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Dawn Kellett

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B.Sc. UBC (2003)
Combined Honours Geology and Oceanography. Honours thesis: Geochemical and geophysical monitors of reaction progress during carbonate alteration of serpentinite at Atlin, British Columbia. Supervised by Dr. Greg Dipple.
M.Sc. Queen's University (2006)
Characterization and age of north-verging back structures in the Tethyan sedimentary sequence, Hidden valley, central Nepal Himalaya. Supervised by Dr. Laurent Godin. Jack Henderson Award for best Structural Geology and Tectonics.

Awards

Jack Henderson awards for best thesis 2011: PhD Award

First prize: Dawn Anne-Marie Kellett
Thesis Title: Tectonic evolution of the South Tibetan Detachment System, Bhutan Himalaya
Supervisor: Djordje Grujic
University: HÂþ»­ University


Judge's comment: Dawn Kellett is to be congratulated for her Ph.D. thesis. The thesis is very well written. Data and observations in each of the four critical chapters, two of which are already published in reputed international journals (Lithosphere and Journal of Metamorphic Geology), are well documented and clearly separated from interpretations. The conclusions and interpretations reached with respect to the cause or causes for detachment of upper-crustal strata from low-angle normal faults within the "compressional" Bhutan Himalaya are all viable and of high scientific importance in my opinion. In this regard Dawn Kellett's Ph.D. thesis follows the tradition of geodynamicists from HÂþ»­ University in significantly advancing our knowledge on the geodynamics of hot orogens, and the Himalaya in particular. I truly enjoyed reading the thesis and learned tremendously. Without doubt, this is a solid piece of work that deserves to be honoured.

Ph. D. Thesis

Syn-convergent low-angle normal-sense detachments (LANDs) are found in many orogens around the world. However, those tectonic processes which result in their formation are little known. The South Tibetan detachment system (STDS) is the best-studied example worldwide of a syn-convergent LAND, and formed in the Miocene due to the continental collision of India and Asia. In Bhutan, eastern Himalaya, the STDS is duplicated.

Here I investigate the tectonic history of the inner STDS and particularly the outer STDS in Bhutan, to determine whether the duplicated STDS can be explained by or used to constrain models of Himalayan orogenesis. A range of geochronometric, thermochronologic, petrologic, structural, thermobarometric, thermometric, and isotopic tools are used to constrain: the onset and cessation of motion on the outer STDS; the cessation of motion on the inner STDS; the peak metamorphic conditions in the hanging wall and footwall of the outer STDS; the pressure-temperature-time paths of tectonites in the hanging wall and footwall of the outer STDS; the structural history of the hanging wall rocks of the outer STDS, and; the paleogeographic affinity of the hanging wall rocks of the outer STDS.

The results of these studies are compared to thermo-mechanical models of Himalayan-type continental collision. Similarities in model predictions of the type and timing of structures, peak metamorphic conditions of hanging wall and footwall tectonites, pressure-temperature-time paths, and other regional tectonic observations lead to two main conclusions. 1. The STDS is a system of three main types of LANDs: those that formed during channel flow of low-viscosity mid-crustal rocks, those that formed by extrusion of cooled channel rocks to the surface, and those that formed by destabilization of the upper crust above a dome of mid-crustal channel rocks. 2. The STDs was duplicated by underthrusting of a crustal ramp into the Himalayan orogen since early Miocene. The underthrusting led to extrusion of a dome of weak mid-crustal above a previously-extruded channel. The crustal ramp may be local to the eastern Himalaya due to higher convergence and/or erosion rates, or due to local underthrusting of relatively strong crust behind weaker crust.

Pages: 268
Supervisor:
Djordje Grujic

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