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Identity and dynamics of the microbial community responsible for carbon monoxide oxidation in marine environments
(Cont.) Other microorganisms found to oxidize CO at environmentally relevant rates are members of beta- and gamma-proteobacteria, and one in the Cytophaga-Flavobacterium-Bacteroides group. A collective CO-oxidation activity was calculated from physiological measurements of purified isolates and abundance estimates of CO-oxidizing marine alpha group organisms. Relative proportions of CO-oxidizing Roseobacter and Paracoccus cells were resolved microscopically by microautoradiography in combination with DAPI and fluorescent-labeled oligonucleotide probes (Substrate Tracking AutoRadiography-Fluorescent In Situ Hybridization (STAR-FISH)). Marine alpha group organisms were a major component of total cell numbers (45.7%) at the time of sampling (March 2003), and CO-oxidizing members of the marine alpha group contributed up to 40.7% of total CO oxidation occurring in coastal waters.
- "(Cont.) Other microorganisms found to oxidize CO at environmentally relevant rates are members of beta- and gamma-proteobacteria, and one in the Cytophaga-Flavobacterium-Bacteroides group. A collective CO-oxidation activity was calculated from physiological measurements of purified isolates and abundance estimates of CO-oxidizing marine alpha group organisms. Relative proportions of CO-oxidizing Roseobacter and Paracoccus cells were resolved microscopically by microautoradiography in combination with DAPI and fluorescent-labeled oligonucleotide probes (Substrate Tracking AutoRadiography-Fluorescent In Situ Hybridization (STAR-FISH)). Marine alpha group organisms were a major component of total cell numbers (45.7%) at the time of sampling (March 2003), and CO-oxidizing members of the marine alpha group contributed up to 40.7% of total CO oxidation occurring in coastal waters."@en
- "As colored dissolved organic matter in seawater absorbs UV solar radiation, a variety of simple chemical species are produced, including carbon monoxide (CO). The ocean surface water is saturated with respect to CO, and is thus a source of CO to the atmosphere. CO reacts with and removes free-radical compounds, and may itself contribute to the 'greenhouse' gas content of the atmosphere. An important sink for CO in seawater is the biological oxidation of CO to CO₂ by marine microorganisms. The objectives of this study are to identify component members of the microbial community responsible for the oxidation of CO in coastal marine environments through a combination of recent microbiological and molecular approaches, and to estimate their contributions to total in situ CO bio-oxidation. We utilize an enrichment method that involves cultivation of bacteria on membrane filters, subsequent incubation with radiolabeled CO, and the use of autoradiography to screen colonies with the desired phenotype. Cell-specific CO-oxidation activity is determined for selected purified strains with a time-series ¹⁴CO-oxidation method. Molecular phylogeny based on 16S-rDNA gene sequence information within the context of the large and growing 16S database determines the phylogenetic relatedness and identity of marine CO-oxidizing bacteria that result from our cultivation program. The CO oxidizing organisms isolated in this study with greatest activity are closely related to the Roseobacter and Paracoccus genera of the alpha-proteobacteria, collectively known as the "marine alpha group.""@en
- "Identity and dynamics of the microbial community responsible for carbon monoxide oxidation in marine environments"@en