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Patin, Nastassia V.; Pratte, Zoe A.; Regensburger, Matthew; Hall, Eric; Gilde, Kailen; Dove, Alistair D. M.; Stewart, Frank J.

Microbiome Dynamics in a Large Artificial Seawater Aquarium

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  • Media type: E-Article
  • Title: Microbiome Dynamics in a Large Artificial Seawater Aquarium
  • Contributor: Patin, Nastassia V.; Pratte, Zoe A.; Regensburger, Matthew; Hall, Eric; Gilde, Kailen; Dove, Alistair D. M.; Stewart, Frank J.
  • imprint: American Society for Microbiology, 2018
  • Published in: Applied and Environmental Microbiology, 84 (2018) 10
  • Language: English
  • DOI: 10.1128/aem.00179-18
  • ISSN: 0099-2240; 1098-5336
  • Origination:
  • Footnote:
  • Description: <jats:title>ABSTRACT</jats:title> <jats:p> Artificial habitats for animals have high commercial and societal value. Microbial communities (microbiomes) in such habitats may play ecological roles similar to those in nature. However, this hypothesis remains largely untested. Georgia Aquarium's <jats:named-content content-type="genus-species">Ocean Voyager</jats:named-content> (OV) exhibit is a closed-system aquatic habitat that mimics the oligotrophic open ocean and houses thousands of large marine animals, including fish, sea turtles, and whale sharks. We present a 14-month time series characterizing the OV water column microbiome. The composition and stability of the microbiome differed from those of natural marine environments with similar chemical features. The composition shifted dramatically over the span of 2 weeks and was characterized by bloom events featuring members of two heterotrophic bacterial lineages with cosmopolitan distributions in the oceans. The relative abundances of these lineages were inversely correlated, suggesting an overlap in ecological niches. Transcript mapping to metagenome-assembled genomes (MAGs) of these taxa identified unique characteristics, including the presence and activity of genes for the synthesis and degradation of cyanophycin, an amino acid polymer linked to environmental stress and found frequently in cyanobacteria but rarely in heterotrophic bacteria. The dominant MAGs also contained and transcribed plasmid-associated sequences, suggesting a role for conjugation in adaptation to the OV environment. These findings indicate a highly dynamic microbiome despite the stability of the physical and chemical parameters of the water column. Characterizing how such fluctuations affect microbial function may inform our understanding of animal health in closed aquaculture systems. </jats:p> <jats:p> <jats:bold>IMPORTANCE</jats:bold> Public aquariums play important societal roles, for example, by promoting science education and helping conserve biodiversity. The health of aquarium animals depends on interactions with the surrounding microbiome. However, the extent to which aquariums recreate a stable and natural microbial ecosystem is uncertain. This study describes the taxonomic composition of the water column microbiome over 14 months in a large indoor aquatic habitat, the <jats:named-content content-type="genus-species">Ocean Voyager</jats:named-content> exhibit at the Georgia Aquarium. Despite stable water column conditions, the exhibit experienced blooms in which the abundance of a single bacterial strain increased to over 65% of the community. Genome analysis indicated that the OV's dominant strains share unique adaptations, notably genes for storage polymers associated with environmental stress. These results, interpreted alongside data from natural ocean systems and another artificial seawater aquarium, suggest a highly dynamic aquarium microbiome and raise questions of how microbiome stability may affect the ecological health of the habitat. </jats:p>
  • Access State: Open Access