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Functional diversity of bacteria in a ferruginous hydrothermal sediment

Functional diversity of bacteria in a ferruginous hydrothermal sediment
Functional diversity of bacteria in a ferruginous hydrothermal sediment
A microbial community showing diverse respiratory processes was identified within an arsenic-rich, ferruginous shallow marine hydrothermal sediment (20–40?°C, pH 6.0–6.3) in Santorini, Greece. Analyses showed that ferric iron reduction with depth was broadly accompanied by manganese and arsenic reduction and FeS accumulation. Clone library analyses indicated the suboxic–anoxic transition zone sediment contained abundant Fe(III)- and sulfate-reducing Deltaproteobacteria, whereas the overlying surface sediment was dominated by clones related to the Fe(II)-oxidizing zetaproteobacterium, Mariprofundus ferroxydans. Cultures obtained from the transition zone were enriched in bacteria that reduced Fe(III), nitrate, sulfate and As(V) using acetate or lactate as electron donors. In the absence of added organic carbon, bacteria were enriched that oxidized Fe(II) anaerobically or microaerobically, sulfide microaerobically and aerobically and As(III) aerobically. According to 16S rRNA gene analyses, enriched bacteria represented a phylogenetically wide distribution. Most probable number counts indicated an abundance of nitrate-, As(V)- and Fe(III)(s,aq)-reducers, and dissolved sulfide-oxidizers over sulfate-reducers, and FeS-, As(III)- and nitrate-dependent Fe(II)-oxidisers in the transition zone. It is noteworthy that the combined community and geochemical data imply near-surface microbial iron and arsenic redox cycling were dominant biogeochemical processes.
1751-7362
1193-1205
Handley, Kim M.
6afc9262-cd75-4e31-a6da-7095c7c13035
Boothman, Christopher
503f9ad7-07d5-45b5-97a5-2ce815e60d1c
Mills, Rachel A.
a664f299-1a34-4b63-9988-1e599b756706
Pancost, Richard D.
5914e19e-7777-4304-9fd8-86e2e9cfe8a1
Lloyd, Jonathan R.
03a3a92e-c680-4630-8c27-9deed5d09a02
Handley, Kim M.
6afc9262-cd75-4e31-a6da-7095c7c13035
Boothman, Christopher
503f9ad7-07d5-45b5-97a5-2ce815e60d1c
Mills, Rachel A.
a664f299-1a34-4b63-9988-1e599b756706
Pancost, Richard D.
5914e19e-7777-4304-9fd8-86e2e9cfe8a1
Lloyd, Jonathan R.
03a3a92e-c680-4630-8c27-9deed5d09a02

Handley, Kim M., Boothman, Christopher, Mills, Rachel A., Pancost, Richard D. and Lloyd, Jonathan R. (2010) Functional diversity of bacteria in a ferruginous hydrothermal sediment. The ISME Journal, 4, 1193-1205. (doi:10.1038/ismej.2010.38).

Record type: Article

Abstract

A microbial community showing diverse respiratory processes was identified within an arsenic-rich, ferruginous shallow marine hydrothermal sediment (20–40?°C, pH 6.0–6.3) in Santorini, Greece. Analyses showed that ferric iron reduction with depth was broadly accompanied by manganese and arsenic reduction and FeS accumulation. Clone library analyses indicated the suboxic–anoxic transition zone sediment contained abundant Fe(III)- and sulfate-reducing Deltaproteobacteria, whereas the overlying surface sediment was dominated by clones related to the Fe(II)-oxidizing zetaproteobacterium, Mariprofundus ferroxydans. Cultures obtained from the transition zone were enriched in bacteria that reduced Fe(III), nitrate, sulfate and As(V) using acetate or lactate as electron donors. In the absence of added organic carbon, bacteria were enriched that oxidized Fe(II) anaerobically or microaerobically, sulfide microaerobically and aerobically and As(III) aerobically. According to 16S rRNA gene analyses, enriched bacteria represented a phylogenetically wide distribution. Most probable number counts indicated an abundance of nitrate-, As(V)- and Fe(III)(s,aq)-reducers, and dissolved sulfide-oxidizers over sulfate-reducers, and FeS-, As(III)- and nitrate-dependent Fe(II)-oxidisers in the transition zone. It is noteworthy that the combined community and geochemical data imply near-surface microbial iron and arsenic redox cycling were dominant biogeochemical processes.

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Published date: September 2010
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Identifiers

Local EPrints ID: 148833
URI: http://eprints.soton.ac.uk/id/eprint/148833
DOI: doi:10.1038/ismej.2010.38
ISSN: 1751-7362
PURE UUID: 044f18ca-2b0b-45ea-aa31-2c6d1e2dd6c7
ORCID for Rachel A. Mills: ORCID iD orcid.org/0000-0002-9811-246X

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Date deposited: 29 Apr 2010 07:57
Last modified: 14 Mar 2024 02:37

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Author: Kim M. Handley
Author: Christopher Boothman
Author: Rachel A. Mills ORCID iD
Author: Richard D. Pancost
Author: Jonathan R. Lloyd

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