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Sedimentary processes during the Late Quaternary across the Kimberley Shelf, Northwest Australia / Kriton Glenn.Glenn, Kriton Campbell January 2004 (has links)
"February 2004" / Includes bibliographical references (leaves 216-227) / Each accompanying profile sheet is named and numbered individually. / xvi, 245 leaves : ill. (some col.), maps (col.), charts ; 30 cm. + 1 location map ( 22 x 30 cm. folded to 22 x 15 cm.) + 4 geologic profiles ( 56 x 100 cm. folded to 20 x 29 cm.) ; in pocket inside back cover. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, School of Earth and Environmental Sciences, Discipline of Geology and Geophysics, 2004
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Subsurface Quaternary and Pliocene structures of the northern Los Angeles Basin, CaliforniaHummon, Cheryl 08 March 1994 (has links)
The northern Los Angeles basin is influenced by two structural styles: the west-trending
compressional Transverse Ranges to the north, and the strike-slip Peninsular
Ranges to the south. The interaction of these two structural styles has resulted in a
complex fold/fault belt at the northern margin of the Los Angeles basin, which deforms a
variable sequence of late Miocene through Quaternary marine strata.
Subsurface mapping of Quaternary marine gravels by electric-log correlation
documents the latest phase of deformation in the northern Los Angeles basin. The
Quaternary marine gravels are folded at the Wilshire arch, the Hollywood basin, the
central trough, the Newport-Inglewood fault, and the Santa Monica fault. The west-plunging
Wilshire arch, which follows Wilshire Boulevard east of the Newport-
Inglewood fault, is a broad fold identified and named in this study. Deformation of the
Wilshire arch, which is underlain and caused by the potentially-seismogenic Wilshire
fault, began around 0.8 - 1.0 Ma. A fault-bend fold model, based on the shape of the
Wilshire arch, indicates a dip-slip rate of 1.5 - 1.9 mm/yr for the Wilshire fault, whereas
a three-dimensional elastic dislocation model indicates a right-reverse slip rate of 2.6 - 3.2
mm/year for the Wilshire fault.
The finer-grained marine Pliocene strata include the late Pliocene to early
Pleistocene Pico member, and the early Pliocene Repetto member, of the Fernando
Formation. Thickness and lithology variations in the Pico and Repetto strata, which were
influenced by syndepositional structures, indicate that the entire Pliocene and the latest
Miocene were characterized by compression. The primary structure present throughout
the Pliocene is a south-dipping monocline, which was underlain and caused by a deep
reverse fault, dipping ~55 - 60° to the north, referred to here as the Monocline fault.
Relative subsidence of the central trough resulted in deposition of up to 7000 ft (2135 m)
of Pico strata, and up to 5000 ft (1525 m) of Repetto strata, compared to zero deposition
on the monoclinal high. In the western part of the study area, the south-dipping
monocline is interrupted by the secondary East Beverly Hills fold, which may be a rabbit-ear
fold that accommodates excess volume by bedding-parallel slip. The East Beverly
Hills fold was active in the latest Miocene through Pliocene, and was most active during
early Pliocene Repetto deposition. In the eastern part of the study area, the monocline is
interrupted by the Las Cienegas fold, which formed in the hangingwall of the Las
Cienegas fault. The Las Cienegas fault was a normal fault in the late Miocene, and was
reactivated in the Pliocene as a steep reverse fault. Folding and uplift on the Las
Cienegas anticline occurred throughout the Pliocene, with the greatest amount occurring
during lower and lower-middle Pico deposition. / Graduation date: 1994
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Quartz OSL dating of quaternary sediments from ChinaFan, Anchuan., 范安川. January 2010 (has links)
published_or_final_version / Earth Sciences / Doctoral / Doctor of Philosophy
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Application of optical dating to late quaternary uplift and thrust activity in the northern piedmont of Tian Shan, ChinaGong, Zhijun, 龚志军 January 2012 (has links)
Tian Shan is one of the most important orogenic belts in central Asia. It has been reactivated as a result of the Cenozoic India-Eurasia collision. Dating of the late Cenozoic tectonic deformation of Tian Shan and its piedmonts is important for understanding the mountain building as well as evaluating seismic hazards in the region. This study is focused on the applications of optical dating to the late Quaternary uplift and thrust activity along Manas River, in the northern piedmont of the Tian Shan, China.
The sediments on river terraces were dated with optical dating. The elevations were measured with the kinematic global position system (GPS). The results suggest that two phases can be identified according to the significantly different river incision rates. One phase was from ~20 ka to ~4.8 ka, with a much slower incision rate of ~ 2.2 ± 0.6 mm/yr. The other phase was from ~4.8 ka to present, with a faster incision rate of ~ 13.5 ± 0.6 mm/yr. The accelerated incision rate of Manas River was mainly attributed to the tectonic forces, suggesting that the tectonic uplift was significantly intensified since ~4.8 ka in the northern piedmont of Tian Shan.
The study region has suffered from multiple thrust activities during the late Quaternary, which led to the intensive deformations of the river terraces. By studying the deformed terraces, I evaluated the timing of the past thrust activities as well as the vertical slip rate of the thrust faults. The results demonstrated that the thrust activity intensified during the late Holocene, as manifested by the more frequent thrust activities and higher vertical slip rates.
Both quartz and potassium feldspar can be as dosimeters for optical dating of sediments. However, quartz OSL is sometimes seriously impeded with problems such as very dim signals and insufficient bleaching problems. K-feldspar has attractive advantages over quartz, despite of problem of anomalous fading. K-feldspar was explored in this study, by investigating the relationship between the infrared stimulated luminescence (IRSL) and blue light stimulated luminescence (BLSL) signals. For IRSL and BLSL at 60 °C, it was suggested that most of the IRSL could be bleached by blue light (BL), while the BLSL could only be partially bleached by infrared (IR) stimulation. Besides, the fast and medium components of BLSL were mainly associated with the IRSL. If IR stimulation temperature was raised from 60 to 200 °C, at least two portions of the IRSL signals at 200 °C were observed. One portion could be bleached by BL at 60 °C and the other portion was hardly bleached by BL at 60 °C. Dating of K-feldspar from the various signals provided cross-checking for the reliability of quartz OSL for dating sedimentary samples. / published_or_final_version / Earth Sciences / Doctoral / Doctor of Philosophy
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Sources and transport of late Quaternary sediments, Karlsefni Trough, Labrador ShelfVeldhuyzen, Hendrik. January 1981 (has links)
No description available.
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Late Quaternary Sea-Level Lowstand Environmetns and Chronology of Outer Saco Bay, MaineLee, Kristen M. January 2006 (has links) (PDF)
No description available.
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Quaternary volcanism in the Wells Gray-Clearwater area, east central British ColumbiaHickson, Catherine Jean January 1986 (has links)
Basaltic volcanism in the form of small-volume, subaerial and subaqueous eruptions have occurred in the Wells Cray—Clearwater area of east central British Columbia. These eruptions have been dated by the K-Ar method and by relationships to dated glaciations. The oldest known eruption may be as old as 3.2 Ma, but is more likely 2 Ma or less. The youngest eruptions are less than 7560 ± 110 radiocarbon years. The most extensive basalts are valley-filling and plateau-capping flows of the Clearwater unit, which are Pleistocene in age and greater than 25 km³ in volume. The deposition of flows of the Clearwater unit has overlapped at least three periods of glaciation. The interaction of glacial ice and basaltic magma has been recorded in the form of tuyas, ice ponded valley deposits and subglacial mounds (SUGM). In a few place glacial till has been preserved beneath basalt flows.
Flows of Wells Gray—Clearwater suite appear to have erupted from vents that are both spatially and temporally separated. The individual eruptions were of low volume (<1km³) and chemically distinct from one another. Major element composition is variable but the lavas are predominantly alkalic. Olivine is the predominant phenocryst phase. Plagioclase and augitic clinopyroxene rarely occur as phenocrysts, but both minerals are ubiquitous in the groundmass. Orthopyroxene was not seen in any of the samples. Flows appear to have erupted with minimal crystal fractionation or crustal contamination. The range of compositions seen in the suite is best explained by a process of partial melting and the progressive depletion of the mantle source by earlier melts. Progressive depletion of the mantle source was coupled with enrichment of parts of the mantle in K as well as some lithophile and siderophile elements. Increasing alkali content may have triggered the highly enriched eruptions of Holocene age that, despite very low degrees of partial melting, were capable of reaching the surface. Overprinting the effects of partial melting are inherited heterogeneities in the source zone of the magmas. Based on whole-rock chemistry the magma source appears to be a highly depleted region similar to that which produces the most depleted mid-ocean ridge basalts (MORB). The zone is, however, capable of producing large volume (≃ 15%) partial melts and has not been isotopically depleted to the same extent as MORB source regions. Isotope analyses of ⁸⁷Sr/⁸⁶Sr, ¹⁴³Nd/¹⁴⁴Nd and whole-rock Pb indicate that the magmas may be derived from a remnant of subducted oceanic lithosphere which has been variously depleted by the prior generation of basaltic melts. Isotopic enrichment above the level seen in MORB's is due in part to crustal contamination. The isotopic results are very different than those obtained from samples erupted through thin, allochthonous crust in the Intermontane Belt and may be explained in part by generation of the magmas in oceanic material which was subducted when allochthonous crust lay against the parautochthonous rocks underlying the Wells Cray—Clearwater area.
The alkali olivine basalts of the Wells Cray—Clearwater area have erupted onto a tectonically active surface. A peneplain (erosion surface), formed in Eocene-Miocene time has been uplifted since the Miocene and uplift may be continuing. This uplift is in response to an elevated geothermal gradient which may be due to crustal extension. This crustal extension may be similar to that which occurred in the Eocene. The elevated geothermal gradient and reduced pressures attendant with recent uplift and erosion may have initiated basaltic volcanism in the region, rather than a fixed mantle hot spot as proposed in earlier work. / Science, Faculty of / Earth, Ocean and Atmospheric Sciences, Department of / Graduate
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Sources and transport of late Quaternary sediments, Karlsefni Trough, Labrador ShelfVeldhuyzen, Hendrik. January 1981 (has links)
No description available.
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Evaluation and application of the amino acid racemisation reaction in studies of quaternary coastal and marine sediments in Australia / by Colin Vincent Murray-WallaceMurray-Wallace, Colin Vincent January 1987 (has links)
Bibliography: leaves 275-290 / xviiii [i.e. xvix], 352 leaves : ill ; 31 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Geology and Geophysics, 1987
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Moletrack scarps to mountains: Quaternary tectonics of the central Alaska Range / Quaternary tectonics of the central Alaska RangeBemis, Sean Patrick, 1979- 03 1900 (has links)
xvi, 121 p. : ill. (some col.), maps (some col.) Also includes two large-scale maps in two separate pdf files. A print copy of this thesis is available through the UO Libraries. Search the library catalog for the location and call number. / Deformation across plate boundaries often occurs over broad zones with relative motions between plates typically accommodated by faults of different styles acting together in a complex system. Collision of the Yakutat microplate within the Alaskan portion of the Pacific-North America plate boundary drives deformation over 600 km away where the Denali fault divides predominantly rigid crustal block motions of southern Alaska from distributed deformation in central Alaska. Quaternary geologic mapping along the Nenana River valley and the Japan Hills of the northern foothills of the Alaska Range defines zones of Quaternary thrust faulting recorded in the progressive deformation of Pleistocene fluvial terraces. I use topographic profiles of these terraces and paleoseismic trenching of fault scarps to characterize the Quaternary activity and constrain the subsurface geometry of these faults. Radiocarbon and cosmogenic exposure dating methods provide age control on the stratigraphy in the trenches and landforms offset by these faults. These observations define a 1-1.5 mm/yr slip rate for the Gold King fault which changes laterally from a north-vergent thrust into a north and south vergent thrust wedge that uplifts the Japan Hills. Along the Nenana River valley, the progressive deformation of Pleistocene surfaces defines a north-vergent critically-tapered thrust wedge. The geometry of progressive uplift and folding requires a near planar, south-dipping basal thrust fault with two major north-dipping backthrusts. All three faults were active simultaneously on a scale of 10 4 yrs with slip rates of 0.25-1 mm/yr, until the late Pleistocene when we infer the retreat of glacial ice from the main axis of the Alaska Range caused a change in thrust wedge dynamics. I use the orientation of Quaternary deformation north of the Denali fault to show that strain is highly partitioned and establish geologic constraints on the regional horizontal stress orientation. North of the Denali fault, fault-normal principal shortening accommodates 3-5 mm/yr of strain transfer across the Denali fault system. Two appendices contain additional results of paleoseismic trenching and neotectonic investigations across 4 active faults near the Nenana River.
This dissertation includes previously unpublished co-authored material. / Committee in charge: Ray Weldon, Chairperson, Geological Sciences;
Joshua Roering, Member, Geological Sciences;
David Schmidt, Member, Geological Sciences;
Douglas Kennett, Outside Member, Anthropology
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