U.S. Environmental Protection Agency

Groundwater Monitoring of
Polychlorinated Biphenyls (PCBs)

Filtered vs. Unfiltered Sampling

March 2024

The purpose of this fact sheet is to provide information on
groundwater sampling results related to filtered versus unfiltered
samples tested for PCBs. The intended audience for this fact sheet is
environmental professionals familiar with groundwater sampling.

PCBs in Groundwater

Generally, PCBs are hydrophobic and do not like mixing with water.
Therefore, PCBs are more typically found in soil rather than
groundwater. However, PCB contamination may be present in
groundwater because of facilitated transport associated with solvents,
emulsions, or other colloids.

The EPA evaluates groundwater contamination based on unfiltered
samples as filtering can remove some of the content in the sample
and may provide inaccurate results. Both filtered and unfiltered
samples might be presented in a report, but unfiltered samples
capture undissolved contaminants needed for the determination of
regulatory status. Thus, it's important that factors such as sampling
techniques and turbidity be evaluated to eliminate the need to filter
the sample.

D

EPA-530-F-24-008

Polychlorinated Biphenyls (PCBs)

PCBs were domestically
manufactured from 1929 until 1979.
Fabrication was banned in 1979
under the Toxic Substances Control
Act (TSCA), with some products and
processes excluded. PCBs were used
extensively as coolants in hydraulic
systems and as dielectric fluids in
electrical equipment as well as many
other applications. PCBs may still be
present in products and materials
produced before 1979 (including oil
used in motors and hydraulic
systems) or in excluded
manufacturing processes, as defined
in Title 40 of the Code of Federal
Regulations Section 761.3, and can
still be released into the
environment, where they do not
readily break down. PCBs have been
identified as probable human
carcinogens and cause a variety of
non-cancer health effects as well.1

Turbidity in Groundwater

Turbidity is the measure of relative clarity of a liquid. It is an optical
characteristic of water, measured as the amount of light scattered by
material in the water when a light is shined through the water sample.

The higher the amount of scattered light, the higher the turbidity, representing cloudier water with more
particles throughout. The measurement of turbidity is a key test of both water clarity and water quality.
Turbidity in groundwater samples is measured in nephelometric turbidity units (NTUs). The lower the NTUs,
the clearer the water. Turbidity in groundwater samples is caused by aquifer solids (e.g., sand, silt, clay)
suspended in the water, which can cause unintended sampling of the sediment instead of the groundwater.
Turbidity in groundwater sampling is minimized by proper well development (discussed below) and low
flow sampling techniques.

Disclaimer: The recommendations in this document do not impose legally binding requirements and will not be implemented as
binding in practice. They do not impose any obligations on private parties nor are they intended to direct the activities of any other
federal, state, or local agency or to limit the exercise of their legal authority.
1 https://epa.gOv/pcbs/learn-about-polychlorinated-biphenyls-pcbs#healtheffects

-------
U.S. Environmental Protection Agency	March 2024

Page 2

Groundwater Well Development

For chemical waste landfills, the TSCA PCB regulations require that all
groundwater monitoring wells be cased, and that the annular space
between the monitoring zone (zone of saturation) and the surface be
completely backfilled with Portland cement or an equivalent material to
effectively prevent percolation of surface water into the well bore. The
well opening at the surface needs a removable cap to provide access and
prevent entrance of rainfall or stormwater runoff. The well needs to be
pumped to remove the volume of liquid initially contained in the well
before obtaining a sample for analysis. The discharge should be treated to meet applicable state or federal
discharge standards or recycled to the chemical waste landfill (Title 40, Code of Federal Regulations, section
761.75(b)(6)(ii)). If PCB groundwater monitoring is required at other sites, similar conditions may apply.

One of the major goals of well development is to produce a well capable of consistently yielding
groundwater samples of acceptably low turbidity. Groundwater samples with excess turbidity may contain
PCBs sorbed onto soil particles, which can alter water quality and result in erroneous chemical analysis.
Proper well development creates a graded filter pack around the well screen by pumping out the finer
grained particles from the filter pack. When pumping is first initiated, natural materials in a wide range of
grain sizes are drawn into the well, producing very turbid water. As well development continues, the
natural materials are retained by the filter pack, producing progressively thinner layers of coarse particles
against the well screen until an effective graded filter is produced, minimizing turbidity. Prior to collecting a
sample, turbidity readings should be taken while purging the well, not later at a laboratory. The point of the
purging and stabilization process is to get a low flow sample with the lowest amount of turbidity possible
and to stabilize other water quality parameters (e.g., pH, temperature, conductivity, redox potential). The
well should be sampled with as little interruption in pumping and flow rate as possible, to avoid causing
disturbances that may result in higher turbidity.

Options for Addressing Turbidity in a Groundwater Sample

In addition to proper well development, turbidity meters should be calibrated prior to sampling. Turbidity
meters are optical-light transmission tools, and keeping the sensor and sample container clean is crucial. If
turbidity or other parameters are an issue in the groundwater samples (i.e., turbidity >10 NTUs), further
well development or well replacement may be needed. If well replacement is needed, the well should be
installed with a properly designed sand pack grain size and slot size for the well screen. Consult with your
Regional PCB Coordinator to identify the appropriate course of action (i.e., well placement or alternative
method of purging or alternative casing).

If the reconditioned wells continue to produce samples with unacceptable turbidity, samples should still be
analyzed unfiltered. A duplicate sample may be taken and filtered with a 2-micron filter. However, the EPA
bases its regulatory decisions on unfiltered samples using the appropriate method, unless otherwise
approved by the EPA. When requesting consideration of an alternate approach, justification should be
provided to assist in the EPA's decision.

Additional References

https://www.epa.gov/superfund/groundwater-technologies#GWMMT anchor.

Contact your EPA Regional PCB Coordinator

If you have concerns about PCB contamination or need more information, consult your EPA Regional
PCB Coordinator at http://www.epa.gov/pcbs/program-contacts and your state environmental agency.
The EPA recommends that you make decisions about appropriate action after thoughtful consideration
of all available information and all legal requirements. For more information, contact the EPA at
ORCRPCBs(a?epa,gov.

-------