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1 Earth Sciences, T. H. Huxley School, Imperial College of Science, Technology and Medicine, Royal School of Mines, Prince Consort Road, London SW7 2BP, United Kingdom; j.cosgrove{at}ic.ac.uk
John Cosgrove is a senior lecturer in the T. H. Huxley School of the Environment, Earth Sciences, and Engineering in the Royal School of Mines at Imperial College. After obtaining his M.Sc. degree and Ph.D. from Imperial he spent two years as a postdoctoral researcher at MacMaster University, Ontario, Canada, before returning to Imperial College to take up a lectureship. He is coauthor with Neville Price of a textbook, Analysis of Geological Structures, and his current research interests relate to the interplay between stress, fracture, and fluid flow in the crust.
The geological expression of hydraulic fracturing is varied and is controlled primarily by the magnitude of the differential stress and the intrinsic properties of the rock. The orientation and type of fractures that develop within a basin are determined by the state of stress, which in turn is controlled by the geological boundary conditions. During the early stages of burial and diagenesis the formation of hydraulic fractures is thought to be an important factor in the movement of fluids through and out of low-permeability, semilithified sediments. Unfortunately, these fractures are not generally preserved and are presumed to heal once the fluid pressure is relieved.
The low-permeability Mercia Mudstones of the Bristol Channel Basin, southwest England, however, contain bodies of sand that, during the opening of the basin, were injected along some of the hydraulic fractures in the mudstones, preserving them as sedimentary dikes and sills. Field observations indicate that fluid pressures within the Mercia Mudstones were also very high during basin inversion and that hydraulic fracturing provided a transient perme ability that relieved this excess pressure. The fractures are not visible in most of the mudstones but have been preserved within evaporite-rich horizons as a network of satin spar veins. Thus, the chance preservation of the sedimentary dikes and satin spar veins shows that at different times during the evolution of the basin, fluids migrated through low-permeability units along transient networks of hydraulic fractures. In addition, the orientation and spatial organization of these fractures reflect the boundary conditions operating at various stages in the basin history.
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