Variations of arsenic forms and the role of arsenate reductase in three hydrophytes exposed to different arsenic species.

In order to understand the mechanisms of arsenic (As) accumulation and detoxification in aquatic plants exposed to different As species, a hydroponic experiment was conducted and the three aquatic plants (Hydrilla verticillata , Pistia stratiotes and Eichhornia crassipes) were exposed to different concentrations of As(III), As(V) and dimethylarsinate (DMA) for 10 days. The biomass, the surface As adsorption and total As adsorption of three plants were determined. Furthermore, As speciation in the culture solution and plant body, as well as the arsenate reductase (AR) activities of roots and shoots, were also analyzed. The results showed that the surface As adsorption of plants was far less than total As absorption. Compared to As(V), the plants showed a lower DMA accumulation. P. stratiotes showed the highest accumulation of inorganic arsenic but E. crassipes showed the lowest at the same As treatment. E. crassipes showed a strong ability to accumulate DMA. Results from As speciation analysis in culture solution showed that As(III) was transformed to As(V) in all As(III) treatments, and the oxidation rates followed as the sequence of H. verticillata > P. stratiotes > E. crassipes >no plant. As(III) was the predominant species in both roots (39.4–88.3%) and shoots (39–86%) of As(III)-exposed plants. As(V) and As(III) were the predominant species in roots (37–94%) and shoots (31.1–85.6%) in As(V)-exposed plants, respectively. DMA was the predominant species in both roots (23.46–100%) and shoots (72.6–100%) in DMA-exposed plants. The As(III) contents and AR activities in the roots of P. stratiotes and in the shoots of H. verticillata were significantly increased when exposed to 1 mg·L^-1 or 3 mg·L^-1 As(V). Therefore, As accumulation mainly occurred via biological uptake rather than physicochemical adsorption, and AR played an important role in As detoxification in aquatic plants. In the case of As(V)-exposed plants, their As tolerance was attributed to the increase of AR activities. • Hydroponic experiment confirmed the mutual transformations of As(III), As(V) and DMA. • Accumulation abilities of DMA were weaker than inorganic arsenic As(V). • Oxidation speed in As(III) culture solution: H. verticillata > P. stratiotes > E. crassipes > no plant. • The tolerance of plants exposed to As(V) was attributed to the increase of AR activities. [ABSTRACT FROM AUTHOR]