Effects of bacterial inoculation and nitrogen loading on bacterial-algal consortium composition and functions in an integrated photobioelectrochemical system

Effects of bacterial inoculation and nitrogen loading on bacterial-algal consortium composition and functions in an integrated photobioelectrochemical system

An integrated photo-bioelectrochemical system (IPB) for wastewater treatment combines a microbial fuel cell with an algal bioreactor, eliminating requirements for aeration, promoting electricity generation, remediating nutrients and producing algal biomass for conversion into biofuel or other biopro...

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Bibliographic Details
Published in:The Science of the total environment Vol. 716; p. 137135
Main Authors: Luo, Shuai, Waller, Lucas, Badgley, Brian, He, Zhen, Young, Erica B.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 10-05-2020
Subjects:
Ammonia
Ammonium
Bacteria
Bioreactors
Chlorella
Chlorella vulgaris
Community
Nitrites
Nitrobacter
Nitrogen
Nitrosomonas
Nutrient bioremediation
Oxidation-Reduction
RNA, Ribosomal, 16S
Nitrobacter
Nutrient bioremediation
Chlorella
Ammonium
Community
Nitrosomonas
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Summary:An integrated photo-bioelectrochemical system (IPB) for wastewater treatment combines a microbial fuel cell with an algal bioreactor, eliminating requirements for aeration, promoting electricity generation, remediating nutrients and producing algal biomass for conversion into biofuel or other bioproducts. To examine strategies for improving IPB functions of electrochemical output and nutrient removal efficiency, this study tested effects of cathode bacterial inoculation and nitrogen loading on cathode microbial community and IPB performance. IPB cathodes were inoculated with the green alga Chlorella vulgaris, in combination with nitrite-oxidizing bacteria (NOB) Nitrobacter winogradskyi, and/or ammonium-oxidizing bacteria (AOB) Nitrosomonas europaea. IPB performance was examined before and after nitrifying bacteria inoculations and under three ammonium loading concentrations in the wastewater medium. Bacterial communities in the cathode suspension and biofilm were examined by 16S rRNA gene sequence analysis. Relative to the algae only control, cathode inoculation with NOB and/or AOB improved net nutrient removal, but resulted in reduced dissolved oxygen availability, which impaired electricity generation. Higher ammonium loading increased electricity production and nutrient removal, possibly by overcoming algal-bacterial competition. Inoculation with nitrifying bacteria resulted in minor changes to total bacterial composition and AOB or NOB comprised <3% of total sequences after 1 month. Community composition changed more dramatically following increase in ammonium-N concentration from 40 to 80 mg L−1. Manipulation of N loading could be a useful strategy to improve IPB performance, while inoculation of AOB or NOB may be beneficial for treatment of water with high ammonium loading when N removal is the primary system goal. [Display omitted] •Algae and bacteria collaborate in a wastewater bioremediation system.•Changes in bacterial composition influence nutrient uptake and electrical output.•Inoculation with nitrifying bacteria had limited effect on composition or performance.•Higher ammonium loading changed bacteria and improved system performance.•Resource manipulation is most effective strategy to optimize performance.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2020.137135