Selenium volatilization in vegetated agricultural drainage sediment from the San Luis Drain, Central California

Abstract

The presence of large amounts of Se-laden agricultural drainage sediment in the San Luis Drain, Central California, poses a serious toxic threat to wildlife in the surrounding environment. Effective management of the drainage sediment becomes a practical challenge because the sediment is polluted with high levels of Se, B, and salts. This two-year field study was conducted to identify the best plant species that are salt and B tolerant and that have a superior ability of volatilizing Se from drainage sediment. The drainage sediment was mixed with clean soil, and vegetated with salado alfalfa ( Medicago sativa ‘salado’), salado grass ( Sporobulus airoides ‘salado’), saltgrass-turf ( Distichlis spp. ‘NYPA Turf’), saltgrass-forage ( Distichlis spicata (L.) Greene), cordgrass ( Spartina patens ‘Flageo’), Leucaenia ( Leucaena leucocephola), elephant grass ( Pennistum purpureum), or wild type- Brassica ( Brassica spp.). Results show that elephant grass produced the greatest amount of biomass and accumulated highest concentrations of B. Highest concentrations of Se, S, and Cl were observed in wild-type Brassica. Biogenic volatilization of Se by plants and soil microbes was greater in summer. Among the treatments, the mean daily rates of Se volatilization (μg Se m −2 d −1) were wild-type Brassica (39) > saltgrass-turf (31) > cordgrass (27) > saltgrass forage (24) > elephant grass (22) > salado grass (21) > leucaenia (19) > salado alfalfa (14) > irrigated bare soil (11) > non-irrigated bare soil (6). Overall, rates of Se volatilization in drainage sediment were relatively low due to high levels of sulfate. To manage Se in drainage sediment by phytoremediation, the biological volatilization process needs to be enhanced substantially under field conditions.