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Bacterial response to spatial gradients of algal-derived nutrients in a porous microplate. | LitMetric

AI Article Synopsis

  • Photosynthetic microalgae contribute to 50% of global CO2 fixation and have potential as renewable energy sources, influenced by their interactions with surrounding bacteria in the algal microbiome.
  • A new copolymer-based microplate was developed to allow co-culturing of algae and bacteria while enabling nutrient exchange but keeping them physically separated, resulting in much higher algal growth.
  • Research shows that bacteria respond to nutrients from algae and their environment in predictable ways, suggesting that proximity to algae and their growth stages affect bacterial community development in specific ways.

Article Abstract

Photosynthetic microalgae are responsible for 50% of the global atmospheric CO fixation into organic matter and hold potential as a renewable bioenergy source. Their metabolic interactions with the surrounding microbial community (the algal microbiome) play critical roles in carbon cycling, but due to methodological limitations, it has been challenging to examine how community development is influenced by spatial proximity to their algal host. Here we introduce a copolymer-based porous microplate to co-culture algae and bacteria, where metabolites are constantly exchanged between the microorganisms while maintaining physical separation. In the microplate, we found that the diatom Phaeodactylum tricornutum accumulated to cell abundances ~20 fold higher than under normal batch conditions due to constant replenishment of nutrients through the porous structure. We also demonstrate that algal-associated bacteria, both single isolates and complex communities, responded to inorganic nutrients away from their host as well as organic nutrients originating from the algae in a spatially predictable manner. These experimental findings coupled with a mathematical model suggest that host proximity and algal culture growth phase impact bacterial community development in a taxon-specific manner through organic and inorganic nutrient availability. Our novel system presents a useful tool to investigate universal metabolic interactions between microbes in aquatic ecosystems.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8940921PMC
http://dx.doi.org/10.1038/s41396-021-01147-xDOI Listing

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