Day-Stirrat, Ruarri J. et al. (2012): The fabric of consolidation in Gulf of Mexico mudstones

Leg/Site/Hole:
IODP 308
IODP 308 U1322
IODP 308 U1324
Identifier:
2012-045490
georefid
10.1016/j.margeo.2011.12.003
doi
Creator:
Day-Stirrat, Ruarri J.
University of Texas at Austin, Bureau of Economic Geology, Austin, TX, United States
author
Flemings, Peter B.
Newcastle University, United Kingdom
author
You, Yao
University of Michigan, United States
author
Aplin, Andrew C.
author
van der Pluijm, Ben A.
author
Identification:
The fabric of consolidation in Gulf of Mexico mudstones
2012
Marine Geology
Elsevier, Amsterdam, Netherlands
295-298
77-85
How the micro-scale fabric of clay-rich mudstone evolves during consolidation in early burial is critical to how they are interpreted in the deeper portions of sedimentary basins. Core samples from the Integrated Ocean Drilling Program Expedition 308, Ursa Basin, Gulf of Mexico, covering seafloor to 600 meters below sea floor (mbsf) are ideal for studying the micro-scale fabric of mudstones. Mudstones of consistent composition and grain size decrease in porosity from 80% at the seafloor to 37% at 600 mbsf. Argon-ion milling produces flat surfaces to image this pore evolution over a vertical effective stress range of 0.25 (71 mbsf) to 4.05MPa (597 mbsf). With increasing burial, pores become elongated, mean pore size decreases, and there is preferential loss of the largest pores. There is a small increase in clay mineral preferred orientation as recorded by high resolution X-ray goniometry with burial. Abstract Copyright (2012) Elsevier, B.V.
English
Serial
Coverage:Geographic coordinates:
North:28.0600
West:-89.0800East: -89.0100
South:28.0500
Structural geology; Sedimentary petrology; Atlantic Ocean; burial diagenesis; clastic rocks; clay minerals; consolidation; diagenesis; Expedition 308; fabric; grain size; Gulf of Mexico; Integrated Ocean Drilling Program; IODP Site U1322; IODP Site U1324; marine sediments; mineral composition; mudstone; North Atlantic; northern Gulf of Mexico; physical properties; porosity; preferred orientation; sedimentary rocks; sediments; sheet silicates; silicates; stress; structural analysis; Ursa Basin;
.