Arsenic oxidation and bioaccumulation by the acidophilic protozoan, Euglena mutabilis, in acid mine drainage (Carnoulès, France) - Archive ouverte HAL
Article Dans Une Revue Science of the Total Environment Année : 2004

Arsenic oxidation and bioaccumulation by the acidophilic protozoan, Euglena mutabilis, in acid mine drainage (Carnoulès, France)

Résumé

In the acid stream (pH 2.5–4.7) originating from the Carnoulès mine tailings, the acidophilic protozoan Euglena mutabilis grows with extremely high sulfate (1.9–4.9 g/l), iron (0.7–1.7 g/l) and arsenic concentrations (0.08–0.26 g/l). Strong variations in flow rate and high sulfate concentrations (up to 4.9 g/l) have been registered in early winter and might be the reason for the reduction in cell number of the protozoan from October to December 2001. No relation was established between arsenic concentration and/or speciation and abundance of the protozoan in the stream. Arsenite, which is the most toxic form, predominates in water. The oxidation of arsenite to arsenate occurred within a few days in laboratory experiments when E. mutabilis was present in Reigous Creek water and synthetic As(III)-rich culture medium. Methylated compounds (MMA, DMA) were not identified in the culture media. The protozoan bioaccumulated As in the cell (336±112 μg As/g dry wt.) as inorganic arsenite (105±52 μg As/g dry wt.) and arsenate (231±112 μg As/g dry wt.). Adsorption of As at the cell surface reached 57 mg/g dry wt. in the As(V) form for E. mutabilis grown in 250 mg/l As(III) synthetic medium. Both intracellular accumulation and adsorption at the cell surface increased for increasing As(III) concentration in the medium but the concentration factor in the cell relative to soluble As decreased.

Dates et versions

hal-03534072 , version 1 (19-01-2022)

Identifiants

Citer

Corinne Casiot, Odile Bruneel, Jean-Christian Personné, Marc Leblanc, Françoise Elbaz-Poulichet. Arsenic oxidation and bioaccumulation by the acidophilic protozoan, Euglena mutabilis, in acid mine drainage (Carnoulès, France). Science of the Total Environment, 2004, 320 (2-3), pp.259-267. ⟨10.1016/j.scitotenv.2003.08.004⟩. ⟨hal-03534072⟩
33 Consultations
0 Téléchargements

Altmetric

Partager

More