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D'Antonio, M., Kristensen, M. B. (2004) Serpentine and brucite of ultramafic clasts from the South Chamorro Seamount (Ocean Drilling Program Leg 195, Site 1200): inferences for the serpentinization of the Mariana forearc mantle. Mineralogical Magazine, 68 (6) 887-904 doi:10.1180/0026461046860229

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Reference TypeJournal (article/letter/editorial)
TitleSerpentine and brucite of ultramafic clasts from the South Chamorro Seamount (Ocean Drilling Program Leg 195, Site 1200): inferences for the serpentinization of the Mariana forearc mantle
JournalMineralogical Magazine
AuthorsD'Antonio, M.Author
Kristensen, M. B.Author
Year2004 (December)Volume68
Issue6
PublisherMineralogical Society
DOIdoi:10.1180/0026461046860229Search in ResearchGate
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Mindat Ref. ID243585Long-form Identifiermindat:1:5:243585:9
GUID0
Full ReferenceD'Antonio, M., Kristensen, M. B. (2004) Serpentine and brucite of ultramafic clasts from the South Chamorro Seamount (Ocean Drilling Program Leg 195, Site 1200): inferences for the serpentinization of the Mariana forearc mantle. Mineralogical Magazine, 68 (6) 887-904 doi:10.1180/0026461046860229
Plain TextD'Antonio, M., Kristensen, M. B. (2004) Serpentine and brucite of ultramafic clasts from the South Chamorro Seamount (Ocean Drilling Program Leg 195, Site 1200): inferences for the serpentinization of the Mariana forearc mantle. Mineralogical Magazine, 68 (6) 887-904 doi:10.1180/0026461046860229
Abstract/NotesAbstractSerpentine minerals and brucite in ultramafic rocks from the South Chamorro Seamount were characterized chemically to investigate the serpentinization of the Mariana forearc mantle. Relict primary minerals of the serpentinites are olivine, enstatite and minor Cr-spinel and diopside. The secondary minerals are mostly serpentine and brucite with minor magnetite. The serpentine minerals, mostly lizardite and chrysotile, display large compositional variations. Al2O3 and Cr2O3 contents depend generally upon the nature of the primary mineral from which the serpentine was derived. Both serpentine minerals and brucite exhibit wide Mg, Fe and Mn substitution: the Mg# ranges are 95.1–77.2 and 88.9–60.8, respectively. These mineralogical and chemical features allowed us to estimate an upper temperature limit for serpentinization of ∼200–300°C, in agreement with recent thermal models which suggest that the serpentinized mantle wedge of the Izu-Bonin-Mariana subduction zone is cold. The high degree of serpentinization (40–100%, average >75%), and the serpentine + brucite paragenesis of these ultramafics imply that the Mariana forearc mantle has a significantly reduced density and strength down to ∼30 km, which provides a driving mechanism for serpentinite diapirism. Pervasive serpentinization of the forearc by fluids released from the dĂ©collement zone also explains the low seismicity of the Izu-Bonin-Mariana subduction zone.

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Kahl, Wolf-Achim, Jöns, Niels, Bach, Wolfgang, Klein, Frieder, Alt, Jeffrey C. (2015) Ultramafic clasts from the South Chamorro serpentine mud volcano reveal a polyphase serpentinization history of the Mariana forearc mantle. Lithos, 227. 1-20 doi:10.1016/j.lithos.2015.03.015
Takai, Ken, Moyer, Craig L., Miyazaki, Masayuki, Nogi, Yuichi, Hirayama, Hisako, Nealson, Kenneth H., Horikoshi, Koki (2005) Marinobacter alkaliphilus sp. nov., a novel alkaliphilic bacterium isolated from subseafloor alkaline serpentine mud from Ocean Drilling Program Site 1200�at South Chamorro Seamount, Mariana Forearc. Extremophiles, 9 (1) 17-27 doi:10.1007/s00792-004-0416-1
D’Antonio, M., Kristensen, M. B. (2005) Hydrothermal alteration of oceanic crust in the West Philippine Sea Basin (Ocean Drilling Program Leg 195, Site 1201): inferences from a mineral chemistry investigation. Mineralogy and Petrology, 83 (1) 87-112 doi:10.1007/s00710-004-0060-6
Bickford, M.E., Siegel, Donald I., Mottl, Michael J., Hill, Barbara M., Shosa, Jennifer (2008) Strontium isotopic relations among pore fluids, serpentine matrix, and harzburgite clasts, South Chamorro Seamount, Mariana forearc. Chemical Geology, 256 (1) 24-32 doi:10.1016/j.chemgeo.2008.07.021
Savov, Ivan P., Ryan, Jeffrey G., D'Antonio, Massimo, Kelley, Katherine, Mattie, Patrick (2005) Geochemistry of serpentinized peridotites from the Mariana Forearc Conical Seamount, ODP Leg 125: Implications for the elemental recycling at subduction zones. Geochemistry, Geophysics, Geosystems, 6 (4) doi:10.1029/2004gc000777
Fryer, P., Pearce, J. A., & Stokking, L. B. (1992). 36. A synthesis of Leg 125 drilling of serpentine seamounts on the Mariana and Izu–Bonin forearcs. In Proceedings of the Ocean Drilling Program, Scientific Results (Vol. 125, pp. 593-614).
Marlow, Michael S., Johnson, Lynn E., Pearce, Julian A., Fryer, Patricia B., Pickthorn, Leda Beth G., Murton, Bramley J. (1992) Upper Cenozoic volcanic rocks in the Mariana Forearc recovered from drilling at Ocean Drilling Program Site 781: Implications for forearc magmatism. Journal of Geophysical Research, 97. 15085 doi:10.1029/92jb01079
Mottl, Michael J., Komor, Stephen C., Fryer, Patricia, Moyer, Craig L. (2003) Deep-slab fluids fuel extremophilicArchaeaon a Mariana forearc serpentinite mud volcano: Ocean Drilling Program Leg 195. Geochemistry, Geophysics, Geosystems, 4 (11) doi:10.1029/2003gc000588
SAVOV, IVAN P., HICKEY-VARGAS, ROSEMARY, D'ANTONIO, MASSIMO, RYAN, JEFFREY G., SPADEA, PIERA (2006) Petrology and Geochemistry of West Philippine Basin Basalts and Early Palau–Kyushu Arc Volcanic Clasts from ODP Leg 195, Site 1201D: Implications for the Early History of the Izu–Bonin–Mariana Arc. Journal of Petrology, 47 (2) 277-299 doi:10.1093/petrology/egi075
Rodgers, K. A. (1974) Serpentine minerals from the southern portion of the ultramafic belt of New Caledonia. Mineralogical Magazine, 39 (307) 798-801 doi:10.1180/minmag.1974.039.307.07
(2004) Compositional variability in lavas from the Ontong Java Plateau: results from basalt clasts within the volcaniclastic succession at Ocean Drilling Program Site 1184. Special Publication, 229. Geological Society of London. 333-351 doi:10.1144/gsl.sp.2004.229.01.19
 
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