Geologic and Hydrologic Factors Controlling Radon‐222 in Ground Water in Maine

Brutsaert, Willem F.; Norton, Stephen A.; Hess, C.T.; Williams, John

doi:10.1111/j.1745-6584.1981.tb03488.x

Cited by 42 publications

(20 citation statements)

References 4 publications

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“…22 However, in greater Augusta, metamorphosed units at lower ranks did not show significantly different distributions of groundwater [Rn] at intermediate spatial scales (SI Table S4). This finding suggests that groundwater [Rn] in meta-sedimentary rocks is not related to the metamorphic grade below the granulite facies.…”

Section: Resultsmentioning

confidence: 98%

Uranium and Radon in Private Bedrock Well Water in Maine: Geospatial Analysis at Two Scales

Yang

Smitherman

Hess

et al. 2014

Environ. Sci. Technol.

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In greater Augusta of central Maine, 53 out of 1093 (4.8%) private bedrock well water samples from 1534 km2 contained [U] >30 μg/L, the U.S. Environmental Protection Agency’s (EPA) Maximum Contaminant Level (MCL) for drinking water; and 226 out of 786 (29%) samples from 1135 km2 showed [Rn] >4,000 pCi/L (148 Bq/L), the U.S. EPA’s Alternative MCL. Groundwater pH, calcite dissolution and redox condition are factors controlling the distribution of groundwater U but not Rn due to their divergent chemical and hydrological properties. Groundwater U is associated with incompatible elements (S, As, Mo, F, and Cs) in water samples within granitic intrusions. Elevated [U] and [Rn] are located within 5–10 km distance of granitic intrusions but do not show correlations with metamorphism at intermediate scales (100−101 km). This spatial association is confirmed by a high-density sampling (n = 331, 5–40 samples per km2) at local scales (≤10–1 km) and the statewide sampling (n = 5857, 1 sample per 16 km2) at regional scales (102–103 km). Wells located within 5 km of granitic intrusions are at risk of containing high levels of [U] and [Rn]. Approximately 48 800–63 900 and 324 000 people in Maine are estimated at risk of exposure to U (>30 μg/L) and Rn (>4000 pCi/L) in well water, respectively.

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Section: Resultsmentioning

confidence: 98%

Uranium and Radon in Private Bedrock Well Water in Maine: Geospatial Analysis at Two Scales

Yang

Smitherman

Hess

et al. 2014

Environ. Sci. Technol.

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“…In the past 25 years, radon levels were measured in groundwater and spas in various countries such as Taiwan (Lin and Chen 1983;Sabol et al 1995), Finland (Asikainen and Kahlos 1980), Norway (Banks et al 1998a;Banks et al 1998b), Germany (Freyer et al 1997), Spain (Soto et al 1995a;Soto et al 1995b), Kenyan (Otwoma and Mustapha 1998), Saudi Arabia (Alabdula'aly 1996; Alabdula'aly 1999), and the United States (Brutsaert et al 1981;King et al 1982;Sasser and Watson 1978;Loomis 1987;Cech et al 1988;Longtin 1988;Dixon and Lee 1988;Hess et al 1985). Figure 8 summarizes worldwide radon levels in groundwater and spas reported in the literature.…”

Section: Worldwide Comparison Of Radon Levels In Groundwatermentioning

confidence: 99%

“…Asikainen and Kahlos (1979) showed that anomalously high radon-222 concentrations in groundwater in the Helsinki area were caused by high concentrations of uranium and radium-226 deposited in fissures of the bedrock. High radon-222 concentrations exist in groundwater from most granitic rocks in Maine (Brutsaert et al 1981). Brutsaert et al (1981) reported that granites in Maine contain 10 to 100 ppm uranium.…”

Section: Worldwide Comparison Of Radon Levels In Groundwatermentioning

confidence: 99%

“…High radon-222 concentrations exist in groundwater from most granitic rocks in Maine (Brutsaert et al 1981). Brutsaert et al (1981) reported that granites in Maine contain 10 to 100 ppm uranium. Lin et al (1986) reported that conglomerates and sandstones in Taiwan contain 0.87 € 0.63 and 1.53 € 0.59 ppm uranium, respectively.…”

Section: Worldwide Comparison Of Radon Levels In Groundwatermentioning

confidence: 99%

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Radon distribution in groundwater of Taiwan

et al. 2004

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Radon levels were surveyed in 517 monitoring wells constructed in five major groundwater areas of Taiwan. The radon concentration in groundwater samples varied in a wide range from below the detection limit of 18 pCi/L up to 1,100 pCi/L. A worldwide comparison of reported groundwater radon levels was conducted. Overall radon levels in Taiwan groundwater are relatively low compared to other countries because the geology of Taiwan is mainly comprised of sedimentary rocks. Among the 517 wells monitored, only five wells were found with radon concentrations higher than 500 pCi/L. These five wells are all located near the Chaochou Fault in the Pingtung Plain. This study suggests that well sites near the Chaochou Fault could be good locations to monitor radon anomalies for earthquake prediction and should be avoided for developing domestic water supply. In the recharge area near the Chaochou Fault, the radon concentration in groundwater from shallow wells was approximately 1/2 to 1/4 of that from deep wells in the same cluster.Resumen Se investigaron los niveles de radón en 517 pozos de monitoreo, construidos en las cinco mayores µreas de agua subterrµnea de Taiwan. La concentración de radón en las muestras de agua subterrµnea varía en un rango amplio, desde inferior al límite de detección que es 18 pCi/L hasta 1,100 pCi/L. Se realizó una comparación a escala mundial de los niveles de radón reportados en agua subterrµnea. En general los niveles de radón presente en el agua subterrµnea de Taiwan, son relativamente bajos comparados con otros países, puesto que la geología de Taiwan estµ compuesta de rocas sedimentarias. Entre los 517 pozos monitoreados, solamente en cinco se encontraron concentraciones de radón mayores a 500 pCi/L. Estos cinco pozos estµn todos localizados cerca de la falla ChaoChou en la Planicie de PingTung. El presente estudio sugiere que los pozos cercanos a la falla Chaochou, podrían ser buenos sitios para monitorear anomalías de radón para la predicción de terremotos y deberían evitarse para los desarrollos de abastecimiento de agua potable. En la zona de recarga cerca de la falla Chaochou, la concentración de radón en agua subterrµnea obtenida en pozos someros, fue aproximadamente de a de aquella en pozos profundos ubicados en el mismo sector.

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“…The 222 Rn activity concentration in groundwater mostly varies in the broad interval between 1 Bq/dm 3 and 1000 Bq/dm 3 Kahlos, 1979, 1980;Bonotto, 2004;Dillon et al, 1991;Zhuo et al, 2001), but local concentrations up to 10 000 Bq/dm 3 or more have been reported in the literature (e.g. Brutsaert et al, 1981).…”

Section: Introductionmentioning

confidence: 96%