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Electrogenic sulfur oxidation by cable bacteria in two seasonally hypoxic coastal systems
Burdorf, L.D.W.; Cook, P.L.M.; Robertson, E.K.; Tramper, A.; Martinez, S.H.; Cardenas, D.V.; Malkin, S.Y.; Meysman, F.J.R. (2024). Electrogenic sulfur oxidation by cable bacteria in two seasonally hypoxic coastal systems. Est., Coast. and Shelf Sci. 297: 108615. https://dx.doi.org/10.1016/j.ecss.2024.108615
In: Estuarine, Coastal and Shelf Science. Academic Press: London; New York. ISSN 0272-7714; e-ISSN 1096-0015, meer
Peer reviewed article  

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Trefwoord
    Marien/Kust
Author keywords
    Aquatic biogeochemistry; Long-distance electron transport; Cable bacteria; Iron cycling; Alkalinity; Sediment buffering capacity

Auteurs  Top 
  • Burdorf, L.D.W., meer
  • Cook, P.L.M.
  • Robertson, E.K.
  • Tramper, A., meer
  • Martinez, S.H., meer
  • Cardenas, D.V., meer
  • Malkin, S.Y.
  • Meysman, F.J.R., meer

Abstract
    Cable bacteria can reach high densities in coastal sediments, and as a result of their unusual electrogenic lifestyle and intense metabolic activity, exert a major and distinct impact on biogeochemical cycling, both locally in sediments and at the ecosystem level. This appears to be particularly true for seasonally hypoxic systems, but the driving force behind the proliferation of cable bacteria in these systems is not well understood. Moreover, the metabolism of cable bacteria induces strong acid production, which can be buffered through carbonate dissolution in sediments. A strong depletion of alkalinity in the pore water is therefore expected in carbonate-poor sediments. To evaluate the impact of cable bacteria metabolism on sediment geochemistry, we performed field sampling and laboratory sediment incubations in two seasonally hypoxic sites: one carbonate-poor site with low levels of free sulfide in pore water (Yarra Estuary, Australia) and one carbonate-rich site with high free sulfide (Lake Grevelingen, The Netherlands). Active cable bacteria populations were found in both field locations, with higher abundance and activity observed in spring compared to autumn. The sediment incubations tracked the metabolic activity of cable bacteria over time (maximum 84 days), and confirmed the fast development of an electric network (cell doubling time: similar to 19 h). These results suggest that cable bacteria are widespread in seasonally hypoxic systems, supporting previous findings. Cable bacteria acidified the sediment by > 1.5 pH units in 6-13 days (differing per site) and their activity accounted for >70% of the oxygen uptake. A clear subsurface accumulation of Fe2+ was observed after 8 days of Yarra sediment incubations, indicative of increased FeS dissolution as e-SOx developed. The increased availability of sulfide from FeS dissolution promotes a positive-feedback loop that we infer allowed for a faster development of cable bacteria in the carbonate-poor sediments. A depletion of total alkalinity was observed in the deeper Yarra sediment, whereas, a higher alkalinity efflux was previously observed in the carbonate-rich sediments from Lake Grevelingen. These results suggest a differential pH and alkalinity dynamic due to the interaction between the local carbonate content of the sediment and cable bacteria activity.

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