Dynamics of Microbial Populations and Strong Selection for Cycloclasticus pugetii following the Nakhodka Oil Spill |
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Authors: | A.?Maruyama author-information" > author-information__contact u-icon-before" > mailto:maruyama-aki@aist.go.jp" title=" maruyama-aki@aist.go.jp" itemprop=" email" data-track=" click" data-track-action=" Email author" data-track-label=" " >Email author,H.?Ishiwata,K.?Kitamura,M.?Sunamura,T.?Fujita,M.?Matsuo,T.?Higashihara |
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Affiliation: | (1) Biological Resources and Functions, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba 305-8566, Japan;(2) Biosystem Studies, University of Tsukuba, Tsukuba 305-8572, Japan;(3) Technological Research Institute, Nishimatsu Construction Co. Ltd., Yamato 242-8520, Japan;(4) NYK Technological Institute Co. Ltd., Isogo, Yokohama 235-0033, Japan |
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Abstract: | Microbial population changes were monitored immediately after the Nakhodka oil spill accident in January 1997 at the heavily oil-contaminated Mikuni coast along the Sea of Japan. The total cell number was almost stable for one year at 2–5 × 105 cells mL–1, while the relative occurrence of culturable heterotrophs and degraders of oil components such as C-heavy oil, kerosene, and n-tetradecane varied, showing a maximum (>50% of the total) immediately following the accident. Gene amplification and phylogenetic analysis of a dilution culture using C-heavy oil as the sole carbon and energy source revealed that one of the predominant oil degraders at the oil-contaminated coast in 2 weeks after the accident closely resembled the aromatic hydrocarbon decomposer Cycloclasticus pugetii. Microbial community composition in oil-contaminated seawater was estimated at the molecular level using newly developed oligonucleotide probes, probe wash-off curve estimation, and quantitative fluorescence dot-blot hybridization techniques. At two different oil-polluted sites, harbor and intertidal regions, the C. pugetii group was estimated to make up 23–25% of the total Bacteria population, followed by the aliphatic hydrocarbon decomposer Alcanivorax borkumensis, which formed 4–7% of the Bacteria. In incubation experiments using floated oil slick and indigenous microbes collected at the harbor, oil degradation activities were enhanced by the addition of both organic and inorganic nutrients. Significant decreases were found in aromatic and aliphatic hydrocarbon fractions: 54–60% and 22–24% in 2 weeks to 68–77% and 23–32% in 2 months, respectively. |
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