Transfer of coliform bacteria to duckweed harvested from anaerobic baffled reactor effluent

Efforts to recover nutrients from wastewater have drawn interest in effluent polishing with duckweed, a small angiosperm known to grow in high nutrient environments. One important consideration is that pathogens may be transferred to suspended duckweed biomass and ultimately spread into agricultural...

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Bibliographic Details
Published in:Bioresource technology reports 2019-12, Vol.8, p.100314, Article 100314
Main Authors: Clack, Kevin, Pietruschka, Bjoern, Amoah, Isaac Dennis, Muchaonyerwa, Pardon, Odindo, Oduor Alfred, Palomo, Monica, Buckley, Chris, Ngwane, Zoluntu, Mladenov, Natalie
Format: Article
Language:English
Subjects:
Anaerobic baffled reactor
Duckweed
Fecal indicator bacteria
Nutrient recovery
Pathogens
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Summary:Efforts to recover nutrients from wastewater have drawn interest in effluent polishing with duckweed, a small angiosperm known to grow in high nutrient environments. One important consideration is that pathogens may be transferred to suspended duckweed biomass and ultimately spread into agricultural or other environmental settings. Our objective was to evaluate transfer of fecal indicator bacteria to duckweed (Lemna minor and Wolffia arrhiza) from anaerobic baffled reactor effluent. The presence of duckweed resulted in significant removal (~1.5-log) of Escherichia coli and >65% decrease in turbidity in reactors. There was E. coli transfer of ~7-log CFU/g from effluent to harvested duckweed, and viable E. coli persisted (at 3.6-log CFU/g) even after several days of biomass drying, representing a health risk for agricultural applications. •E. coli and turbidity removal occurred in bench-scale ponds containing duckweed.•Harvested duckweed contained elevated concentrations of fecal indicator bacteria.•E. coli concentrations in harvested duckweed biomass present a public health risk.•Drying biomass at ambient temperatures lowers fecal bacteria counts significantly.•Fecal indicator bacteria in harvested duckweed biomass regrew after drying 72 h.
ISSN:2589-014X
2589-014X
DOI:10.1016/j.biteb.2019.100314