Wednesday, June 9, 2021
01:30 PM to 02:00 PM
Session: Plenary Session 6.1 Ending toxic arsenic exposure from well water in Bangladesh

Geochemist Lex van Geen holds a research professor appointment at Lamont-Doherty Earth Observatory and is a member of the Earth Institute’s faculty at Columbia University. His current research focuses on ways to reduce the impact of the environment on human health. For two decades, he coordinated earth-science and mitigation efforts under Columbia’s Superfund Research Program on the origin and health effects of elevated levels of arsenic in groundwater. A theme that runs through this and other on-going project, e.g. concerning fluoride in groundwater in India, bauxite dust in Guinea, or soil contaminated with lead from mine-tailings in Peru, is that patterns of contamination are spatially very heterogeneous. This complicates prediction but often also points the way to mitigation when the hazard can be mapped. For this reason, van Geen is a firm believer in the more widespread use of field kits by non-specialists to reduce exposure to environmental toxicants, particularly in developing countries. He collaborates with public health and social scientists to evaluate how such kits can be deployed at scale and has published over 180 peer-reviewed papers on this and other environmental topics.

Plenary session
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Add to Agenda 09 June 2021 13:30 09 June 2021 14:00 Europe/Amsterdam Plenary Session 6.1 Ending toxic arsenic exposure from well water in Bangladesh

Geochemist Lex van Geen holds a research professor appointment at Lamont-Doherty Earth Observatory and is a member of the Earth Institute’s faculty at Columbia University. His current research focuses on ways to reduce the impact of the environment on human health. For two decades, he coordinated earth-science and mitigation efforts under Columbia’s Superfund Research Program on the origin and health effects of elevated levels of arsenic in groundwater. A theme that runs through this and other on-going project, e.g. concerning fluoride in groundwater in India, bauxite dust in Guinea, or soil contaminated with lead from mine-tailings in Peru, is that patterns of contamination are spatially very heterogeneous. This complicates prediction but often also points the way to mitigation when the hazard can be mapped. For this reason, van Geen is a firm believer in the more widespread use of field kits by non-specialists to reduce exposure to environmental toxicants, particularly in developing countries. He collaborates with public health and social scientists to evaluate how such kits can be deployed at scale and has published over 180 peer-reviewed papers on this and other environmental topics.