Bartetzko, A. et al. (2005): Effect of compositional and structural variations on log responses of igneous and metamorphic rocks; I, Mafic rocks

Leg/Site/Hole:
ODP 102
ODP 111
ODP 148
ODP 174B
ODP 179
ODP 102 418
ODP 111 504
ODP 137 504
ODP 140 504
ODP 148 504
ODP 179 1105
Identifier:
2006-008647
georefid

Creator:
Bartetzko, A.
RWTH Aachen University of Technology, Applied Geophysics, Aachen, Federal Republic of Germany
author

Delius, H.
Universite de Montpellier II, France
author

Pechnig, R.
Russian Academy of Sciences, Russian Federation
author

Identification:
Effect of compositional and structural variations on log responses of igneous and metamorphic rocks; I, Mafic rocks
2005
In: Harvey, Peter K. (editor), Brewer, Tim S. (editor), Pezard, Phillipe A. (editor), Petrov, Vladislav A. (editor), Petrophysical properties of crystalline rocks
Geological Society of London, London, United Kingdom
240
255-278
Well logging has become a standard method in the oil industry for the investigation of subsurface geology. Accordingly, interpretation techniques have been mainly developed for use in sedimentary rocks, and the log responses of sediments are well known. However, this is not the case for igneous and metamorphic rocks. We present a compilation of log responses for mafic rocks from drill-holes in oceanic and continental basement. The holes cover a variety of mafic rocks: mid-ocean ridge basalt (MORB), gabbro, basalt and andesitic basalt from back-arc basins, flood basalt from large igneous provinces (LIPs), and continental metamorphic rocks. The comparison of log responses shows that rocks from the same geological setting have similar in situ physical properties. Differences in physical properties between rocks from different geological setting are mainly related to variations in the structure of the rocks, while variations in composition have only a minor effect on the in situ physical properties. In volcanic rocks, variations in fracturing and vesicularity related to cooling of the lava strongly influence log responses. Mafic rocks from continental drill-holes were enriched in radioactive elements during regional metamorphism, resulting in higher values in the total gamma-ray compared to the oceanic rocks.
English
Serial
Coverage:Geographic coordinates:
North:25.0207
West:-83.4357East: 57.1639
South:-32.4308

Igneous and metamorphic petrology; Applied geophysics; acoustical logging; Atlantic Ocean; Atlantis II fracture zone; basalts; Bermuda Rise; body waves; boreholes; chemical composition; crust; density; DSDP Site 395; DSDP Site 418; DSDP Site 504; elastic waves; electrical logging; gabbros; gamma-ray methods; igneous rocks; Indian Ocean; large igneous provinces; Leg 102; Leg 111; Leg 148; Leg 174B; Leg 179; mafic composition; metamorphic rocks; Mid-Atlantic Ridge; mid-ocean ridge basalts; neutron methods; North Atlantic; Ocean Drilling Program; oceanic crust; ODP Site 1105; P-waves; physical properties; plutonic rocks; porosity; seismic waves; ultramafics; velocity; volcanic rocks; well-logging;

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