Effect of Cu(II) on Bio-Scorodite Crystallization Using <i>Acidianus brierleyi</i>

Abstract: The effect of different concentrations of Cu (II) on microbial scorodite (FeAsO4⋅2H2O) formation was investigated by using thermo-acidophilic iron-oxidizing archaeon, Acidianus brierleyi. In the presence of 8-16 mM Cu (II) microbial Fe (II) oxidation and cell growth was only marginal. Its As (III) oxidation ability was especially severely inhibited by the presence of Cu (II), consequently disabling scorodite formation. However, when scorodite seed crystals were fed, Ac. brierleyi readily oxidized Fe (II) and A… Show more

“…Formation of bioscorodite has been reported in thermo-acidophilic Fe(II)-oxidizing archaeon Ac. brierleyi under specific cultivation conditions as well, with an optimal pH of 1.5 to 2.0 and temperature of 70 °C [ 82 , 83 ]. It was shown that bioscorodite can still be crystallized in the presence of Cu(II) by feeding scorodite seeds from synthetic copper-refining As(III)-bearing wastewaters [ 83 ].…”

Forced Biomineralization: A Review

“…Formation of bioscorodite has been reported in thermo-acidophilic Fe(II)-oxidizing archaeon Ac. brierleyi under specific cultivation conditions as well, with an optimal pH of 1.5 to 2.0 and temperature of 70 °C [ 82 , 83 ]. It was shown that bioscorodite can still be crystallized in the presence of Cu(II) by feeding scorodite seeds from synthetic copper-refining As(III)-bearing wastewaters [ 83 ].…”

Forced Biomineralization: A Review

Review of arsenic metallurgy: Treatment of arsenical minerals and the immobilization of arsenic

Utilization of a mesophilic consortium for arsenic removal from a copper smelting wastewater