In
2019, 254 samples were collected from five aquifer systems to
evaluate perfluoroalkyl and polyfluoroalkyl substance (PFAS) occurrence
in groundwater used as a source of drinking water in the eastern United
States. The samples were analyzed for 24 PFAS, major ions, nutrients,
trace elements, dissolved organic carbon (DOC), volatile organic compounds
(VOCs), pharmaceuticals, and tritium. Fourteen of the 24 PFAS were
detected in groundwater, with 60 and 20% of public-supply and domestic
wells, respectively, containing at least one PFAS detection. Concentrations
of tritium, chloride, sulfate, DOC, and manganese + iron; percent
urban land use within 500 m of the wells; and VOC and pharmaceutical
detection frequencies were significantly higher in samples containing
PFAS detections than in samples with no detections. Boosted regression
tree models that consider 57 chemical and land-use variables show
that tritium concentration, distance to the nearest fire-training
area, percentage of urban land use, and DOC and VOC concentrations
are the top five predictors of PFAS detections, consistent with the
hydrologic position, geochemistry, and land use being important controls
on PFAS occurrence in groundwater. Model results indicate that it
may be possible to predict PFAS detections in groundwater using existing
data sources.
The national occurrence of 83 pesticide compounds in groundwater of the United States and decadal-scale changes in concentrations for 35 compounds were assessed for the 20-year period from 1993-2011. Samples were collected from 1271 wells in 58 nationally distributed well networks. Networks consisted of shallow (mostly monitoring) wells in agricultural and urban land-use areas and deeper (mostly domestic and public supply) wells in major aquifers in mixed land-use areas. Wells were sampled once during 1993-2001 and once during 2002-2011. Pesticides were frequently detected (53% of all samples), but concentrations seldom exceeded human-health benchmarks (1.8% of all samples). The five most frequently detected pesticide compounds-atrazine, deethylatrazine, simazine, metolachlor, and prometon-each had statistically significant (p < 0.1) changes in concentrations between decades in one or more categories of well networks nationally aggregated by land use. For agricultural networks, concentrations of atrazine, metolachlor, and prometon decreased from the first decade to the second decade. For urban networks, deethylatrazine concentrations increased and prometon concentrations decreased. For major aquifers, concentrations of deethylatrazine and simazine increased. The directions of concentration changes for individual well networks generally were consistent with changes determined from nationally aggregated data. Altogether, 36 of the 58 individual well networks had statistically significant changes in concentrations of one or more pesticides between decades, with the majority of changes attributed to the five most frequently detected pesticide compounds. The magnitudes of median decadal-scale concentration changes were small-ranging from -0.09 to 0.03 µg/L-and were 35- to 230,000-fold less than human-health benchmarks.
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