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'Rare biosphere' bacteria as key phenanthrene degraders in coastal seawaters. | LitMetric
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'Rare biosphere' bacteria as key phenanthrene degraders in coastal seawaters.

Caroline Sauret Tatiana Séverin Gilles Vétion Catherine Guigue Madeleine Goutx Mireille Pujo-Pay Pascal Conan Sonja K Fagervold Jean-François Ghiglione

Environ Pollut

CNRS, UMR 7621, Laboratoire d'Océanographie Microbienne, Observatoire Océanologique, F-66650 Banyuls/mer, France; Sorbonne Universités, UPMC Univ Paris 06, UMR 7621, Laboratoire d'Océanographie Microbienne, Observatoire Océanologique, F-66650 Banyuls/mer, France. Electronic address:

Published: November 2014

AI Article Synopsis

  • Researchers used DNA-SIP and pyrosequencing to identify Cycloclasticus sp. as a key bacterium in degrading polycyclic aromatic hydrocarbons (PAHs) in NW Mediterranean seawaters, highlighting its role despite being part of the 'rare biosphere.'
  • They discovered new PAH-degrading bacteria, like Oceanibaculum sp. and Sneathiella sp., alongside established degraders such as Alteromonas sp. and Paracoccus sp., contributing to significant phenanthrene degradation.
  • The study revealed that PAH-tolerant bacterial communities were more diverse in polluted areas compared to unpolluted ones, suggesting complex interactions and providing insights into the ecology of marine bacteria in contaminated environments.

Article Abstract

By coupling DNA-SIP and pyrosequencing approaches, we identified Cycloclasticus sp. as a keystone degrader of polycyclic aromatic hydrocarbons (PAH) despite being a member of the 'rare biosphere' in NW Mediterranean seawaters. We discovered novel PAH-degrading bacteria (Oceanibaculum sp., Sneathiella sp.) and we identified other groups already known to possess this function (Alteromonas sp., Paracoccus sp.). Together with Cycloclasticus sp., these groups contributed to potential in situ phenanthrene degradation at a rate >0.5 mg l(-1) day(-1), sufficient to account for a considerable part of PAH degradation. Further, we characterized the PAH-tolerant bacterial communities, which were much more diverse in the polluted site by comparison to unpolluted marine references. PAH-tolerant bacteria were also members of the rare biosphere, such as Glaciecola sp. Collectively, these data show the complex interactions between PAH-degraders and PAH-tolerant bacteria and provide new insights for the understanding of the functional ecology of marine bacteria in polluted waters.

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 Source
http://dx.doi.org/10.1016/j.envpol.2014.07.024DOI Listing

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