qiang yang charles w. culbertson robert g. marvinney paul e. smitherman charles t. hess
DESCRIPTION
GSA NE Section 48 th Annual Meeting March 18 th , 2013. Hydrogeochemical control of arsenic, uranium, and radon in domestic wells from bedrock aquifers in central Maine, USA. Qiang Yang Charles W. Culbertson Robert G. Marvinney Paul E. Smitherman Charles T. Hess Yan Zheng. Outline. - PowerPoint PPT PresentationTRANSCRIPT
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Hydrogeochemical control of arsenic, uranium, and radon in domestic wells from bedrock
aquifers in central Maine, USAQiang YangCharles W. CulbertsonRobert G. MarvinneyPaul E. SmithermanCharles T. HessYan Zheng
GSA NE Section 48th Annual MeetingMarch 18th, 2013
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Outline
Introduction: study area, research questions and sampling
Arsenic in fractured bedrock aquifers Uranium and radon in fractured bedrock
aquifers Summary
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Introduction - study area
important water supply aquifers, especially for rural population;
groundwater storage and transport mostly in fractures;
high heterogeneity of groundwater flow and solute transport.
crystalline bedrock aquifers
(from USGS)
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Introduction - research questions
(Colman, 2011)
(Wathen, 1987; Hall et al., 1987)
(Ayotte, 2011)(30%)
(4%)
(Hess, et al., 1974-85)(Lanctot, et al., 1985)(Brutsaert et al., 1981)
(Ayotte, 2011)
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Introduction - research questions
Elevated groundwater [As] is related with Silurian meta-sedimentary rock units (black) on regional scale of 102-103 km.
(re-drawn based on Ayotte et al., 1999-2006)
(Peters et al, 99-06)(Montgomery et al, 03)
(Nielsen et al, 2010)(Lipfert et al, 2006-07)(Sidle et al, 2001-03)(Marvinney et al, 1994)
(Ryan et al, 2011)
(Pagach et al, 2009)
(Colman, 2011)
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Introduction - research questions
Distribution patterns at local scales of 100-101 km; Source, controlling parameters, and mobilization
mechanisms; Hydrogeology and geochemistry influence in
individual wells.
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Towns sampled = 17;
Area = 1,500 km2;
Number of samples = 790 + 331 + 307
Sampling density: ~1/km2 (5-40/km2)
Introduction - sampling
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Groundwater Arsenic - distribution
• Silurian interbedded pelite and limestone/dolostone (Ss, Sangerville Formation)• Silurian interbedded pelite and sandstone (Sw, Waterville Formation)• Silurian-Ordovician calcareous sandstone with interbedded sandstone and impure limestone (SOv, Vassalboro Formation)• Devonian plutons of granite, granodiorite, quartz monzonite and syenite (D)• Ordovician-Cambrian mafic to felsic volcanic rocks (OZc, Cushing Formation)
Maximum = 325 µg/L, log-normal distributionMean = 12.2 µg/L, Median = 3.8 µg/LExceedance rate = 31% (>10 µg/L)
0%
10%
20%
30%
40%
50%
Ss Sw SOv D OZcBedrock Unit
Prob
abili
ty
0
1
2
3
4
5
6
7
8
Med
ian
As
(µg/
L)
kriged probability
observed probability
median As
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(T7, 3-4: O’Shea et al., Arsenic in bedrock units)
Geogenic source Low nitrate, no
correlation with land use;
sulfide mineral, such as pyrite;
Correlation with Mo, S;Variable Type exp(β) p-valueIntercept 0.000 <0.0001
Bedrock geologySangerville/Waterville formation categorical 2.880 0.0078Vassalboro formation categorical 2.555 0.0213Cushing formation categorical 0.811 0.7743Granite intrusion (comparison varibale) categorical 1.000
Overburden materialSoil As content continuous 1.026 0.0237
Water geochemistrypH continuous 2.767 <0.0001Dissolved Oxygen continuous 0.901 0.0455Nitrate continuous 0.777 0.0548Sulfate continuous 0.971 0.0020
parameter Spearman’s ρ
pH 0.54DO -0.35Cl- -0.23
NO3- -0.31
– source, controlling parameters
Groundwater Arsenic
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Domestic well
Oxidizing
Reducing
Sand and gravel glacial overburden
Fractured bedrock
CaCO3 + H2O = Ca2+ + HCO3- +
OH-
FeO(OH)x-As = Fe2+ + OH- + As
Groundwater Arsenic– mobilization mechanisms
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Dissolved [As] – µg/L
103
155
109
262
217
Groundwater Arsenic– individual wells
Well MA70190
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65 ft
26.5 ft
99 ft
Grundfos pump
@ 95 ft
Groundwater Arsenic– individual wells
Well MA70190
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Groundwater U & Rn - distribution
• Maximum = 484 µg/L• Log-normal distribution• Mean = 7.2 µg/L• Median = 1.1 µg/L• Exceedance rate = 3.8% (>30
µg/L)
Metamorphism grade: GS – greenschist, E - epidote rank amphibolite, AA - low rank amphibolite, AB - medium rank amphibolite, AC - high rank amphibolite
• Maximum = 208,570 pCi/L
• Log-normal distribution
• Mean = 5,193 pCi/L• Median = 2,383 pCi/L• Exceedance rate =
29% (>4000
pCi/L)
U and Rn are both correlated with granitic plutons.
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Groundwater U - distribution
(Data from MGS)
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Groundwater Rn - distribution
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Mobilization Different transport and
mobilization mechanisms of U and Rn in granites;
U (within granitic plutons) pH, alkalinity dominant; associated with As, Mo,
Cs. Rn
No apparent groundwater geochemical control;
More hydrogeological.
Groundwater U & Rn– controlling parameters
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Groundwater U– individual wells
MA70076
30 m
49 m52 m54 m
dissolvedU
µg/L55.2
48.2
53.5
51.0
Removal ratio by aluminosilicate adsorbent cartridge: 96%, 98%, 99.6%
MA70138
35 m
50 m53 m
56.5 m
dissolvedU
µg/L61.1
49.8
65.7
54.4
40 m46 m
60.4
54.3
MA70190
20 m
27 m
29 m
dissolvedU
µg/L1.2
1.0
0.8
22 m25 m
1.0
1.4
granitic intrusion
s
Waterville meta-sedimentary
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Summary The distribution of groundwater As in fractured bedrock
aquifers in central Maine is associated with bedrock geology at local scales of 1-10 km, while U and Rn show strong association with granitic plutons.
Groundwater As is also controlled by pH and redox conditions in aquifers, U is controlled by pH and alkalinity, while Rn does not show apparent association with groundwater geochemistry.
Mobilization mechanism of As : oxidation of arsenic-rich sulfide, adsorption on iron minerals, along the groundwater flow path pH-dependent desorption of arsenic from iron minerals with calcite dissolution.
In individual bedrock wells, dissolved As is mainly from water producing fractures typically near the bottom of bore hole, and subjected to oxidation, adsorption and settling with iron particles; dissolved U does not show significant difference from fractures at various depths, but can easily be removed by aluminosilicate absorbent.
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Acknowledgement Funded by NIEHS Superfund Research Program; Carole Johnson, Martha Nielson, Charles Schalk, USGS; Daniel Locke, Marc Loiselle, Robert Johnston, MGS; Marcel Belaval, US EPA; Martin Stute, Columbia University; Hun Bok Jung, Zhongqi Cheng, Yi He, City University of New
York; Families in Greater Augusta, ME.
Thank you all for attention!Contact: Qiang Yang