MIT scientists pinpoint origin of dissolved arsenic in Bangladesh drinking water
Why it matters: This work will enable long-term solutions to one of the worst environmental health disasters of our time by providing the scientific information needed to site new tube wells at appropriate depths. Over the last 30 years, many people in Bangladesh switched their drinking water supply from ponds and rivers to groundwater pumped from shallow tube wells in a massive national effort to prevent cholera and other bacterial water-borne diseases. The drinking water from these wells led almost immediately to severe, widespread arsenic poisoning, which is now estimated to afflict 2 million people. Despite years of effort by researchers, the exact origin of the dissolved arsenic had not been pinpointed — until now. The MIT work will enable solutions by providing the scientific information needed to site new tube wells at appropriate depths.
How they did it: Working in the Munshiganj district of Bangladesh, former graduate students Rebecca Neumann and Khandaker Ashfaque developed an understanding of the surface and underground water flow patterns in a 6-square-mile area using data collected from surface and well water over a seven-year period. They used natural tracers and a 3-D model to track rice field and pond water as it traveled into and through the subsurface. In addition, they performed tests on rice field and pond waters to determine if the organic carbon in these water bodies would stimulate arsenic mobilization off of the soils and sediments.
“When we compared the chemical signatures of the different water sources in our study area to the signatures of the aquifer water, we saw that water with high arsenic content originates from the human-built ponds, and water with lower arsenic content originates from the rice fields,” said Neumann, now a postdoctoral associate at Harvard University. “It’s likely that these same processes are occurring at other sites, and it suggests that the problem could be alleviated by digging deeper drinking water wells below the influence of the ponds or by locating shallow drinking wells under rice fields.”
Next steps: Harvey and other researchers plan to provide deep wells for several villages at geographically distinct locations, and combine hydrologic and biogeochemical testing of those wells with a study of villagers’ health improvements, with specific interest in children’s neurological development. A goal of this study is to develop practical guidelines for safe wells.
Source: “Anthropogenic influences on groundwater arsenic concentrations in Bangladesh,” by Rebecca B. Neumann, Khandaker N. Ashfaque, Charles F. Harvey et al, in the Nov. 15 online edition of Nature Geoscience.
Funding: This research was funded by the Division of Earth Sciences of the National Science Foundation and the Center for Environmental Sensing and Modeling of the Singapore-MIT Alliance for Research and Technology.