful levels of
PFAS in the environment.
EPA's methods for analyzing PFAS in environmental media
are in various stages of development and validation. The
Agency is working to develop validated analytical
methods for groundwater, surface water, wastewater,
and solids, including soils, sediments, biota, and biosolids.
Drinking Water
Analysis of PFAS using Method 537.1
To assess for potential human exposure to PFAS in
drinking water, EPA's validated Method 537.1 will ensure
that both government and private laboratories can
effectively measure 18 PFAS in drinking water, which is a
critical step for estimating exposure and potential health
risks to PFAS. EPA Method 537 was first published in 2009
to initially determine 14 different PFAS. In 2018, the
method was updated to include 4 more PFAS, including
the GenX chemical hexafluoropropylene oxide dimer
acid (HFPO-DA).
Analysis of Short-Chain PFAS using Method 533
EPA developed and validated EPA Method 533 to target
"short chain" PFAS (none greater than C12), including
perfluorinated acids, sulfonates, fluorotelemers, and
poly/perfluorinated ether carboxylic acids. Many of these
U.S. Environmental Protection Agency
In 2019, EPA published validated SW-846
Method 8327for non-potable water and
Method 533 for analysis of short-chain PFAS
in drinking water.
could not be analyzed using 537.1 due to physicochemical
properties. In December 2019, EPA published Method
533, which includes a total of 25 PFAS (14 of the 18 PFAS
in 537.1 plus an additional 11 "short chain" PFAS) and
specifies isotope dilution quantitation.
Health Advisories
In May 2016, EPA issued drinking water health advisories
for two types of PFAS: perfluorooctanoic acid (PFOA) and
perfluorooctanesulfonic acid (PFOS). EPA's health
advisories are non-regulatory and non-enforceable, and
are intended to provide technical information to state
agencies and other public health officials on health
effects, analytical methodologies, and treatment
technologies associated with drinking water
contamination.
Non-Potable Water
Analysis of PFAS using SW-846 Method 8327
EPA developed a direct injection liquid chromatography
tandem mass spectrometry method, EPA SW-846 Method
8327, that utilizes external calibration for analysis of 24
PFAS in non-potable water (not of drinking quality). After
a multi-lab validation in surface water, groundwater, and
wastewater effluent, EPA posted the validated SW-846
Method 8327 in June 2019 for public comment.
EPA/600/F-17/022h | Updated January 2020

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EPA SW-846 Method 8327 is available for public use while
EPA is adjudicating public comments. Consistent with
most SW-846 methods, EPA provides the method as
guidance; the use of this method is not specified in any
federal testing requirements. Method 8327 is designed
for high-throughput applications and supports interim
recommendations for groundwater contaminated with
PFOA and PFOS; however, for some analytes and
matrices, it may not be sensitive enough for very low-
level (i.e., single ng/L) project requirements.
Non-Potable Water and other
Environmental Media
Validation of SPE-ID Method for PFAS Analysis
EPA is collaborating with the Department of Defense's
Naval Seas Systems Command Laboratory Quality and
Accreditation Office and SGS-AXYS to validate a solid-
phase extraction/isotope dilution (SPE-ID) method. The
method will include solid matrices (e.g., soil, sediment,
fish tissue, biosolids) in addition to non-drinking water
aqueous matrices.
In addition to the 24 analytes included in draft SW-846
Method 8327, EPA plans to include additional analytes for
the SPE-ID Method to include analytes recently added to
EPA Method 537. Single-laboratory validation of the SPE-
ID protocol is targeted for winter 2020 and multi-
laboratory validation will likely follow in 2021.
Evaluating Methods for Total PFAS Assessments
EPA will also begin evaluating methods for total organic
fluoride (TOF) analyses in 2020. An effective TOF method
will facilitate broad assessments of total PFAS in
environmental samples.
Developing Sampling and Storage Methods
EPA ran time-based studies on degradation or loss of
target analytes during sample storage (45 days) and
assessed the effects of different sample vessel materials
(e.g., plastic, glass) on analyte recovery. Based on these
sampling and storage studies, EPA methods under
development will recommend using PFAS-free, plastic
containers (e.g., high-density polyethylene containers);
whole sample preparation; and sample holding times of
28 days. EPA will also develop guidelines for field
sampling, which are critical for minimizing sample
contamination and optimizing data quality for site
characterization and remediation.
Due to the widespread use of PFAS, many materials
normally used in field and laboratory operations contain
PFAS. For example, polytetrafluoroethylene products
(tubing, sample containers, and sampling tools) are often
used in sampling; however, since these products can
contain PFAS, they cannot be used in sampling for PFAS.
In addition, many consumer goods brought to a sampling
site may contain PFAS that can contaminate samples.
Field sampling and laboratory hygiene protocols are
critical to ensuring that testing results reflect actual PFAS
levels in the analyzed media. The Interstate Technology
and Regulatory Council has summarized site
characterization, sampling precautions, and analytical
method issues and options through their fact sheet series.
Contacts
Technical Contacts
•	Chris Impellitteri, impellitteri.christopher@epa.gov
•	Schatzi Fitz-James, fitz-james.schatzi@epa.gov
•	Cynthia Caporale, caporale.cynthia@epa.gov
Communications Contact
•	Michelle Latham, latham.michelle@epa.gov
Additional Information
EPA Method 537.1:
cfpub.epa.gov/si/si public record Report.cfm?dirE
ntrvld=343042&Lgb=NERL
EPA Method 533:
epg.gov/dwgnglvticglmethods/method-533-
determingtion-gnd-polvfluoroglkvl-substgnces-
drinking-wgter-isotope
•	SW-846 Method 8327:
epg.gov/hw-sw846/vglidgted-test-method-8327-
gnd-polvfluoroglkvl-substgnces-pfgs-using-externgl-
stgndgrd
•	PFOA & PFOS Drinking Water Health Advisories:
epg.gov/ground-wgter-gnd-drinking-wgter/
drinking-wgter-heglth-gdvisories-pfog-gnd-pfos
•	UCMR3: epg.gov/dwucmr/third-unregulgted-
contgmingnt-monitoring-rule
•	Interstate Technology and Regulatory Council
PFAS Fact Sheets: pfgs-1.itrcweb.org/fgct-sheets/
•	PFAS in Your Environment: epg.gov/pfgs
•	Clean-Up Information: clu-in.org/
Disclaimer: This document is for informational purposes
only. Any mention of or reference to commercial products,
processes, or services by trade name, trademark,
manufacturer, or otherwise does not imply an endorsement
by the U.S. Government or the U.S. Environmental
Protection Agency and shall not be used for advertising or
product endorsement purposes. EPA does not endorse any
commercial products, services, or enterprises.
U.S. Environmental Protection Agency

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