Natalie Mladenov, Yan Zheng, Matthew P. Miller, Diana R. Nemergut et al.
Iron (Fe) and dissolved organic matter (DOM) cycling have been implicated in arsenic mobilization via microbially mediated Fe oxide reduction. To evaluate the sources and multiple roles of DOM in Bangladesh aquifers, we conducted spectroscopic analyses on various types of surface water and groundwat...
Natalie Mladenov, Yan Zheng, Bailey Simone, Theresa M. Bilinski et al.
In some high arsenic (As) groundwater systems, correlations are observed between dissolved organic matter (DOM) and As concentrations, but in other systems, such relationships are absent. The role of labile DOM as the main driver of microbial reductive dissolution is not sufficient to explain the va...
Teresa Legg, Yan Zheng, Bailey Simone, K. A. Radloff et al.
Bacterial communities can exert significant influence on the biogeochemical cycling of arsenic (As). This has globally important implications since As in drinking water affects the health of over 100 million people worldwide, including in the Ganges-Brahmaputra Delta region of Bangladesh where geoge...
Diane M. McKnight, Bailey Simone, Natalie Mladenov, Zheng Yu-feng et al.
Teresa Legg, Diana R. Nemergut, K. A. Radloff, Yan Zheng et al.