Geochemical fluxes related to alteration of a subaerially exposed seamount: Nintoku seamount, ODP Leg 197, Site 1205
Geochemical fluxes related to alteration of a subaerially exposed seamount: Nintoku seamount, ODP Leg 197, Site 1205
Hole 1205A was drilled on Nintoku Seamount, which lies in the midportion of the Emperor Seamount Chain. This seamount was emergent ~56 Myr ago but was submerged by 54 Ma, so the lavas have endured weathering in both subaerial and submarine environments. We have studied the petrology, mineralogy, and geochemistry of intercalated altered basalts, breccias, and soil samples recovered at Hole 1205A to quantify the chemical exchanges between the seamount and seawater and/or meteoric fluids. The secondary mineralogy is relatively uniform throughout the section and comprises smectite, Fe-oxyhydroxides, iddingsite, and Ca-carbonates. Soils are composed of variably altered basaltic clasts in a matrix of kaolinite, smectite, and vermiculite with minor goethite, hematite, and magnetite. Throughout the basement section, altered basalts, breccias, and soils are depleted in Si, Mg, Ca, Na, Sr, Rb, and Ba and enriched in Fe. Fe3+/FeT (up to ~1), ?18O (up to ~+20‰), and 87Sr/86Sr ratios are strongly elevated relative to primary igneous values. Differences in the 87Sr/86Sr ratios define an Upper Alteration Zone with 87Sr/86Sr close to 56 Ma seawater (~0.7077) from a Lower Alteration Zone where 87Sr/86Sr are less elevated (~0.704). The Lower Alteration Zone likely reflects interaction with a subaerial oxidizing fluid at low temperature. This zone probably retained most of the original subaerial weathering signature. The Upper Alteration Zone was altered through circulation of large quantities of cold oxidizing seawater that partially overprinted the subaerial weathering chemical characteristics. Altered samples were compared to estimated protolith compositions to calculate chemical gains and losses. Global chemical fluxes are calculated for the entire basement section using different lithological proportions models and different rates of oceanic island emplacement. Although the global construction rate of ocean islands is small compared to igneous accretion at mid-ocean ridges, the magnitude of the chemical changes indicates that ocean islands and seamounts may be a significant contributor to the chemical budget of the oceans.
Ocean Drilling Program, Hole 1205A, alteration, chemical fluxes, isotope geochemistry, oceanic island
Q02014
Revillon, S.
58bd2948-077d-436b-ba95-76ff59186db3
Teagle, D.A.H.
396539c5-acbe-4dfa-bb9b-94af878fe286
Boulvais, P.
25e4fa82-74f4-4394-b537-bf10e10e51ce
Shafer, J.
b71916e8-de07-4907-a954-4d6e36b380ab
Neal, C.R.
aa184631-7a8b-43c1-9ba9-45490b2a5bf9
28 February 2007
Revillon, S.
58bd2948-077d-436b-ba95-76ff59186db3
Teagle, D.A.H.
396539c5-acbe-4dfa-bb9b-94af878fe286
Boulvais, P.
25e4fa82-74f4-4394-b537-bf10e10e51ce
Shafer, J.
b71916e8-de07-4907-a954-4d6e36b380ab
Neal, C.R.
aa184631-7a8b-43c1-9ba9-45490b2a5bf9
Revillon, S., Teagle, D.A.H., Boulvais, P., Shafer, J. and Neal, C.R.
(2007)
Geochemical fluxes related to alteration of a subaerially exposed seamount: Nintoku seamount, ODP Leg 197, Site 1205.
Geochemistry, Geophysics, Geosystems, 8, .
(doi:10.1029/2006GC001400).
Abstract
Hole 1205A was drilled on Nintoku Seamount, which lies in the midportion of the Emperor Seamount Chain. This seamount was emergent ~56 Myr ago but was submerged by 54 Ma, so the lavas have endured weathering in both subaerial and submarine environments. We have studied the petrology, mineralogy, and geochemistry of intercalated altered basalts, breccias, and soil samples recovered at Hole 1205A to quantify the chemical exchanges between the seamount and seawater and/or meteoric fluids. The secondary mineralogy is relatively uniform throughout the section and comprises smectite, Fe-oxyhydroxides, iddingsite, and Ca-carbonates. Soils are composed of variably altered basaltic clasts in a matrix of kaolinite, smectite, and vermiculite with minor goethite, hematite, and magnetite. Throughout the basement section, altered basalts, breccias, and soils are depleted in Si, Mg, Ca, Na, Sr, Rb, and Ba and enriched in Fe. Fe3+/FeT (up to ~1), ?18O (up to ~+20‰), and 87Sr/86Sr ratios are strongly elevated relative to primary igneous values. Differences in the 87Sr/86Sr ratios define an Upper Alteration Zone with 87Sr/86Sr close to 56 Ma seawater (~0.7077) from a Lower Alteration Zone where 87Sr/86Sr are less elevated (~0.704). The Lower Alteration Zone likely reflects interaction with a subaerial oxidizing fluid at low temperature. This zone probably retained most of the original subaerial weathering signature. The Upper Alteration Zone was altered through circulation of large quantities of cold oxidizing seawater that partially overprinted the subaerial weathering chemical characteristics. Altered samples were compared to estimated protolith compositions to calculate chemical gains and losses. Global chemical fluxes are calculated for the entire basement section using different lithological proportions models and different rates of oceanic island emplacement. Although the global construction rate of ocean islands is small compared to igneous accretion at mid-ocean ridges, the magnitude of the chemical changes indicates that ocean islands and seamounts may be a significant contributor to the chemical budget of the oceans.
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Published date: 28 February 2007
Additional Information:
Actually deposited by J. Conquer
Keywords:
Ocean Drilling Program, Hole 1205A, alteration, chemical fluxes, isotope geochemistry, oceanic island
Identifiers
Local EPrints ID: 49858
URI: http://eprints.soton.ac.uk/id/eprint/49858
ISSN: 1525-2027
PURE UUID: 7269bfd1-27de-41e7-aacb-f32e5d91d580
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Date deposited: 05 Dec 2007
Last modified: 16 Mar 2024 03:14
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Author:
S. Revillon
Author:
P. Boulvais
Author:
J. Shafer
Author:
C.R. Neal
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