Robinson, Paul T; Erzinger, Jörg; Emmermann, Rolf (2002): Geochemistry of ODP Hole 176-735B igneous and hydrothermal veins [dataset publication series]. PANGAEA, https://doi.org/10.1594/PANGAEA.787475, Supplement to: Robinson, PT et al. (2002): The composition and origin of igneous and hyrothermal veins in the lower ocean crust-ODP Hole 735B, Southwest Indian Ridge. In: Natland, JH; Dick, HJB; Miller, DJ; Von Herzen, RP (eds.) Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 176, 1-66, https://doi.org/10.2973/odp.proc.sr.176.019.2002
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Abstract:
During Legs 118 and 176, Ocean Drilling Program Hole 735B, located on Atlantis Bank on the Southwest Indian Ridge, was drilled to a total depth of 1508 meters below seafloor (mbsf) with nearly 87% recovery. The recovered core provides a unique section of oceanic Layer 3 produced at an ultraslow spreading ridge. Metamorphism and alteration are extensive in the section but decrease markedly downward. Both magmatic and hydrothermal veins are present in the core, and these were active conduits for melt and fluid in the crust. We have identified seven major types of veins in the core: felsic and plagioclase rich, plagioclase + amphibole, amphibole, diopside and diopside + plagioclase, smectite ± prehnite ± carbonate, zeolite ± prehnite ± carbonate, and carbonate. A few epidote and chlorite veins are also present but are volumetrically insignificant. Amphibole veins are most abundant in the upper 50 m of the core and disappear entirely below 520 mbsf. Felsic and plagioclase ± amphibole ± diopside veins dominate between ~50 and 800 mbsf, and low-temperature smectite, zeolite, and prehnite veins are present in the lower 500 m of the core. Carbonate veinlets are randomly present throughout the core but are most abundant in the lower portions. The amphibole veins are closely associated with zones of intense crystal plastic deformation formed at the brittle/ductile boundary at temperatures above 700°C. The felsic and plagioclase-rich veins were formed originally by late magmatic fluids at temperatures above 800°C, but nearly all of these have been overprinted by intense hydrothermal alteration at temperatures between 300° and 600°C. The zeolite, prehnite, and smectite veins formed at temperatures <100°C. The chemistry of the felsic veins closely reflects their dominant minerals, chiefly plagioclase and amphibole. The plagioclase is highly zoned with cores of calcic andesine and rims of sodic oligoclase or albite. In the felsic veins the amphibole ranges from magnesio-hornblende to actinolite or ferro-actinolite, whereas in the monomineralic amphibole veins it is largely edenite and magnesio-hornblende. Diopside has a very narrow range of composition but does exhibit some zoning in Fe and Mg. The felsic and plagioclase-rich veins were originally intruded during brittle fracture at the ridge crest. The monomineralic amphibole veins also formed near the ridge axis during detachment faulting at a time of low magmatic activity. The overprinting of the igneous veins and the formation of the hydrothermal veins occurred as the crustal section migrated across the floor of the rift valley over a period of ~500,000 yr. The late-stage, low-temperature veins were deposited as the section migrated out of the rift valley and into the transverse ridge along the margin of the fracture zone.
Project(s):
Ocean Drilling Program (ODP)
Coverage:
Latitude: -32.723210 * Longitude: 57.266010
Date/Time Start: 1997-10-24T13:45:00 * Date/Time End: 1997-12-01T19:00:00
Event(s):
176-735B * Latitude: -32.723210 * Longitude: 57.266010 * Date/Time Start: 1997-10-24T13:45:00 * Date/Time End: 1997-12-01T19:00:00 * Elevation: -720.6 m * Penetration: 1508 m * Recovery: 865.99 m * Location: Indian Ocean * Campaign: Leg176 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 122 cores; 1003.2 m cored; 504.8 m drilled; 86.3 % recovery
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
16 datasets
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Datasets listed in this publication series
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T17) Major and trace element composition of ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787474
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T3) Major element oxides and cations of brown and greenish-brown amphibole veins from ODP Hole 176-735B. https://doi.org/10.1594/PANGAEA.787459
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T4) Major element oxides and cations of green amphibole veins from ODP Hole 176-735B. https://doi.org/10.1594/PANGAEA.787460
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T13) Major element oxides and cations of apatite and zircon from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787470
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T16) Major element oxides of carbonates from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787473
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T7) Major element oxides and cations of chlorite from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787463
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T15) Major element oxides and cations of clay minerals from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787472
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T5) Major element oxides and cations of diopside from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787461
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T9) Major element oxides and cations of epidote from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787465
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T2) Major element oxides and cations of feldspar from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787458
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T11) Major element oxides and cations of ilmenite from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787467
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T6) Major element oxides and cations of mica from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787462
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T10) Major element oxides and cations of prehnite from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787466
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T8) Major element oxides of quartz from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787464
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T14) Major element oxides and cations of titanite from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787471
- Robinson, PT; Erzinger, J; Emmermann, R (2002): (Table T12) Major element oxides and cations of zeolite from ODP Hole 176-735B veins. https://doi.org/10.1594/PANGAEA.787468