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(Table T1) Natural structures measured at ODP Hole 206-1256D with respect to the ODP reference frame and reorientation results (2006)

Tartarotti, Paola ; Crispini, Laura ; Einaudi, Florence ; [et al.]

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In: Supplement to: Tartarotti, Paola; Crispini, Laura; Einaudi, Florence; Campari, E (2006): Data report: Reoriented structures in the East Pacific Rise basaltic crust from ODP Hole 1256D, Leg 206: integration of core measurements and electrical-acoustic images. In: Teagle, DAH; Wilson, DS; Acton, GD; Vanko, DA (eds.) Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 206, 1-26, https://doi.org/10.2973/odp.proc.sr.206.004.2006

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Publication Date: 2024-01-09

Description: Brittle structures (open fractures and veins) from basaltic oceanic crust drilled at Ocean Drilling Program (ODP) Site 1256 (Guatemala Basin, Pacific Ocean) during Leg 206 were reoriented to the geographic coordinates by (1) correlating structures observed on the core with unoriented images of the exterior of the core and (2) correlating core structures and unoriented images with oriented borehole images. The images of the exterior of the core were obtained by scanning whole-core pieces with the Deutsche Montan Technologie Digital Color Core-Scan system. In the unrolled core images, nonhorizontal planar structures (e.g., veins, faults, or fractures) produce sinusoidal-shaped curves. These can be matched to similar-shaped features imaged along the borehole wall. The borehole images were obtained by the Formation MicroScanner (FMS)-sonic (Dipole Sonic Imager) tool string and the Ultrasonic Borehole Imager (UBI). The FMS provides high-resolution electrical resistivity-based images of borehole walls. FMS images are oriented to magnetic north using the General Purpose Inclinometer Tool. This allows the dip and azimuth of geological features intersecting the hole to be measured from the processed FMS image. The UBI features a high-resolution transducer that provides acoustic images of the borehole wall. The UBI was used in hard rocks for the first time in the history of the ODP during Leg 206.

Keywords: 206-1256D; Angle of rotation; Bed dip; Bed dip direction; Depth, bottom/max; Depth, reconstructed; Depth, reference; DEPTH, sediment/rock; Depth, top/min; DRILL; Drilling/drill rig; Formation microscanner (FMS); Joides Resolution; Leg206; North Pacific Ocean; Ocean Drilling Program; ODP; Piece; Sample code/label; Standard error; Strike; Structure

Type: Dataset

Format: text/tab-separated-values, 5838 data points

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Petrography, Geochemistry and Physical Properties of a Continuous Extrusive Section from the Sarami Massif, Semail Ophiolite (2000)

Einaudi, Florence ; Pezard, Philippe A. ; Cochemé, Jean-Jacques ; [et al.]

Springer

Marine geophysical researches 21 (2000), S. 387-408

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ISSN: 1573-0581

Keywords: Oman ophiolite ; oceanic basalts ; crustal accretion ; petrophysical properties

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract As opposed to ocean crustal drilling that often yields a discontinuous core, ophiolites provide a unique opportunity to study continuous sections of oceanic basalts. In order to provide high frequency constraints on the construction of the upper oceanic crust, a continuous 280 m thick volcanic transect was sampled in the Semail ophiolite in Oman. The analyzed section is located in the Sarami Massif, in the central part of the ophiolite, and exposed along Wadi Shaffan. A multidisciplinary study was carried out after sampling in the field. Core measurements including porosity, grain density, compressional velocity, magnetic susceptibility and electrical resistivity for over 100 samples from this transect have been made. Geochemical analyses including major, trace and Rare Earth Elements were also performed on 23 selected samples from this transect. The Wadi Shaffan transect appears as composed of two main petrological and geochemical members providing the main lithostratigraphic signal. The boundary between the two sequences is marked by the presence of a massive flow unit equating to the most primitive lava and across which significant changes in mineralogy and texture are observed. The physical properties equally record significant changes. In all, the section is characterized by chemical compositions coherent with that of V1-Geotime volcanism and appears as built through two main sequences of volcanic activity. The magnetic susceptibility profile correlated to geochemical variations present the most detailed evolution allowing to individualize a succession of at least 4 volcanic phases. These phases are interpreted as magmatic cycles characterized by differentiation processes, allowing one to place high frequency constraints on the volcanic behavior of fast spreading ridges. Some of the physical properties also reflect this series of differentiation trends, as noticed in the past from downhole measurements recorded in the context of deep ocean drilling into the crust.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1026752415989

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