Mechanisms of copper and zinc bioremoval by microalgae and bacteria grown in nutrient rich wastewaters.

Swine farming produces large quantities of nutrient-rich wastewater, which often contains metals such as Cu and Zn, used as feed additives for pigs. These metals must be removed from the wastewater before discharge but their retention in the biomass can limit its subsequent utilization. Photobioreactors are a very promising alternative for swine wastewater treatment, as the consortium of microalgae and bacteria growing symbiotically in these reactors allows high nutrient and metal removal efficiency at moderate costs. This work studies the mechanisms of removal of Cu(II) and Zn(II) by the two types of microorganisms growing in these photobioreactors. A microalga commonly used in wastewater treatment (Scenedesmus almeriensis) and an activated sludge were kept in contact with synthetic wastewater containing 100 mg/L of Cu and Zn. After 72 h, Scenedesmus almeriensis removed 43% of Cu and 45% of Zn, while activated sludge removed 78% of Cu and 96% of Zn. Single and sequential extractions of the biomasses using different extracting reagents revealed that biosorption on protonable groups is the dominant removal mechanisms. Mild reagents solubilized 69% of Cu and 94% of Zn from the microalgae and 76% of Cu and 93% of Zn from the activated sludge. Low metal concentrations in the oxidizable and residual fractions evidenced minimal bioaccumulation inside the cells. FTIR and ESEM-EDX analysis confirmed biosorption by ion exchange and complexation as the main metal remediation mechanisms. The weak bonds of the biosorbed Cu and Zn ions are beneficial for the valorization of biomass and the obtaining of safe bioproducts. [Display omitted] • Sewage sludge more effective than microalga S. almeriensis to remove Cu and Zn from wastewater. • Cu is more strongly biosorbed than Zn by both sewage sludge and microalgae. • Metal biosorption on protonable electron donor groups is the main bioremoval mechanism. • Cu and Zn are biosorbed on groups –COOH, –OH, –NH contained in proteins and carbohydrates of the cell membrane. • Most metal accumulated by the biomasses is acid soluble/exchangeable and readily available. [ABSTRACT FROM AUTHOR]