Published: Aug. 21, 2018 By

Simone, Bailey EÌý1Ìý;ÌýLegg, TeresaÌý2Ìý;ÌýMcKnight, DianeÌý3Ìý;ÌýNemergut, DianaÌý4Ìý;´Ü³ó±ð²Ô²µÌý, YanÌý5Ìý;ÌýMladenov, NatalieÌý6

1ÌýUniversity of Colorado at Â鶹ӰԺ
2ÌýUniversity of Colorado at Â鶹ӰԺ
3ÌýUniversity of Colorado at Â鶹ӰԺ
4ÌýUniversity of Colorado at Â鶹ӰԺ
5ÌýQueens College
6ÌýUniversity of Colorado at Â鶹ӰԺ

Dissolved organic material present in groundwater has been shown to play a significant role in mobilizing arsenic through several pathways in Bangladesh aquifers and other regions with As-rich sediments (Bauer, 2006). Firstly, labile organic substrates may stimulate the growth of heterotrophic bacteria, resulting in anoxic conditions, which drives the use of alternate electron acceptors beyond oxygen, such as nitrate and ferric iron present in oxides in sediment (Mladenov, 2008; Horneman, 2004). Another potentially important pathway is the electron shuttling by dissolved humic substances where the quinone moieties in the humic substances are reduced by microbial processes (Van Geen, 2004). These reduced humic molecules transfer electrons to ferric iron in iron oxides along the flow path. This redox cascade promotes the release of arsenic and potentially other toxic metals. Although all humic substances studied have shown some electron shuttling capability, there is a large variation among fulvic and humic acids of different origins. We have isolated preparative quantities of fulvic and transphilic acid from two well depths at a site in Bangladesh with high arsenic concentrations in the groundwater, as well as surface water. The fluorescence characteristics of these samples, which were modeled using parallel factor analysis (PARAFAC) indicate that a terrestrial source of DOM is released concurrently with high arsenic concentrations.

Van Geen, A., 2004, Decoupling of As and Fe release to Bangladesh groundwater under reducing conitions. Part II: Evidence from sediment incubations: Geochimica et Cosmochimica, v.68, p 3475-3486

Mladenov, N., 2008, Dissolved organic matter accumulation, reactivity, and redox state in ground water of a recharge wetland: Wetlands, v.28, p.747-759

Bauer, M., 2006, Mobilization of arsenic by dissolved organic matter from iron oxides soils and sediments: Science of the Total Environment, v.354, p.179-190