13 Bacillus spp. assessed for growth, wastewater remediation and enzyme production.
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Isolates were found to be safe for use in environmental applications.
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Based on scoring, 3 isolates were found to be best remediation agents.
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Consortium demonstrated effective removal ability in a fluidized-bed reactor (FBR).
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A one-step “Aerobic Nitrification-Denitrification” was achieved using a consortium.
Abstract
Application of two-step “Autotrophic Nitrification and Anoxic Denitrification” for nutrients removal has found several limitations. This study aimed at isolating indigenous heterotrophic Bacillus strains for chemical oxygen demand (COD), ammonium nitrogen (NH4+-N), and phosphate (PO43−-P) removal using one-step “Aerobic Nitrification-Denitrification”. Thirteen isolates were examined for growth performance, followed by bioremediation and enzymes production. B006, D005, and D014 were selected and shown to be safe for anthrax toxin and enterotoxin. B006 and D005 were identified as Bacillus cereus, whereas D014 had similarity to Bacillus subtilis. Three isolates were inoculated in a fluidized-bed reactor (FBR), achieving COD, NH4+-N, and PO43−-P removal efficiencies of 74.42 ± 6.96, 62.66 ± 10.67, and 43.57 ± 10.23%, respectively within 11.3 h. The consortium attained adequate bioremediation capabilities when hydraulic retention time was decreased to only 5.7 h. This study showed environmental value in enhancing biological reactor performance using bio-augmentation, especially in small-scale and low-energy treatment systems.