Novel, active, and uncultured hydrocarbon degrading microbes in the ocean

Abstract

AbstractGiven the vast quantity of oil and gas input to the marine environment annually, hydrocarbon degradation by marine microorganisms is an essential ecosystem service. Linkages between taxonomy and hydrocarbon degradation capabilities are largely based on cultivation studies, leaving a knowledge gap regarding the intrinsic ability of uncultured marine microbes to degrade hydrocarbons. To address this knowledge gap, metagenomic sequence data from the Deepwater Horizon (DWH) oil spill deep-sea plume was assembled to which metagenomic and metatranscriptomic reads were mapped. Assembly and binning produced new DWH metagenome assembled genomes that were evaluated along with their close relatives, all of which are from the marine environment (38 total). These analyses revealed globally distributed hydrocarbon degrading microbes with clade specific substrate degradation potentials that have not been reported previously. For example, methane oxidation capabilities were identified in allCycloclasticus. Further, allBermanellaencoded and expressed genes for non-gaseous n-alkane degradation; however, DWHBermanellaencoded alkane hydroxylase, not alkane 1-monooxygenase. All but one previously unrecognized DWH plume members in the SAR324 and UBA11654 coded for aromatic hydrocarbon degradation. In contrast,Colwelliawere diverse in the hydrocarbon substrates they could degrade. All clades encoded nutrient acquisition strategies and response to cold temperatures, while sensory and acquisition capabilities were clade specific. These novel insights regarding hydrocarbon degradation by uncultured planktonic microbes provided missing data, allowing for better prediction of the fate of oil and gas when hydrocarbons are input to the ocean, leading to a greater understanding of the ecological consequences to the marine environment.ImportanceMicrobial degradation of hydrocarbons is a critically important process promoting ecosystem health, yet much of what is known about this process is based on physiological experiments with a few hydrocarbon substrates and cultured microbes. Thus, the ability to degrade the diversity of hydrocarbons that comprise oil and gas by microbes in the environment, particularly in the ocean, is not well characterized. Therefore, this study aimed to utilize non-cultivation based ‘omics’ data to explore novel genomes of uncultured marine microbes involved in degradation of oil and gas. Analyses of newly assembled metagenomic data and metagenomic and metatranscriptomic read recruitment revealed globally distributed hydrocarbon degrading marine microbes with clade specific substrate degradation potentials that have not been previously reported. This new understanding of oil and gas degradation by uncultured marine microbes suggested that the global ocean harbors a diversity of hydrocarbon degrading Bacteria, that can act as primary agents regulating ecosystem health.