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Theses

Adeogba, A, 2003, Architecture and depositional controls of deep-water deposits as imaged by near-surface 3-D seismic data, Niger Delta, Nigeria: M.S. thesis, Stanford University, 71 p.

Anderson, K.S., 1998, Facies architecture of two Paleogene structurally-controlled turbidite systems, central California:  Ph.D. thesis, Stanford University, 391 p.

Armitage, D.A., 2009, High-resolution architectural evolution of depositional elements in deep-marine slope environments: The Quaternary Niger Delta slope, Quaternary southwest Grand Banks slope, Canada, and Cretaceous Tres Pasos Formation, Chile: Ph.D. thesis, Stanford University, 184 p.

Avseth, P., 2000, Combining rock physics and sedimentology for seismic reservoir characterization of North Sea turbidite systems: Ph.D. thesis, Stanford University, 181 p.

Bernhardt, A., 2011, Paleogeography and sedimentary development of two deep-marine foreland basins: the Cretaceous Magallanes Basin, southern Chile, and the Tertiary Molasse Basin, Austria: Ph.D. thesis, Stanford University, 218 p.

Chester, T.L., 1994, Analysis of vertical cyclicity patterns in two sediment gravity flow sequences: M.S. thesis, Stanford University, 169 p.

Covault, J.A. 2008, Development of turbidite architecture on tectonically active continental margins: Multiscale investigation of the Quaternary California Borderland, Tertiary Molasse Basin, Austria, and Cretaceous Magallanes Basin, Chile: Ph.D. thesis, Stanford University, 261 p.

Crane, W., 2004, Depositional history of the Upper Cretaceous Cerro Toro Formation, Silla Syncline, Magallanes Basin, Chile: Ph.D. thesis, Stanford University, 276 p.

Duerichen, E.T., 2005, Sedimentology and architecture of Upper Eocene deep-water deposits, Talara Basin, NW Peru: Ph.D. thesis, Stanford University, 186 p.

Felix, M., 2001, Two-dimensional turbidity current model: Ph.D. thesis, Stanford University, 193 p.

Fildani, A., 2004, Analysis of two arc-associated basins and onset of their deep-water stages: Magallanes Basin, Chile, and Talara Basin, Peru: Ph.D. thesis, Stanford University, 326 p.

Fosdick, J., 2011, Linking orogenic deformation, exhumation, and basin evolution in the Patagonian Andes 7and Magallanes Basin, southermost South America: Ph.D. thesis, Stanford University, 249 p.

Harrison, C.P., 1995, Aspects of the deposition and depositional architecture of the Upper Miocene Stevens deep-water depositional system, southern San Joaquin Basin, Kern County, California: M.S. thesis, Stanford University, 132 p.

Hickson, T., 1999, A study of deep-water deposition: Constraints on the sedimentation mechanics of slurry flows and high concentration turbidity currents, and the facies architecture of a conglomeratic channel-overbank system: Ph.D. thesis, Stanford University, 470 p.

Hubbard, S.M., 2006, deep-water foreland basin axial channels and associated sediment gravity flow deposits, Oligocene Molasse Basin, Upper Austria, and Cretaceous Magallanes Basin, Chile: Ph.D. thesis, Stanford University, 216 p.

Jobe, Z.R., 2010, Multi-scale architectural evolution and flow property characterization of channelized turbidite systems: Ph.D. thesis, Stanford University, 218 p.

Maier, K., 2012, Depositional architecture of deep-water slope systems: Examples from the Quaternary Lucia Chica channel system, offshore central California and the upper Miocene Urenui Formation, New Zealand: Ph.D. thesis, Stanford University, 412 p.

Mason, E., 1998, Internal facies architecture of a sand-rich, deep-water depositional system: The Rocks Sandstone, Reliz Canyon Formation, northern Santa Lucia Range, Monterey County, California: M.S. thesis, Stanford University, 100 p.

Mitchell, C.C., 2009, Subduction complex uplift and exhumation and its influence on Maastrichtian forearc stratigraphy in the Great Valley Basin, northern San Joaquin Valley, California: M.S. thesis, Stanford University, 79 p.

Murray, C. J., 1992, Analysis of bed thickness and grain size patterns in a turbidite section from the Great Valley Sequence, Cache Creek, Northern California: in Murray, C.J., Geostatistical Applications in Petroleum Geology and Sedimentary Geology, Ph.D. thesis, Stanford University, Chap. 4, p. 183-235.

Romans, B.W., 2008, Controls on distribution, timing, and evolution of turbidite systems in tectonically active settings: The Cretaceous Tres Pasos Formation, southern Chile, and the Holocene Santa Monica Basin, California: Ph.D. thesis, Stanford University, 281 p.

Shultz, M., 2004, Stratigraphic architecture of two deep-water depositional systems: The Tres Pasos formation, Chilean Patagonia, and the Stevens Sandstone, Elk Hills: Ph.D. thesis, Stanford University, 284 p.

Stites, N.P., 1998, Rock physics, sedimentology and petrography of a turbidity current deposit: An interdisciplinary approach: M.S. report, Stanford University, 48 p.

Stright, L., 2006, Coupled Geological Modeling and History Matching of Fine-Scale Curvilinear Flow Barriers and Large Scale Facies Bodies: M.S. thesis, Stanford University, 94 p.

Stright, L., 2011, Multiscale modeling of deep-water channel deposits: an interdisciiplinary study integrating geostatistics, geology and geophysics, the Cretaceous Cerro Toro Formation, southern Chile, the Eocene Ardath and Scripps Formations, southern California, and the Oligocene Puchkirchen Formation, upper Austria, Stanford University, 190 p.

Sylvester, Z., 2001, Facies, architecture, and bed-thickness structure of turbidite systems: Examples from the East Carpathian flysch, Romania, and the Great Valley Group, California: Ph.D., Stanford University, 294 p.

Temeng, A.F., 2009, Distributary channel development of the Newport submarine canyon-channel system, southern California Borderland: M.S. thesis, Stanford University, 72 p.

Williams, T.A., 1997, Basin-fill architecture and forearc tectonics, Cretaceous Great Valley Group, Sacramento basin, northern California: Ph.D. thesis, Stanford University, 412 p. /p>

Zeng, J., 1992, Numerical simulation of turbidity current flow and sedimentation: Ph.D. thesis, Stanford University, 300 p.

Zhu, M., 2007, Offshore Red River Fault and slope sediments in northern South China Sea: Implications for Paleoceanography and uplift of the Tibet Plateau: Ph.D. thesis, Stanford University, 202 p. [