Pore-water geochemistry of two contrasting brine-charged seep sites in the northern Gulf of Mexico continental slope

National Science Foundation; Shelf Slope Experimental Taphonomy Initiative (SSETI) Two brine-charged sites (GB425 and GC233) at the northern Gulf of Mexico (GOM) continental slope were studied for their pore-water advective flow rates and stable carbon isotope geochemistry. Using chloride as a conse...

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Main Authors: Hu, Xinping, Cai, Wei-Jun, Wang, Yongchen, Luo, Shangde, Guo, Xianghui, 郭香会
Format: Article in Journal/Newspaper
Language:English
Published: MAR CHEM 2010
Subjects:
METHANE HYDRATE DEPOSITS
STABLE CARBON ISOTOPES
GAS HYDRATE
ANAEROBIC OXIDATION
MARINE-SEDIMENTS
SEA-FLOOR
CHEMOSYNTHETIC COMMUNITIES
FLORIDA ESCARPMENT
SULFATE REDUCTION
CHEMICAL FLUXES
Methane hydrate
Online Access:http://dspace.xmu.edu.cn/handle/2288/87775
id ftxiamenuniv:oai:dspace.xmu.edu.cn:2288/87775
record_format openpolar
spelling ftxiamenuniv:oai:dspace.xmu.edu.cn:2288/87775 2023-05-15T17:12:05+02:00 Pore-water geochemistry of two contrasting brine-charged seep sites in the northern Gulf of Mexico continental slope Hu, Xinping Cai, Wei-Jun Wang, Yongchen Luo, Shangde Guo, Xianghui 郭香会 2010-02-28 http://dspace.xmu.edu.cn/handle/2288/87775 en_US eng MAR CHEM MARINE CHEMISTRY, 2010,118:99-107 WOS:000275342600001 http://dspace.xmu.edu.cn/handle/2288/87775 http://dx.doi.org/10.1016/j.marchem.2009.11.006 METHANE HYDRATE DEPOSITS STABLE CARBON ISOTOPES GAS HYDRATE ANAEROBIC OXIDATION MARINE-SEDIMENTS SEA-FLOOR CHEMOSYNTHETIC COMMUNITIES FLORIDA ESCARPMENT SULFATE REDUCTION CHEMICAL FLUXES Article 2010 ftxiamenuniv 2020-07-21T11:42:26Z National Science Foundation; Shelf Slope Experimental Taphonomy Initiative (SSETI) Two brine-charged sites (GB425 and GC233) at the northern Gulf of Mexico (GOM) continental slope were studied for their pore-water advective flow rates and stable carbon isotope geochemistry. Using chloride as a conservative tracer, a pore-water diffusion-advection model suggests that advection dominates pore-water flow in the upper 17 cm sediments at both sites. Moreover, modeled results indicate that there is a downward pore-water flow in GB425 and an upward one in GC233, presumably caused by nearby brine-seep activities. Profiles of pore-water solutes (dissolved inorganic carbon, or DIC, sulfate, and ammonium) can be largely explained by conservative mixing between bottom water and underlying brines, which contain dissolved species that are produced at or below a subsurface reaction front, where sulfate reduction coupled with organic carbon oxidation occurs. Stable carbon isotope data indicate that organic carbon being remineralized has a similar delta(13)C value (-40 to -60%.) as that of thermogenic and biogenic methane found in this area. However, without further evidence, the exact carbon source and reaction pathway remain unclear. (c) 2009 Elsevier B.V. All rights reserved. Article in Journal/Newspaper Methane hydrate Xiamen University Institutional Repository
institution Open Polar
collection Xiamen University Institutional Repository
op_collection_id ftxiamenuniv
language English
topic METHANE HYDRATE DEPOSITS
STABLE CARBON ISOTOPES
GAS HYDRATE
ANAEROBIC OXIDATION
MARINE-SEDIMENTS
SEA-FLOOR
CHEMOSYNTHETIC COMMUNITIES
FLORIDA ESCARPMENT
SULFATE REDUCTION
CHEMICAL FLUXES
spellingShingle METHANE HYDRATE DEPOSITS
STABLE CARBON ISOTOPES
GAS HYDRATE
ANAEROBIC OXIDATION
MARINE-SEDIMENTS
SEA-FLOOR
CHEMOSYNTHETIC COMMUNITIES
FLORIDA ESCARPMENT
SULFATE REDUCTION
CHEMICAL FLUXES
Hu, Xinping
Cai, Wei-Jun
Wang, Yongchen
Luo, Shangde
Guo, Xianghui
郭香会
Pore-water geochemistry of two contrasting brine-charged seep sites in the northern Gulf of Mexico continental slope
topic_facet METHANE HYDRATE DEPOSITS
STABLE CARBON ISOTOPES
GAS HYDRATE
ANAEROBIC OXIDATION
MARINE-SEDIMENTS
SEA-FLOOR
CHEMOSYNTHETIC COMMUNITIES
FLORIDA ESCARPMENT
SULFATE REDUCTION
CHEMICAL FLUXES
description National Science Foundation; Shelf Slope Experimental Taphonomy Initiative (SSETI) Two brine-charged sites (GB425 and GC233) at the northern Gulf of Mexico (GOM) continental slope were studied for their pore-water advective flow rates and stable carbon isotope geochemistry. Using chloride as a conservative tracer, a pore-water diffusion-advection model suggests that advection dominates pore-water flow in the upper 17 cm sediments at both sites. Moreover, modeled results indicate that there is a downward pore-water flow in GB425 and an upward one in GC233, presumably caused by nearby brine-seep activities. Profiles of pore-water solutes (dissolved inorganic carbon, or DIC, sulfate, and ammonium) can be largely explained by conservative mixing between bottom water and underlying brines, which contain dissolved species that are produced at or below a subsurface reaction front, where sulfate reduction coupled with organic carbon oxidation occurs. Stable carbon isotope data indicate that organic carbon being remineralized has a similar delta(13)C value (-40 to -60%.) as that of thermogenic and biogenic methane found in this area. However, without further evidence, the exact carbon source and reaction pathway remain unclear. (c) 2009 Elsevier B.V. All rights reserved.
format Article in Journal/Newspaper
author Hu, Xinping
Cai, Wei-Jun
Wang, Yongchen
Luo, Shangde
Guo, Xianghui
郭香会
author_facet Hu, Xinping
Cai, Wei-Jun
Wang, Yongchen
Luo, Shangde
Guo, Xianghui
郭香会
author_sort Hu, Xinping
title Pore-water geochemistry of two contrasting brine-charged seep sites in the northern Gulf of Mexico continental slope
title_short Pore-water geochemistry of two contrasting brine-charged seep sites in the northern Gulf of Mexico continental slope
title_full Pore-water geochemistry of two contrasting brine-charged seep sites in the northern Gulf of Mexico continental slope
title_fullStr Pore-water geochemistry of two contrasting brine-charged seep sites in the northern Gulf of Mexico continental slope
title_full_unstemmed Pore-water geochemistry of two contrasting brine-charged seep sites in the northern Gulf of Mexico continental slope
title_sort pore-water geochemistry of two contrasting brine-charged seep sites in the northern gulf of mexico continental slope
publisher MAR CHEM
publishDate 2010
url http://dspace.xmu.edu.cn/handle/2288/87775
genre Methane hydrate
genre_facet Methane hydrate
op_source http://dx.doi.org/10.1016/j.marchem.2009.11.006
op_relation MARINE CHEMISTRY, 2010,118:99-107
WOS:000275342600001
http://dspace.xmu.edu.cn/handle/2288/87775
_version_ 1766068836715462656

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