Adapting the algal microbiome for growth on domestic landfill leachate
- PMID: 33254468
- DOI: 10.1016/j.biortech.2020.124246
Adapting the algal microbiome for growth on domestic landfill leachate
Abstract
We aimed to improve algal growth rate on leachate by optimising the algal microbiome. An algal-bacterial consortium was enriched from landfill leachate and subjected to 24 months of adaptive laboratory evolution, increasing the growth rate of the dominant algal strain, Chlorella vulgaris, almost three-fold to 0.2 d-1. A dramatic reduction in nitrate production suggested a shift in biological utilisation of ammoniacal-N, supported by molecular 16S rRNA taxonomic analyses, where Nitrosomonas numbers were not detected in the adapted consortium. A PICRUSt approach predicted metagenomic functional content and revealed a high number of sequences belonging to bioremediation pathways, including degradation of aromatic compounds, benzoate and naphthalene, as well as pathways known to be involved in algal-bacterial symbiosis. This study enhances our understanding of beneficial mechanisms in algal-bacterial associations in complex effluents, and ultimately enables the bottom-up design of optimised algal microbiomes for exploitation within industry.
Keywords: Adaptive laboratory evolution; Algae microbiome; Landfill leachate; PICRUSt.
Crown Copyright © 2020. Published by Elsevier Ltd. All rights reserved.
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