This book presents a significant amount of structural, paleomagnetic and magnetic fabric data in the Central High Atlas (Morocco). The authors thoroughly described and analyzed the present-day structure of this intraplate chain through 22 of cross-sections, potential field data analysis and 3D reconstruction. In addition, the authors propose a palinspastic reconstruction of the structure of the basin at 100 Ma (i.e., post-extension and pre-compression) to finally evaluate its Mesozoic and Cenozoic geodynamic evolution. This books presents (1) a unique three-dimensional model at the chain scale, (2) an analysis of the ca. 100 Ma remagnetization, to perform palinspastic restorations of most representative structures, (3) as well as the interpretation of the magnetic fabrics in order to unravel the tectonic or deformation setting that the rocks underwent in different parts of the basin.
This book is of interest to structural geologists in Northern Africa, the Mediterranean and Iberia, as well as to those interested in inverted intraplate basins and paleomagnetists from around the planet. Also, this book is intended to help students to understand better the geological evolution of the Atlas and therefore Morocco and surrounding areas.
Dr. Pablo Calvín is currently a post-doctoral researcher at the IGME-CSIC research center (Spain). His work is focused on the study of remagnetizations and their kinematics both in intraplate basins (Iberia and North Africa) and in fold and thrust belts (Pyrenees), a research line that began during his Ph.D. at the University of Burgos (2014-2018), and he has combined with geophysical prospecting (magnetic and gravimetric surveys) and structural and tectonic studies.
Prof. Dr. Antonio. M. Casas Sainz is a teacher/researcher at the Department of Earth Sciences of the University of Zaragoza. He has worked extensively on paleostresses, regional geology, basin analysis and basin inversion in the Iberian Chain and the Pyrenees, geometrical and analog modeling, and also in geophysical prospecting of the shallow subsurface and analysis of geological risks linked to large dams and seismicity.
Prof. Dr. Teresa Román Berdiel is a teacher and a researcher at the Department of Earth Sciences of the University of Zaragoza. She leads since 2006 one of the pioneering teams working in Anisotropy of Magnetic Susceptibility (AMS) in Spain. Her work is focused in the application of analog modeling and magnetic fabrics to the understanding of different geological processes, from the emplacement of granitic bodies in the upper crust to the geodynamic evolution of intraplate basins.
Prof. Dr. Juan J. Villalaín is currently a teacher and a researcher at the Department of Physics of the Universidad de Burgos (UBU) and responsible for the Paleomagnetic Group and the Laboratory of Paleomagnetism and Rock Magnetism of the UBU. His work is focused on the application of paleomagnetism and magnetism to solve different geological (magnetostratigraphy, tectonics) and archeological problems. His main interest is focused on the study of widespread remagnetizations and their application to perform palinspastic reconstructions of intraplate basins.
The geological setting of the Moroccan High Atlas and its plate tectonics context.- Structure of the Central High Atlas (Morocco). Constraints from potential field data and 3D models.- Magnetic properties of the remagnetized carbonates of the Central High Atlas (Morocco).- Paleomagnetism of the Central High Atlas. The widespread Cretaceous Remagnetization and structural implications.- Geodynamic evolution during the Mesozoic and Cenozoic in the Central High Atlas of Morocco from Anisotropy of Magnetic Susceptibility.- Kinematics of structures and basin evolution in the Central High Atlas. Constraints from AMS and paleomagnetic data.