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The AAPG/Datapages Combined Publications Database

AAPG Bulletin


AAPG Bulletin, V. 89, No. 11 (November 2005), P. 1433-1449.

Copyright copy2005. The American Association of Petroleum Geologists. All rights reserved.


An analysis of horizontal microcracking during catagenesis: Example from the Catskill delta complex

Gary G. Lash,1 Terry Engelder2

1Department of Geosciences, State University of New York–College at Fredonia, Fredonia, New York 14063; [email protected]
2Department of Geosciences, Pennsylvania State University, University Park, Pennsylvania 16802; [email protected]geosc.psu.edu


Horizontal bitumen-filled microcracks are common within clay laminae of the finely laminated organic carbon-rich shale in the lower half of the heavily jointed Upper Devonian Dunkirk Shale, western New York state. Such cracks are not found higher in the Dunkirk Shale, where moderate bioturbation resulted in a relatively porous and permeable microfabric. Horizontal microcracks in a hydrocarbon source rock that carries regional vertical joints indicating a horizontal least principal stress owe their presence to material properties of the fractured shale and the magnitude and orientation of the crack-driving stress during kerogen maturation. Three material properties favored the horizontal initiation of microcracks in the Dunkirk Shale: (1) the abundance of flat kerogen grains oriented parallel to layering; (2) a marked strength anisotropy in large part caused by the laminated nature of the rock; and (3) the tight, strongly oriented planar clay-grain fabric produced by gravitational compaction of flocculated clay at shallow-burial depth. The latter was especially important to sustaining elevated pore pressure, the crack-driving stress, which was generated by the conversion of kerogen to bitumen. Poroelastic deformation of the low-permeability laminated shale pressurized by catagenesis, perhaps enhanced by compaction disequilibrium prior to kerogen conversion, elevated the in-situ horizontal stress in excess of the vertical stress, which remained constant during pore-pressure buildup, thereby favoring the propagation of microcracks in the horizontal plane.

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