Kwon, S., Mitra, G. & Perucchio, R. (2007): The Effect of predeformational basin geometry in the kinematic evolution of a thin-skinned orogenic wedge: Insights from three-dimensional finite element modeling of the Provo salient, Sevier fold-thrust belt, Utah. Journal of Geophysical Research 112, B02403, doi:10.1029/2006JB004376.
Kwon, S. & Mitra, G. (2006): Three-dimensional kinematic history at an oblique ramp, Leamington zone, Sevier belt, Utah. Jour. of Struc. Geo. 28, 474-493.
Ismat, Z. & Mitra, G. (2005): Folding by cataclastic flow: evolution of controlling factors during deformation. Jour. of Struc. Geo. 27, 2181-2203.
Kwon, S. & Mitra, G. (2005): Provisional structural geologic map of the Jericho quadrangle, Juab County, Utah. Utah Geological Survey Open-File Report 444, 2 plates, scale 1:24,000.
Ismat, Z. & Mitra, G. (2005): Fold-thrust belt evolution expressed in an internal thrust sheet, Sevier orogen: The role of cataclastic flow. Geol. Soc. America Bull., 117, 764-782.
Strine, M. & Mitra, G. (2004): Preliminary kinematic data from a salient-recess pair along the Moine thrust, northwest Scotland. In: Sussman, A. J. & Weil, A. B., eds., Orogenic Curvature: Integrating Paleomagnetic and Structural Analyses. Geol. Soc. Am. Sp. Paper 383, 87-107.
Kwon, S. & Mitra, G. (2004): Strain distribution, strain history and kinematic evolution associated with the formation of arcuate salients in fold-thrust belts: the example of the Provo salient, Sevier orogen, Utah. In: Sussman, A. J. & Weil, A. B., eds., Orogenic Curvature: Integrating Paleomagnetic and Structural Analyses. Geol. Soc. Am. Sp. Paper 383, 205-223.
Kwon, S. & Mitra, G. (2004): Three-dimensional finite-element modeling of a thin-skinned fold-thrust belt wedge: Provo salient, Sevier belt, Utah. Geology 32, 561-564.
Ismat Z. and Mitra G. (2001): Folding by cataclastic flow at shallow crustal levels in the Canyon Range, Sevier orogenic belt, west-central Utah. Jour. Struc. Geo., 23, 355-378.
Mitra, G. & Ismat, Z. (2001): Microfracturing associated with reactivated fault zones and shear zones: what can it tell us about deformation history? In: Holdsworth, R. E., Strachan, R. A., Magloughlin, J. F. & Knipe, R. J., eds., The Nature and Tectonic significance of Fault Zone Weakening. Geological Society of London Special Publication 186, 113-140.
Gray, M. B. & Mitra, G. (1999): Ramifications of four-dimensional progressive deformation in contractional mountain belts. Jour. Struc. Geo. 21, 1151-1160.
Mitra, G. (1998): Progressive development of foliation in a brittle deformation zone. In: Snoke, A. W., Tullis, J. & Todd, V. R., eds., Fault-related Rocks, a Photographic Atlas, p. 52-53. Princeton University Press, Princeton, NJ.
Mitra, G. (1998): Anastomosing deformation zones. In: Snoke, A. W., Tullis, J. & Todd, V. R., eds., Fault-related Rocks, a Photographic Atlas, p. 142-143. Princeton University Press, Princeton, NJ.
Mitra, G. (1998): Progressive development of foliation in a lower greenschist facies ductile deformation zone. In: Snoke, A. W., Tullis, J. & Todd, V. R., eds., Fault-related Rocks, a Photographic Atlas, p. 298-299. Princeton University Press, Princeton, NJ.
Newman, J. & Mitra, G. (1998): Deformation and dynamic recrystallization of dolomite. In: Snoke, A. W., Tullis, J. & Todd, V. R., eds., Fault-related Rocks, a Photographic Atlas, p. 540-541. Princeton University Press, Princeton, NJ.
Mukul M. & Mitra G. (1998): Finite strain and strain variation analysis in the Sheeprock thrust sheet, an internal thrust sheet in the Provo salient of the Sevier fold-and-thrust belt, central Utah. Jour. Struc. Geo., 20, 385-406.
Mukul, M. & Mitra, G. (1998): Controversies in the geology of the Sheeprock thrust sheet, Sevier fold-and-thrust belt, Utah: A re-examination based on new evidence. Utah Geological Survey Miscellaneous Publications 98-1, 1-15.
Mukul M. & Mitra G. (1998): Stratigraphy and structural geology of the southern Sheeprock and the adjacent West Tintic Mountains (Utah): A review and new interpretations based on structural analysis. Utah Geological Survey Miscellaneous Publications 98-1, 17-56.
Mitra G. & Sussman A. J. (1997): Structural evolution of connecting splay duplexes and their implications for critical taper: an example based on geometry and kinematics of the Canyon Range culmination, Sevier Belt, central Utah. Jour. Struc. Geo., 19, 503-521.
Mitra G. (1997): Evolution of salients in a fold-and-thrust belt: the effects of sedimentary basin geometry, strain distribution and critical taper. In: Evolution of Geological Structures from Macro- to Micro- scales (edited by S. Sengupta). Chapman and Hall, London, p. 59-90.
McNaught M. & Mitra G. (1996): The use of finite strain data in constructing a retrodeformable cross section of the Meade thrust sheet, southeastern Idaho, U.S.A. Jour. Struc. Geo. 18, 573-583.
Srivastava P. & Mitra G. (1996): Deformation mechanisms and inverted thermal profile in the North Almora Thrust mylonite zone, Kumaon Lesser Himalaya, India. Jour. Struc. Geo., v. 18, p. 27- 39.
DeCelles, P. G., Lawton, T. F. & Mitra, G. (1995): Timing of Sevier thrusting, central Utah. Geology 23, 699-702.
DeCelles, P. G. & Mitra, G. (1995): History of the Sevier orogenic wedge in terms of critical taper models, northeast Utah and southwest Wyoming. Geol. Soc. Am. Bull. 107, 454-462.
Newman, J. & Mitra, G. (1994): Fluid-influenced deformation and recrystallization of dolomite at low temperatures along a natural fault zone, Mountain City Window, Tennessee. Geol. Soc. Am. Bull. 106, 1267-1280.
Mitra, G. (1994): Strain variation in thrust sheets and across the Sevier fold-and-thrust belt (Idaho-Utah-Wyoming): Implications for section restoration and wedge taper evolution. Jour. Struc. Geol. 16, 585-602.
Srivastava, P. & Mitra, G. (1994): Thrust geometries and deep structure of the Outer and Lesser Himalaya, Kumaon and Garhwal (India): Implications for evolution of the Himalayan fold-and-thrust belt. Tectonics 13, 89-109.
Newman, J. & Mitra, G. (1993): Lateral variations in fault zone thickness as influenced by fluid-rock interactions, Linville Falls fault, North Carolina. Jour. Struc. Geol. 15, 849-863.
McNaught, M. A. & Mitra, G. (1993): A kinematic model for the origin of footwall synclines beneath thrust ramps. Jour. of Struc. Geo. 15, 805-808.
Gray, M. B. & Mitra, G. (1993): Migration of deformation fronts during progressive deformation: Evidence from detailed structural studies in the Pennsylvania Anthracite region. Jour. Struc. Geol. 15, 435-449.
Yonkee, W. A. & Mitra, G. (1993): Comparison of basement deformation styles in the Rocky Mountain Foreland and Sevier Orogenic Belt. In: Schmidt, C., Chase, R. & Erslev, E., eds., Basement Behavior in Rocky Mountain Foreland Structures. Geol. Soc. Amer. Spec. Pap. 280, 197-228.
Mitra, G. (1993): Deformation processes in brittle deformation zones in granitic basement rocks: A case study from the Torrey Creek area, Wind River Mountains. In: Schmidt, C., Chase, R. & Erslev, E., eds., Basement Behavior in Rocky Mountain Foreland Structure. Geol. Soc. Amer. Spec. Pap. 280, 177-195.
Mitra, G. (1991): Deformation of granitic basement rocks along fault zones at shallow to intermediate crustal levels. In: Mitra, S. & Fisher, G.W., eds., Structural Geology of Fold and thrust belts, 123-144.
Protzman, G. & Mitra, G. (1990): Strain fabric associated with the Meade thrust: Implications for cross-section balancing. Jour. Struc. Geol. 12, 403-417.
Mitra, G., Hull, J. M., Yonkee, W. A. & Protzman, G. M. (1988): Comparision of mesoscopic and microscopic deformational styles in the Idaho-Wyoming thrust belt and the Rocky Mountain foreland. In: W.J. Perry and C. Schmidt, eds., Interaction of the Rocky Mountain Foreland and Cordilleran thrust belt. Geol. Soc. Am. Memoir 171, 119-141.
Wojtal, S. & Mitra, G. (1988): Nature of deformation in fault rocks from Appalachian thrusts. In: Mitra, G. & Wojtal, S., eds. Geometry and Mechanisms of Thrusting with special reference to the Appalachians. Geol. Soc. Am. Special Paper 222, 17-34.
Boyer, S. E. & Mitra, G., (1988): Relationship between deformation of crystalline basement and sedimentary cover at the basement/cover transition zone of the Appalachian Blue Ridge Province. In: Mitra, G. & Wojtal, S., eds., Geometry and Mechanisms of Thrusting, with special reference to the Appalachians. Geol. Soc. Am. Spec. Pap. 222, 119-136.
Wojtal, S. & Mitra, G. (1986): Strain hardening and strain softening in fault zones from foreland thrust. Geol. Soc. Amer. Bull. 97, 674-687.
Mitra, G. & Boyer, S. E. (1986): Energy balance and deformation mechanisms of duplexes. Jour. Struc. Geol. 8, 291-304.
Mitra, G. & Yonkee, W. A. (1985): Relationship of spaced cleavage to folds and thrusts in the Idaho-Utah-Wyoming thrust belt. Jour. Struc. Geol. 7, 361-373.
Mitra, G. (1984): Brittle to ductile transition due to large strains along the White Rock thrust, Wind River Mountains, Wyoming. Jour. Struc. Geol. 6, 51-61.
Mitra, G., Yonkee, W. A. & Gentry, D. J. (1984): Solution cleavage and its relationship to major structures in the Idaho-Utah-Wyoming thrust belt. Geology 12, 354-358.
Mitra, G. & Frost, B.R. (1981): Mechanisms of deformation within Laramide and Precambrian deformation zones in basement rocks of the Wind River Mountains. Contributions to Geology 19, 161-173.
Mitra, G. & Elliott, D. (1980): Deformation of basement in the Blue Ridge and the development of the South Mountain cleavage. Proceedings "Caledonides in the USA: I.G.C.P. Project 27: Caledonide Orogen, Va. Polytech. Inst. and State Univ. Memoir no. 2, p. 307-312.
Mitra, G. (1979): Ductile deformation zones in Blue Ridge basement rocks and estimation of finite strain. Geol. Soc. Amer. Bull. Part I 90, 935-951.
Mitra, G. (1978): Ductile deformation zones and mylonites: The mechanical processes involved in the deformation of crystalline basement rocks. Amer. Jour. Sci. 278, 1057-1084.
Lawton, T. F., Sprinkel, D. F., DeCelles, P. G., Mitra, G., Sussman, A. J. & Weiss, M. P. (1997): Sevier thrust belt central-Utah: Sevier Desert to Wasatch Plateau. In: Link, K. P. & Kowallis, B. J., eds. Geological Society of America Annual Mtg. Field Guide, BYU Geology Studies Field Trip Guide Book pt. II, 33 – 68.
Mitra, G. (1989): The Catoctin Mountain-Blue Ridge Anticlinorium in Northern Virginia. In: "Geometry and Deformation Fabrics in the Central and Southern Appalachian Valley and Ridge and Blue Ridge." 28th International Geological Congress, Am. Geophys. Union Field Trip Guidebook T357, p. 31-44.
Lukert, M.T. & Mitra, G. (1986): Extrusional environments of part of the Catoctin Formation. Geol. Soc. Am. Centennial Field Guide - SE Section, 207-208.
Mitra, G. & Lukert, M.T. (1982): Geology of the Catoctin-Blue Ridge Anticlinorium in Northern Virginia. Central Appalachian Geology, NE-SE GSA Field Trip Guidebooks, Am. Geol. Inst., 83-108.