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Hydrothermal sediments are a source of water column Fe and Mn in the Bransfield Strait, Antarctica

Hydrothermal sediments are a source of water column Fe and Mn in the Bransfield Strait, Antarctica
Hydrothermal sediments are a source of water column Fe and Mn in the Bransfield Strait, Antarctica
Short sediment cores were collected from ~1100 m water depth at the top of Hook Ridge, a submarine volcanic edifice in the Central Basin of the Bransfield Strait, Antarctica, to assess Fe and Mn supply to the water column. Low-temperature hydrothermal fluids advect through these sediments and, in places, subsurface H2S is present at high enough concentrations to support abundant Sclerolinum sp., an infaunal tubeworm that hosts symbiotic thiotrophic bacteria. The water column is fully oxic, and oxygen penetration depths at all sites are 2-5 cmbsf. Pore water Fe and Mn content is high within the subsurface ferruginous zone (max. 565 µmol Fe L-1, >3 to 7 cmbsf) — 14-18 times higher than values measured at a nearby, background site of equivalent water depth. Diffision and advection of pore waters supply significant Fe and Mn to the surface sediment. Sequential extraction of the sediment demonstrates that there is a significant enrichment in a suite of reactive, authigenic Fe minerals in the upper 0-5 cm of sediment at one site characterised by weathered crusts at the seafloor. At a site with only minor authigenic mineral surface enrichment we infer that leakage of pore water Fe and Mn from the sediment leads to enriched total dissolvable Fe and Mn in bottom waters. The largest Eh anomaly observed from our Bransfield Strait survey is associated with the elevated total dissolvable metal content in the water column above this coring site.. We hypothesize that the main mechanism for Fe and Mn efflux from the sediment is breach of the surface oxic layer by the abundant Sclerolinum sp., along with episodic enhancements by physical mixing and resuspension of sediment in this dynamic volcanic environment. We propose that Hook Ridge sediments are an important source of Fe and Mn to the deep waters of the Central Basin in the Bransfield Strait, where concentrations are sustained by the benthic flux, and Fe is stabilised in the water column as either colloidal phases or ligand-bound dissolved species. Entrainment of this water mass into the Drake Passage and thereby the Antarctic Circumpolar Current could provide a significant metal source to this HNLC region of the Southern Ocean if mixing and upwelling occurs before removal of this metal pool to underlying sediments. Sediment-covered volcanic ridges are common within rifted margins and may play a previously overlooked role in the global Fe cycle.
0016-7037
64-80
Aquilina, Alfred
a5ce0174-e2d4-40ee-baa5-86ba2f24058c
Homoky, William B.
39da18e9-28b8-42c4-8e17-2cb66af8ee4d
Hawkes, Jeffrey A.
19e298a9-b5bf-4987-bfea-07780ca5bd69
Lyons, Timothy W.
88d11315-28e3-4d69-bc5f-a2a6923e7369
Mills, Rachel A.
a664f299-1a34-4b63-9988-1e599b756706
Aquilina, Alfred
a5ce0174-e2d4-40ee-baa5-86ba2f24058c
Homoky, William B.
39da18e9-28b8-42c4-8e17-2cb66af8ee4d
Hawkes, Jeffrey A.
19e298a9-b5bf-4987-bfea-07780ca5bd69
Lyons, Timothy W.
88d11315-28e3-4d69-bc5f-a2a6923e7369
Mills, Rachel A.
a664f299-1a34-4b63-9988-1e599b756706

Aquilina, Alfred, Homoky, William B., Hawkes, Jeffrey A., Lyons, Timothy W. and Mills, Rachel A. (2014) Hydrothermal sediments are a source of water column Fe and Mn in the Bransfield Strait, Antarctica. Geochimica et Cosmochimica Acta, 137, 64-80. (doi:10.1016/j.gca.2014.04.003).

Record type: Article

Abstract

Short sediment cores were collected from ~1100 m water depth at the top of Hook Ridge, a submarine volcanic edifice in the Central Basin of the Bransfield Strait, Antarctica, to assess Fe and Mn supply to the water column. Low-temperature hydrothermal fluids advect through these sediments and, in places, subsurface H2S is present at high enough concentrations to support abundant Sclerolinum sp., an infaunal tubeworm that hosts symbiotic thiotrophic bacteria. The water column is fully oxic, and oxygen penetration depths at all sites are 2-5 cmbsf. Pore water Fe and Mn content is high within the subsurface ferruginous zone (max. 565 µmol Fe L-1, >3 to 7 cmbsf) — 14-18 times higher than values measured at a nearby, background site of equivalent water depth. Diffision and advection of pore waters supply significant Fe and Mn to the surface sediment. Sequential extraction of the sediment demonstrates that there is a significant enrichment in a suite of reactive, authigenic Fe minerals in the upper 0-5 cm of sediment at one site characterised by weathered crusts at the seafloor. At a site with only minor authigenic mineral surface enrichment we infer that leakage of pore water Fe and Mn from the sediment leads to enriched total dissolvable Fe and Mn in bottom waters. The largest Eh anomaly observed from our Bransfield Strait survey is associated with the elevated total dissolvable metal content in the water column above this coring site.. We hypothesize that the main mechanism for Fe and Mn efflux from the sediment is breach of the surface oxic layer by the abundant Sclerolinum sp., along with episodic enhancements by physical mixing and resuspension of sediment in this dynamic volcanic environment. We propose that Hook Ridge sediments are an important source of Fe and Mn to the deep waters of the Central Basin in the Bransfield Strait, where concentrations are sustained by the benthic flux, and Fe is stabilised in the water column as either colloidal phases or ligand-bound dissolved species. Entrainment of this water mass into the Drake Passage and thereby the Antarctic Circumpolar Current could provide a significant metal source to this HNLC region of the Southern Ocean if mixing and upwelling occurs before removal of this metal pool to underlying sediments. Sediment-covered volcanic ridges are common within rifted margins and may play a previously overlooked role in the global Fe cycle.

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e-pub ahead of print date: 2 April 2014
Published date: 15 July 2014
Organisations: Geochemistry

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Local EPrints ID: 364313
URI: http://eprints.soton.ac.uk/id/eprint/364313
DOI: doi:10.1016/j.gca.2014.04.003
ISSN: 0016-7037
PURE UUID: 8cc9ed63-5e38-49f0-a821-b4d505cbfeb6
ORCID for Rachel A. Mills: ORCID iD orcid.org/0000-0002-9811-246X

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Date deposited: 22 Apr 2014 16:18
Last modified: 15 Mar 2024 02:46

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Contributors

Author: Alfred Aquilina
Author: William B. Homoky
Author: Jeffrey A. Hawkes
Author: Timothy W. Lyons
Author: Rachel A. Mills ORCID iD

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