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Nitrogen losses in anoxic marine sediments driven by Thioploca–anammox bacterial consortia
Prokopenko, M.G.; Hirst, M.B.; De Brabandere, L.; Lawrence, D.J.P.; Berelson, W.M.; Granger, J.; Chang, B.X.; Dawson, S.; Crane III, E.J.; Chong, L.; Thamdrup, B.; Townsend-Small, A.; Sigman, D.M. (2013). Nitrogen losses in anoxic marine sediments driven by Thioploca–anammox bacterial consortia. Nature (Lond.) 500(7461): 194-198. http://dx.doi.org/10.1038/nature12365
In: Nature: International Weekly Journal of Science. Nature Publishing Group: London. ISSN 0028-0836; e-ISSN 1476-4687, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoorden
    Chemistry > Geochemistry > Biogeochemistry
    Isotopes > Stable isotopes
    Marien/Kust

Auteurs  Top 
  • Prokopenko, M.G.
  • Hirst, M.B.
  • De Brabandere, L., meer
  • Lawrence, D.J.P.
  • Berelson, W.M.
  • Granger, J.
  • Chang, B.X.
  • Dawson, S.
  • Crane III, E.J.
  • Chong, L.
  • Thamdrup, B.
  • Townsend-Small, A.
  • Sigman, D.M.

Abstract
    Ninety per cent of marine organic matter burial occurs in continental margin sediments, where a substantial fraction of organic carbon escapes oxidation and enters long-term geologic storage within sedimentary rocks. In such environments, microbial metabolism is limited by the diffusive supply of electron acceptors. One strategy to optimize energy yields in a resource-limited habitat is symbiotic metabolite exchange among microbial associations1, 2. Thermodynamic and geochemical considerations indicate that microbial co-metabolisms are likely to play a critical part in sedimentary organic carbon cycling3, 4, 5. Yet only one association, between methanotrophic archaea and sulphate-reducing bacteria, has been demonstrated in marine sediments in situ6, 7, and little is known of the role of microbial symbiotic interactions in other sedimentary biogeochemical cycles8. Here we report in situ molecular and incubation-based evidence for a novel symbiotic consortium between two chemolithotrophic bacteria—anaerobic ammonium-oxidizing (anammox) bacteria and the nitrate-sequestering sulphur-oxidizing Thioploca species—in anoxic sediments of the Soledad basin at the Mexican Pacific margin. A mass balance of benthic solute fluxes and the corresponding nitrogen isotope composition of nitrate and ammonium fluxes indicate that anammox bacteria rely on Thioploca species for the supply of metabolic substrates and account for about 57?±?21 per cent of the total benthic N2 production. We show that Thioploca–anammox symbiosis intensifies benthic fixed nitrogen losses in anoxic sediments, bypassing diffusion-imposed limitations by efficiently coupling the carbon, nitrogen and sulphur cycles.

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