Removal of carbamazepine, venlafaxine and iohexol from wastewater effluent using coupled microalgal–bacterial biofilm

We evaluated the removal capacity of a coupled microalgal–bacterial biofilm (CMBB) to eliminate three recalcitrant pharmaceuticals. The CMBB's efficiency, operating at different biofilm concentrations, with or without light, was compared and analyzed to correlate these parameters to pharmaceuti...

Full description

Saved in:
Bibliographic Details
Published in:Chemosphere (Oxford) 2022-12, Vol.308, p.136399-136399, Article 136399
Main Authors: Akao, Patricia K., Kaplan, Aviv, Avisar, Dror, Dhir, Amit, Avni, Adi, Mamane, Hadas
Format: Article
Language:English
Subjects:
Microalgal–bacterial biofilm
Pharmaceutical removal
Sponges
Wastewater treatment
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We evaluated the removal capacity of a coupled microalgal–bacterial biofilm (CMBB) to eliminate three recalcitrant pharmaceuticals. The CMBB's efficiency, operating at different biofilm concentrations, with or without light, was compared and analyzed to correlate these parameters to pharmaceutical removal and their effect on the microorganism community. Removal rates changed with changing pharmaceutical and biofilm concentrations: higher biofilm concentrations presented higher removal. Removal of 82–94% venlafaxine and 18–51% carbamazepine was obtained with 5 days of CMBB treatment. No iohexol removal was observed. Light, microorganism composition, and dissolved oxygen concentration are essential parameters governing the removal of pharmaceuticals and ammonia. Chlorophyll concentration increased with time, even in the dark. Three bacterial phyla were dominant: Proteobacteria, Bacteroidetes and Firmicutes. The dominant eukaryotic supergroups were Archaeplastida, Excavata and SAR. A study of the microorganisms' community indicated that not only do the species in the biofilm play an important role; environment, concentration and interactions among them are also important. CMBB has the potential to provide low-cost and sustainable treatment for wastewater and recalcitrant pharmaceutical removal. The microenvironments on the biofilm created by the microalgae and bacteria improved treatment efficiency. [Display omitted] •Light, microorganism composition and DO impact pharmaceutical and ammonia removal.•CMBB removed 82–94% VLX and 18–51% CBZ in a 5-day treatment.•No removal of IHX was observed.•Microorganisms produced chlorophyll, even in the dark.•Pharmaceutical removal rate was correlated with biofilm concentration.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2022.136399