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Diverse Genomic Traits Differentiate Sinking-Particle-Associated versus Free-Living Microbes throughout the Oligotrophic Open Ocean Water Column

Andy O Leu, John M. Eppley, Andrew Burger, Edward F. DeLong

2022mBio61 citationsDOIOpen Access PDF

Abstract

and to deliver nutrients and energy on sinking particles to the deep sea. Here, we report on the genomic traits of particle-attached versus free-living microbes throughout the ocean water column to better differentiate their specific metabolic and ecological roles in the sea. In general, the genomic properties and contents of particle-attached microbes reflected the physical and chemical compositions of their environment as well as their microhabitat-specific adaptive traits. In comparison to cooccurring free-living microbes, particle-attached microbes had larger genomes, greater capacity for extracellular polymer degradation, greater environmental sensing and response capacity, greater potential for motility and attachment, and higher growth efficiencies. Our results present an integrated new perspective on sinking-particle-attached microbial adaptive traits that contribute to their critical ecological and biogeochemical roles and activities in the sea.

Topics & Concepts

Water columnBiologyProchlorococcusArchaeaMetagenomicsParticle (ecology)MicrobiomeBacterioplanktonNutrientBacteriaEcologyEnvironmental chemistryChemistryBiochemistryGeneCyanobacteriaPhytoplanktonGeneticsSynechococcusMicrobial Community Ecology and PhysiologyMethane Hydrates and Related PhenomenaProtist diversity and phylogeny
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