The study of bacterial adhesion and its consequences has great significance in different
fields such as marine science, renewable energy sectors, soil and plant ecology, food …

The down flow structured bed bioreactor (DFSBR) was applied to treat synthetic acid mine
drainage (AMD) to reduce sulfate, increase the pH and precipitate metals in solutions (Co …

Assimilatory and dissimilatory sulfate reduction (ASR and DSR) are the core bacterial sulfate-
reducing pathways involved in wastewater treatment. It has been reported that sulfate …

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 …

Bioremediation techniques utilizing sulfate-reducing bacteria (SRB) for acid mine drainage
(AMD) treatment have attracted growing attention in recent years, yet substrate …

The industrial activity has increased with the world's population in urban and non-urban
environments. Sulphate (SO 4 2-) is commonly found in aquatic ecosystems and is generally …

Acid mine drainage (AMD) can cause severe risks to the surrounding environment and
ecosystems because of its high metal content and acidity and thus should be disposed of …

The present study compared the effects of adding shrimp shell powder (SSP) at four levels
comprising 0%(CK), 5%(L), 10%(M), and 15%(H) on the abundance of antibiotic resistance …

The long-term drinking of high-concentration fluorine-containing wastewater by residents in
the mining area will cause fluorosis of varying severities. In order to avoid fluorosis, this …

The competition between sulfate-reducing bacteria and methane-producing archaea has a
major influence on organic matter removal, as well as the success of sulfidogenic systems …