Structures and metamorphism of Ptarmigan Creek area, Selwyn Range, B.C.

Forest, Richard C.

January 1985

No description available.

Structural evolution of the Max Meadows thrust sheet, Southwest Virginia

Gibson, R. G. (Richard G.)

January 1983

M. S.

LD5655.V855 1983.G528

Thrust faults (Geology) -- Virginia

Displacement transfer mechanisms in a portion of the Narrows/Copper Creek thrust sheet, Southwestern Virginia

Grabowski, Richard J.

January 1983

M.S.

LD5655.V855 1983.G70

Characterizing Mechanisms of Clay Gouge Formation and Implications for Permeability, Moab Fault, Utah

Anyamele, Nwachukwu

January 2010

Clay composition and content profoundly impacts the strength and sealing capacity of a fault zone, reducing frictional resistance to sliding and permeability by as much as 7 orders of magnitude. Previous approaches, including the Shale Gouge Ratio (SGR) and Shale Smear Potential (SSP), have been used to understand and predict the clay content of fault zones. These models are largely limited to mechanical incorporation of detrital clays. This hypothesis stems from field observations of clay gouge and the smearing and associated attenuation of clay-rich shale beds offset by the fault. Recently, diagenesis has been recognized as an additional critical mechanism of clay enrichment In fault zones. My study investigates the relative contributions of both mechanisms of clay enrichment focusing on the implications for fault permeability and strength through structural and elemental mapping of the Moab Fault in Utah. Detailed mapping at Six sites along the Moab Fault in southeast Utah, revealed distinct structural deformation zones as defined by structures and distribution of normally faulted sandstone and shale including: (1) layers of clay-rich gouge separated by slip surfaces that include isolated sandstone breccia; (2) an inner smeared shale adjacent to the gouge showing increasing bed parallel shearing and resulting boudinage closer to the fault, and an outer smear with little shearing but rotation of beds; (3) faulted sandstone hosting deformation bands, slip surfaces, and intersections, joints and veins in locations near relays. Fluid assisted alteration was revealed by a combination of high spatial resolution scan-lines on outcrops element composition and measured sections of measured with a portable X-Ray Fluorescence device. Results to date include: (1) elemental concentrations relative to immobile species (such as Ti) and by structural zone show that Ca, Sr, Rb are preferentially enriched and/or depleted in the fault core, (2) the fault core hosts the greatest alteration; (3) a progressively more extensive and greater density of bed parallel slip surfaces from protolith to gouge where slip surfaces are associated with mixing and disaggregation; (4) stable concentration of elements associated with illite such as K, occurs preferentially in the gouge; (5) localized enrichment and/or depletion reveals solution mass transfer contributed to formation of the fault core and to a lesser extent the damage zones. Elemental mapping clearly demonstrates a compositional evolution of the fault core, and in particular the clay gouge, that cannot be accounted for by mixing of protolithic formations. Thus, observations from elemental mapping show that solution mass transfer influences the formation of clay gouge in the fault zone, in addition to mechanical incorporation of detrital clays from the surrounding protoliths. / Earth and Environmental Science

Geology--Utah

Faults (Geology)--Utah

Fault gouge--Utah

A numerical study of rupture propagation and earthquake source mechanism.

Das, Shamita

January 1976

Thesis. 1976. Sc.D.--Massachusetts Institute of Technology. Dept. of Earth and Planetary Sciences. / Microfiche copy available in Archives and Science. / Bibliography: leaves 208-213. / Sc.D.

Earth and Planetary Sciences

Earthquakes

Seismology

Seismometry

Faults (Geology)

The relationship of source parameters of oceanic transform earthquakes to plate velocity and transform length

Burr, Norman Charles

January 1977

Thesis. 1977. M.S.--Massachusetts Institute of Technology. Dept. of Earth and Planetary Sciences. / Microfiche copy available in Archives and Science. / Bibliography : leaves 34-39. / by Norman C. Burr. / M.S.

Earth and Planetary Sciences

Faults (Geology)

Earthquakes

Plate tectonics

Field and laboratory studies of the mechanics of faulting

Jones, Lucile Merrill

January 1981

Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Earth and Planetary Sciences, 1981. / Microfiche copy available in Archives and Science. / Vita. / Bibliography: leaves 91-93. / by Lucile Merrill Jones. / Ph.D.

Earth and Planetary Sciences.

Faults (Geology)

Rock mechanics

Earthquake prediction

Processes of extensional tectonics

Wernicke, Brian Philip

January 1982

Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Earth and Planetary Science, 1982. / Microfiche copy available in Archives and Science. / Two maps and one illustration on 3 folded leaves in pocket. / Includes bibliographies. / by Brian Philip Wernicke. / Ph.D.

Earth and Planetary Sciences.

Plate tectonics

Faults (Geology) Nevada

Geology, Structural

The statistics of finite rotations in plate tectonics

Hellinger, Steven Jay

January 1979

Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Earth and Planetary Sciences, 1979. / Microfiche copy available in Archives and Science. / Bibliography: leaves 73-75. / by Steven J. Hellinger. / Ph.D.

Earth and Planetary Sciences

Plate tectonics

Sea-floor spreading

Faults (Geology)

Kinematic implications of football structures

Stanley, Charles Bernard

January 1983

Folding prior to thrust-sheet emplacement is proposed to explain presence of overturned synclines in the footwalls of many thrust-faults in the Appalachian foreland fold- and thrust-belt of southwest Virginia. Investigation of relations in the footwalls of the Saltville and St. Clair thrust-sheets near the Southern-Central Appalachian juncture indicates presence of at least two distinct types of footwall structures: 1)isolated forelimbs of thrust-truncated asymmetric ramp-generated anticlines, and 2)areally extensive overturned subthrust synclines. Mesoscopic fabric data and strain states indicate rotation of bedding by folding prior to thrust-sheet emplacement rather than drag folding during thrusting. Low angles between bedding and cleavage planes and low strain values on the back limbs of folds at thrust terminations (Sinking Creek anticline) and in hangingwall strata seems to indicate folding was largely accomplished by flexural flow in units of relatively low mechanical strength. / M.S.

LD5655.V855 1983.S725

Thrust faults (Geology) -- Virginia