Microbial ammonia oxidation and enhanced nitrogen cycling in the Endeavour hydrothermal plume
Microbial ammonia oxidation and enhanced nitrogen cycling in the Endeavour hydrothermal plume
Ammonium was injected from the subseafloor hydrothermal system at the Endeavour Segment, Juan de Fuca Ridge, into the deep-sea water column resulting in an -rich (?177 nM) neutrally buoyant hydrothermal plume. This was quickly removed by both autotrophic ammonia oxidation and assimilation. The former accounted for at least 93% of total net removal, with its maximum rate in the neutrally buoyant plume (?53 nM d?1) up to 10-fold that in background deep water. Ammonia oxidation in this plume potentially added 26–130 mg into the deep-sea water column. This oxidation process was heavily influenced by the presence of organic-rich particles, with which ammonia-oxidizing bacteria (AOB) were often associated (40–68%). AOB contributed up to 10.8% of the total microbial communities within the plume, and might constitute a novel lineage of ?-proteobacterial AOB based on 16S rRNA and amoA phylogenetic analyses. Meanwhile, assimilation rates were also substantially enhanced within the neutrally buoyant plume (?26.4 nM d?1) and accounted for at least 47% of total net removal rates. The combined oxidation and assimilation rates always exceeded total net removal rates, suggesting active in situregeneration rates of at least an order of magnitude greater than the particulate nitrogen flux from the euphotic zone. Ammonia oxidation is responsible for turnover of 0.7–13 days and is probably the predominant in situ organic carbon production process (0.6–13 mg C m?2 d?1) at early stages of Endeavour neutrally buoyant plumes.
2268-2286
Lam, Phyllis
996aef80-a15d-4827-aed8-1b97b378f6ad
Cowen, James P.
5986604a-fab2-4269-8bcc-1876ba9cf15f
Popp, Brian N.
8c00f8ce-8cf9-46d4-82b5-0748e15799e3
Jones, Ronald D.
c78b3d85-1a07-479b-a1af-236aab629ae6
May 2008
Lam, Phyllis
996aef80-a15d-4827-aed8-1b97b378f6ad
Cowen, James P.
5986604a-fab2-4269-8bcc-1876ba9cf15f
Popp, Brian N.
8c00f8ce-8cf9-46d4-82b5-0748e15799e3
Jones, Ronald D.
c78b3d85-1a07-479b-a1af-236aab629ae6
Lam, Phyllis, Cowen, James P., Popp, Brian N. and Jones, Ronald D.
(2008)
Microbial ammonia oxidation and enhanced nitrogen cycling in the Endeavour hydrothermal plume.
Geochimica et Cosmochimica Acta, 72 (9), .
(doi:10.1016/j.gca.2008.01.033).
Abstract
Ammonium was injected from the subseafloor hydrothermal system at the Endeavour Segment, Juan de Fuca Ridge, into the deep-sea water column resulting in an -rich (?177 nM) neutrally buoyant hydrothermal plume. This was quickly removed by both autotrophic ammonia oxidation and assimilation. The former accounted for at least 93% of total net removal, with its maximum rate in the neutrally buoyant plume (?53 nM d?1) up to 10-fold that in background deep water. Ammonia oxidation in this plume potentially added 26–130 mg into the deep-sea water column. This oxidation process was heavily influenced by the presence of organic-rich particles, with which ammonia-oxidizing bacteria (AOB) were often associated (40–68%). AOB contributed up to 10.8% of the total microbial communities within the plume, and might constitute a novel lineage of ?-proteobacterial AOB based on 16S rRNA and amoA phylogenetic analyses. Meanwhile, assimilation rates were also substantially enhanced within the neutrally buoyant plume (?26.4 nM d?1) and accounted for at least 47% of total net removal rates. The combined oxidation and assimilation rates always exceeded total net removal rates, suggesting active in situregeneration rates of at least an order of magnitude greater than the particulate nitrogen flux from the euphotic zone. Ammonia oxidation is responsible for turnover of 0.7–13 days and is probably the predominant in situ organic carbon production process (0.6–13 mg C m?2 d?1) at early stages of Endeavour neutrally buoyant plumes.
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Published date: May 2008
Organisations:
Ocean Biochemistry & Ecosystems
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Local EPrints ID: 349925
URI: http://eprints.soton.ac.uk/id/eprint/349925
ISSN: 0016-7037
PURE UUID: c214e304-a6e7-4e7a-8126-d79b5411bd4e
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Date deposited: 13 Mar 2013 14:30
Last modified: 15 Mar 2024 03:47
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Author:
James P. Cowen
Author:
Brian N. Popp
Author:
Ronald D. Jones
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