Ductile Shear Zones: From Micro– to Macro–scales

The elucidation of the mechanisms and kinematics of shear zone deformation, at both local and regional scales, is the subject of a great deal of interest to scientists in the hydrocarbon industry, in seismology, and in structural geology more generally. This book comprises a collection of five theoretical and twelve regional contributions to the subject from a number of leading researchers in the field, with particular emphasis on work carried out in the Indian subcontinent. The book will be invaluable to advances students and researchers involved in the kinematics of shear. INDICE: Notes on Contributors .Acknowledgements .Introduction .PART I: Theoretical Advances & New Methods .1. From finite to incremental strain: insights into heterogeneous shear zone evolution (Vitale S. & Mazzoli S.) .2. How far does a ductile shear zone permit transpression? (Dasgupta S., Mandal N. & Bose S.) .3. 2D model for development of steady–state and oblique foliations in simple shear and more general deformations (Mulchrone K. F., Meere P. A. & McCarthy D. J.) .4. Deformation of single inclusions in simple shear with finite–strain hyperelastoviscoplastic rheology (Schrank C. E., Karrech A., Boutelier D. A. & Regenauer–Lieb K.) .5. Biviscous horizontal simple shear zones of concentric arcs (Taylor Couette flow) with incompressible Newtonian rheology (Mukherjee S. & Biswas R.) .PART II: Examples from Regional Aspects .6. Quartz–strain–rate–metry (QSR), an efficient tool to quantify strain localization in the continental crust (Boutonnet E. & Leloup P–H.) .7. Thermal structure of shear zones from Ti–in–quartz thermometry of mylonites: Methods and example from the basal shear zone, northern Scandinavian Caledonides (Wolfowicz A. M., Kohn M. J. & Northrup C. J.) .8. Brittle–ductile shear zones along inversion–related frontal and oblique thrust ramps: insights from the Central–Northern Apennines curved thrust system (Italy) (Pace P., Calamita F. & Tarvanelli E.) .9. Microstructural variations in quartzofeldspathic mylonites and the problem of vorticity analysis using rotating porphyroclasts in the Phulad Shear Zone, Rajasthan, India (Sengupta S. & Chatterjee S. M.) .10. Mineralogical, textural and chemical reconstitution of granitic rock in ductile shear zone: A study from a part of the South Purulia Shear Zone, West Bengal, India (Chattopadhyay N., Ray S., Sanyal S. & Sengupta P.) .11. Reworking of a basement–cover interface during Terrane Boundary shearing: An example from the Khariar basin, Bastar craton, India (Bhadra S. & Gupta S.) .12. Intrafolial folds– review & examples from the western Indian Higher Himalaya (Mukherjee S, Punekar JN, Mahadani T, Mukherjee R.) .13. Structure and Variscan Evolution of Malpica–Lamego Ductile Shear Zone (NW of Iberian Peninsula) (Pamplona J., Rodrigues B. C., Llana–Fúnez S., Simões P. P., Ferreira N., Coke C., Pereira E., Castro P. & Rodrigues J.) .14. Microstructural development in ductile deformed metapelitic–metapsamitic rocks: A case study from the greenschist to granulite facies megashear zone of the Pringles Metamorphic Complex, Argentina (Delpino S, Ruedaz M, Urraza I, Grasemann B.) .15. Strike slip ductile shear zones in Thailand (Kanjanapayont P.) .16. Geotectonic evolution of the Nihonkoku Mylonite Zone of north central Japan based on geology, geochemistry and radiometric ages of the Nihonkoku Mylonites: Implications for Cretaceous to Paleogene tectonics of the Japanese Islands (Takahashi Y.) .17. Flanking structures as shear sense indicators in the Higher Himalayan gneisses near Tato, West Siang District, Arunachal Pradesh, India (Goswami TK, Baruah S.)

• ISBN: 978-1-118-84496-0
• Editorial: Wiley–Blackwell
• Encuadernacion: Cartoné
• Páginas: 320
• Fecha Publicación: 11/12/2015
• Nº Volúmenes: 1
• Idioma: Inglés