Northeastern Section - 42nd Annual Meeting (1214 March 2007)
Paper No. 18-1
Presentation Time: 1:05 PM-1:25 PM


AYOTTE, Joseph D.1, NUCKOLS, John R.2, CANTOR, Kenneth P.3, ROBINSON, Gilpin R.4, BARIS, Dalsu3, HAYES, Laura1, KARAGAS, Margaret5, BRESS, Bill6, SILVERMAN, Debra3, and LUBIN, Jay3, (1) U.S. Geological Survey, 361 Commerce Way, Pembroke, NH 03275,, (2) Colorado State University, Fort Collins, CO 80523, (3) National Cancer Institute, Bethesda, MD 20892, (4) U.S. Geological Survey, Reston, VA 20192, (5) Dartmouth Medical School, Lebanon, NH 03756, (6) Vermont Department of Health, Burlington, VT 05402

For over five decades, the states of Maine, New Hampshire, and Vermont reported excess mortality rates from bladder cancer in males and females. One hypothesized explanation for this excess is the presence of elevated concentrations in drinking water of inorganic arsenic, a substance known as a bladder carcinogen at high levels. In northern New England, about 40% of residents use private wells, and in some areas more than 30% of private wells have inorganic arsenic concentrations that exceed the drinking water standard of 10 g/L.

Recent ecological evidence suggests that bladder cancer mortality in the region is correlated with private well use. An epidemiologic study of bladder cancer in northern New England is underway. The purpose is to explain the excess of bladder cancer, with a major focus on the risk of long-term consumption of arsenic in drinking water. The study includes an estimate of arsenic exposure and exposure uncertainty during adult life for each study subject based on residential history, arsenic concentrations in drinking water wells at current and past residences, and water-quality and use data from public water supplies. In some cases, there are gaps in the exposure profile because of unavailable data. To estimate arsenic concentrations in the gaps, a process-based statistical model has been developed to identify geographic areas in New England with a probability of arsenic concentrations exceeding 5 g/L in drinking water wells.

In the model, multivariate logistic regression is used to estimate the probability of occurrence of elevated arsenic concentrations in ground water. The model is based on geologic, hydrologic, and landscape information, including specific geologic formation units, arsenic concentrations in stream sediments, areas of Pleistocene marine inundation, and proximity to intrusive granitic plutons. These and other hydrologic and landscape variables related to arsenic sources and ground-water geochemical factors and residence time are shown to increase the probability of elevated arsenic concentrations in ground water. Previous studies suggest that arsenic in bedrock ground water may be partly from past arsenical pesticide use but variables representing historic agricultural inputs do not improve the model, indicating that this source does not significantly contribute to current arsenic concentrations.

Northeastern Section - 42nd Annual Meeting (1214 March 2007)
General Information for this Meeting
Session No. 18
Health and Geology in the Northeast
University of New Hampshire: Huddleston Hall, Banquet Room
1:00 PM-4:45 PM, Monday, 12 March 2007

Geological Society of America Abstracts with Programs, Vol. 39, No. 1, p. 56

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