Abstract
Polycyclic aromatic hydrocarbons (PAHs) are common organic contaminants found in anoxic environments. The capacity for PAH biodegradation in unimpacted environments, however, has been understudied. Here we investigate the enrichment, selection, and sustainability of a microbial community from a pristine environment on naphthalene as the only amended carbon source. Pristine coastal sediments were obtained from the Jacques Cousteau National Estuarine Research Reserve in Tuckerton, New Jersey, an ecological reserve which has no direct input or source of hydrocarbons. After an initial exposure to naphthalene, primary anaerobic transfer cultures completely degraded 500 µM naphthalene within 139 days. Subsequent transfer cultures mineralized naphthalene within 21 days with stoichiometric sulfate loss. Enriched cultures efficiently utilized only naphthalene and 2-methylnaphthalene from the hydrocarbon mixtures in crude oil. To determine the microorganisms responsible for naphthalene degradation, stable isotope probing was utilized on cultures amended with fully labeled 13C-naphthalene as substrate. Three organisms were found to unambiguously synthesize 13C-DNA from 13C-naphthalene within 7 days. Phylogenetic analysis revealed that 16S rRNA genes from two of these organisms are closely related to the known naphthalene degrading isolates NaphS2 and NaphS3 from PAH-contaminated sites. A third 16S rRNA gene was only distantly related to its closest relative and may represent a novel naphthalene degrading microbe from this environment.
Highlights
Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous in the environment from biogenic, pyrogenic, and more recently, anthropogenic sources
Microorganisms corresponding to terminal restriction fragments (TRFs) 120, 233, and 275
Microorganisms corresponding to TRFs 120, 233, and 275 demonstrated early and relatively stable enrichment on 13C from naphthalene
Summary
Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous in the environment from biogenic, pyrogenic, and more recently, anthropogenic sources. Increases in anthropogenic production have led to areas with substantial concentrations, even in pristine environments historically un-impacted by point source pollution [1]. These toxic chemicals are of concern because of commonplace, continual anthropogenic introduction. Crude oil is a mixture of different chemicals and the metabolic diversity of anaerobic naphthalene degraders with this carbon source has not been reported. This is of interest since naphthalene is usually found along with other petroleum constituents in the environment
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