SOURCE

http://www.geology.um.maine.edu/geodynamics/AnalogWebsite/UndergradProjects2005/HJT.ERS416_2005/HTML/naturalworld.html

Davis, G.H., Reynolds, S.J., 1996, Structural geology of rocks and regions: New York, New York, John Wiley & Sons, Inc., 776 p.

De Paor, D.G., Simpson, C., Bailey, C.M., McCaffrey, K.J.W., Beam, E., Gower, R.J.W., Aziz, G., 1991, The role of solution in the formation of boudinage and transverse veins in carbonate rocks at Rheems, Pennsylvania: Geological Society of America Bulletin, v. 103, p. 1552-1563.

Goldstein, Arthur, Colgate University, www.eos.ubc.ca/courses/eosc221/meta/boudinage.html.

Groome, W., Dupee, M., 2004, The viscosity of silicone putty and its application to strain refraction modeling: analogue and numerical results, Geodynamics and Crustal Studies, University of Maine, http://www.geology.um.maine.edu/geodynamics/AnalogWebsite/Projects2004/Groome_Dupee/Home.html

Hiemstra, J.F., Zaniewski, K., Powell, R.D., Cowan, E.A., 2004, Strain signatures of fjord sediment sliding: micro-scale examples from Yakutat Bay and Glacier Bay, Alaska, U.S.A.: Journal of Sedimentary Research, v. 74, p. 760-769.

Kenis, I., Urai, J.L., van der Zee, W., Sintubin, M., 2004, Mullions in the High-Ardenne Slate Belt (Belgium): numerical model and parameter sensitivity analysis: Journal of Structural Geology, v. 26, p. 1677-1692.

Koons, P.O., Henderson, C.M., 1995, Geodetic analysis of model oblique collision and comparison to the Southern Alps of New Zealand: New Zealand Journal of Geology and Geophysics, v. 38, p. 545-552.

Masuda, T., Shibutani, T., Ochiai, T., Akagi, S., Yamaguchi, H., Kugimiya, Y., Kimura, N., Miyake, T., 2004, Microboudin structures of piemontite along the Sambagawa metamorphic belt, Japan: implications for lateral variation of differential stress during regional metamorphism: Journal of Metamorphic Geology, v. 22, p. 199-205.

Masuda, T. (2), Kimura, N., Bihong, F., Xiangdong, L., 2004, Validity of the microboudin method for paleo-stress analysis: application to extraordinarily long sodic amphibole grains in a metachert from Aksu, China: Journal of Structural Geology, v. 26, p. 203-206.

Smith, R.B., 1975, Unified theory of the onset of folding, boudinage, and mullion structure: Geological Society of America Bulletin, v. 86, p. 1601-1609.

Smith, R.B., 1977, Formation of folds, boudinage, and mullions in non-Newtonian materials: Geological Society of America Bulletin, v. 88, p. 312-320.

Stromgard, K.-E., 1973, Stress distribution during formation of boudinage and pressure shadows: Tectonophysics, v. 16, p. 215-248.

Vapnik, Y., Avigad, D., 2004, P-T conditions of quartz-calcite boudins and vein formation within a low-angle detachment fault in Tinos Island (Aegean Sea): a fluid-inclusion study: International Journal of Earth Sciences, v. 93, p. 487-499.

Wang, C., Ludman, A., 2004, Deformation conditions, kinematics, and displacement history of shallow crustal ductile shearing in the Norumbega fault system in the Northern Appalachians, eastern Maine: Tectonophysics, v. 384, p. 129-148.

W & M University, Piedmont Province: The Geology of Virginia, www.wm.edu/geology/virginia/piedmont.html.

Zulauf, G., Zulauf, J., Hastreiter, P., 2003, A deformation apparatus for three-dimensional coaxial deformation and its application to rheologically stratified analogue material: Journal of Structural Geology, v. 25, p. 469-480.