Biocatalysis is crucial for a green, sustainable, biobased economy, and this has driven major
advances in biotechnology and biocatalysis over the past 2 decades. There are numerous …

Coal mines discharge low-pH acid mine drainage (AMD), which contains a variety of heavy
metals and sulfates that are extremely polluting and corrosive, posing a continuous threat to …

Anthropogenic imbalance of chemical pollutants in environment raises serious threat to all
life forms. Contaminated sites often possess multiple heavy metals and other types of …

Groundwater is an extremely valuable freshwater resource for drinking and agricultural use,
and its value is increasing with global population growth. One of the potential threats to its …

Gravel-based subsurface-flow constructed wetlands (CWs) amended with a walnut shell
(WS) substrate were established to treat synthetic acid mine drainage (AMD) in this study …

Industrial development has led to generation of large volumes of wastewater containing
heavy metals, which need to be removed before the wastewater is released into the …

Antimony mining areas generate a large amount of wastewater containing complex heavy
metals, which poses a threat to the health of residents and surrounding flora and fauna, and …

A novel sulfidogenic acid mine drainage (AMD) treatment system with a sulfur reduction
process was developed. During the 220-d operation,> 99.9% of 380-mg/L ferric, 150-mg/L …

Coal acid mine drainage (AMD) contaminates natural water to form mine-impacted water
(MIW), which is characterized by high levels of acidity, sulfate, and metallic ions. This study …

Sulfate reducing bacteria (SRB) can be utilized for the in-situ remediation of heavy metal
contaminated sediment, and the remediation processes occurring at different depths of the …