u.s. department of the interior u.s. geological survey screening-level assessments of public water...
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U.S. Department of the InteriorU.S. Geological Survey
Screening-Level Assessments of
Public Water Supply Well Vulnerability to Natural
ContaminantsStephen Hinkle, Mary Ann Thomas, Craig Brown, Kathy McCarthy, Sandra Eberts, Leon Kauffman, Michael Rosen, and Brian Katz
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U.S. Department of the InteriorU.S. Geological Survey
Screening-Level Assessments of
Public Water Supply Well Vulnerability to Natural
Contaminants
Part of the NAWQA Transport of Anthropogenic and Natural Contaminants Topical Study
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Well vulnerability then . . .
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. . . and well vulnerability now
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Vulnerability to Natural Contaminants
Typically not assessed in the U.S.
Inorganic chemicals had the highest percent of MCL violations (water systems using ground water during 1993 - 1998; USEPA, 1999)
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Goals
Generate an understanding of public supply well vulnerability to natural contaminants
Focus on large spatial scales Existing ground-water flow models and
geochemical data Demonstrate a simple screening-level model
with As and U
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Study Areas
8 Study Areas 7 NAWQA Study Units 5 Principal Aquifers
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OccurrenceUSEPA MCL Exceedances(Public Supply Wells with Particle Tracking):
As: 12% of wells U: 8% of wells
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Time of Travel
Flow Modeling Particle Tracking
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Redox zonation
Particle tracking to simulate
Time-of-travel Flux
Through different redox zones
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Variables
Time-of-travel and flux variables Including geochemical-zonation-based variables
Aqueous geochemical variables A set of general solid-phase trace-element
variables
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Principal Components Analysis
Objectively reduce a large number of variables to a few principal components that capture much of the total dataset variability
Identify associations among variables
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Uranium is associated with oxidizing variables
Principal Components Analysis
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Uranium mine Bradford Canyon, San Juan County, Utah
Redox controls uranium attenuation
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In the combined dataset, arsenic is not associated with a dominant redox group
Principal Components Analysis
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Spearman Correlation Analysis
A nonparametric correlation analysis to evaluate monotonic correlations that are nonlinear
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Spearman Correlation Analysis Uranium and arsenic concentrations significantly
correlated with many particle-tracking variables For example, particle-tracking variables for arsenic
(p < 0.05): Mean and median time of travel Minimum and maximum time of travel Percent of simulated well inflow with time of travel > 200
years
Time-of-travel variables important because many geochemical reactions are kinetically limited
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Spearman Correlation Analysis Uranium concentrations also were
significantly correlated with time-of-travel variables computed for different redox zones
Correlations between arsenic and redox-zonation-based time-of-travel variables were clearer at the study-area scale, where geochemically based inferences on dominant redox controls could be made.
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Classification Tree Analysis
Nonparametric method Dataset is partitioned recursively into
increasingly homogeneous subsets Schematically resemble trees, similar to
dichotomous classification keys Uncover relations that are logical, but difficult to
identify with linear statistical models Demonstrate a potential application of the use of
particle-tracking variables and other predictor variables in vulnerability analysis.
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Arsenic Tree Accuracy70% (building)
79% (verification) (“TT” = simulated time of travel)
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Conclusions
In these study areas, older ground water generally is more vulnerable to uranium and arsenic than is younger ground water
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Conclusions
Particle-tracking variables can be used in simple statistical models for screening-level analysis
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Conclusions
Such simple models can serve as a basis for prioritizing the locations and guiding the types of more refined, site-specific vulnerability assessments that may be needed at smaller spatial scales