Evidence of microbially mediated arsenic mobilization from sediments of the Aquia aquifer, Maryland, USA

摘要

Sediments from the Aquia aquifer in coastal Maryland were collected as part of a larger study of As in the Aquia groundwater flow system where As concentration are reported to reach levels as high as 1072nmolkg~(-1), (i.e., ～80μg/L). To test whether As release is microbially mediated by reductive dissolution of Fe(III) oxides/oxyhydroxides within the aquifer sediments, the Aquia aquifer sediment samples were employed in a series of microcosm experiments. The microcosm experiments consisted of sterilized serum bottles prepared with aquifer sediments and sterilized (i.e., autoclaved), artificial groundwater using four experimental conditions and one control condition. The four experimental conditions included the following scenarios: (1) aerobic; (2) anaerobic; (3) anaerobic+acetate; and (4) anaerobic+acetate+AQDS (anthraquinone-2,6-disulfonic acid). AQDS acts as an electron shuttle. The control condition contained sterilized aquifer sediments kept under anaerobic conditions with an addition of AQDS. Over the course of the 27day microcosm experiments, dissolved As in the unamended (aerobic and anaerobic) microcosms remained constant at around ～28nmolkg~(-1) (2μg/L). With the addition of acetate, the amount of As released to the solution approximately doubled reaching ～51nmolkg~(-1) (3.8μg/L). For microcosm experiments amended with acetate and AQDS, the dissolved As concentrations exceeded 75nmolkg~(-1) (5.6μg/L). The As concentrations in the acetate and acetate+AQDS amended microcosms are of similar orders of magnitude to As concentrations in groundwaters from the aquifer sediment sampling site (127-170nmolkg~(-1)). Arsenic concentrations in the sterilized control experiments were generally less than 15nmolkg~(-1) (1.1μg/L), which is interpreted to be the amount of As released from Aquia aquifer sediments owing to abiotic, surface exchange processes. Iron concentrations released to solution in each of the microcosm experiments were higher and more variable than the As concentrations, but generally exhibited similar trends to the As concentrations. Specifically, the acetate and acetate+AQDS amended microcosm typically exhibited the highest Fe concentrations (up to 1725 and 6566nmolkg~(-1), respectively). The increase in both As and Fe in the artificial groundwater solutions in these amended microcosm experiments strongly suggests that microbes within the Aquia aquifer sediments mobilize As from the sediment substrate to the groundwaters via Fe(III) reduction.