Seismotectonics of the East Mediterranean-Red Sea region
Springer International Publishing (Verlag)
978-3-031-80927-9 (ISBN)
- Noch nicht erschienen - erscheint am 09.05.2025
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This volume is considered as a unique book outlining new advances in seismotectonic research of the East Mediterranean-Red Sea Region (EMRSR). The dedicated chapters will outline the region in terms of tectonic segmentation, kinematics, and possible causes of it. It will provide state of art overview along-strike variations in geometry and behavior of faulting, jog characteristics of the active tectonic zones, analysis of earthquake clustering features, crustal deformation, constraining crustal velocity fields, relationship between strain rate and seismicity, paleoseismology, as well as global and regional seismicity. There will be specific topics within the book dedicated to the probabilistic seismic-hazard assessment of the EMRSR including its crustal stress field evolution and its implications for fault mechanics, earthquake source parameters and moment tensors, and description of double-coupled earthquake focal mechanism. Also, earthquake-induced deformational structures focusing on afterslip and spontaneous aseismic slip processes will provide a complete picture for the reader about this fascinating active region. Sections documenting the stress field variations and kinematics for diffuse microseismicity will also be developed. Other cutting edge research, such as progressive failure, spatiotemporal characteristics of seismicity that depends on accurate earthquake locations, as well as relationship of global distribution to earthquake-source geometry and tectonic origin provides up to date information within the EMRSR realm. The significance of the ambient noise level and site characterization specific to EMRSR and congruence and incongruence of active tectonic zones with normal plate kinematics will be shown in illustrative sections of this new book. The book also will explore the potential relationship of seismotectonics to sustainable development as a key societal aspect of seismotectonic research in an active convergent plate margin region such as the EMRSR.
Zakaria Hamimi is Tectonics and Structural Geologist, currently at Benha University in Egypt, and has worked previously at Sana'a University, Yemen (1995-1998) and King Abdulaziz University, Saudi Arabia (2003-2013). He obtained a B.Sc. (distinction with Honors) in 1984 at Assiut University, a M.Sc. in 1988 at Zagazig University, and a Ph.D. in 1992 in Structural Geology and Tectonics at Cairo University. His research focusses on the tectonic evolution of the Arabian-Nubian Shield via structural/microstructural, paleostress, and strain studies, aligned with geological mapping, geomorphology, and remote sensing methodologies. His research output exceeds 80 research publications in national and international journals.
Zakaria Hamimi is President and Founding Member of the Arabian Geosciences Union, since 2012. He has been awarded the medal of the Egyptian Geological Society of Egypt in 2015 and the medal of the Arab Mining and Petroleum Association in 2016. Károly Németh was Professor in Geology at Massey University, New Zealand, until 2022. He retained his academic position at Massey University as Adjunct
Professor in Geology. He is also holding Senior Researcher position at the Institute of Earth Physics and Space Science in Hungary. He is Research Affiliate of the Istituto Nazionale di Geofisica e Vulcanologia di Bologna, Italy. He obtained a Ph.D. in Geology from the University of Otago, New Zealand, in 2001, and a Ph.D. in Environmental Sciences from the University of Sopron, West Hungary, in 2003. His expertise includes sedimentology, volcanology, and geoheritage. He worked extensively on research on monogenetic volcanism and volcanic geology in various geotectonic settings. He completed research in each of Earth's continents and gained strong field-based geology skills including geological mapping and reconstruction of interaction between volcanism and the sedimentary environment. He worked geoheritage research that expanded to characterization of geodiversity.
Abdulrahman Fowler completed a Bachelor of Science majoring in geology at Sydney University, Australia, with first class Honours in Mineralogy, graduating in 1976. He completed a Ph.D. degree at the University of New South Wales, Australia, in 1988. The topic of the Ph.D. was tectonics and structural geology of part of the Lachlan Fold Belt of NSW. He has previously been employed at the University of New South Wales and at La Trobe University, Victoria, Australia. Prior to his doctoral studies, he was employed in the uranium and tin mining industries as Exploration Geologist in the Northern Territory, Queensland, and New South Wales. He has worked as Geological Consultant in gold exploration. He has conducted research projects in Australia, Turkey, Egypt, Oman, and the Emirates. His main research interests are in tectonics of the Arabian-Nubian Shield, sedimentary geochemistry, granite intrusion mechanisms, and strain analysis.
Shoji Arai is Professor Emeritus of Kanazawa University, Japan. After obtaining Ph.D. at University of Tokyo in 1975, he was on Faculty Member at the University of Tokyo, Shizuoka University, University of Tsukuba, and Kanazawa University. Throughout his academic career, he has been working mainly on deep-seated rocks to unravel processes and constitutions of the mantle and lower crust and published more than 350 papers. He is Fellow of Japan Geoscience Union and Winner of awards from Island Arc (Wiley), the Geological Society of Japan, the Society of Resource Geology, and the Japan Association of mineralogical Sciences.
José A. Peláez is Seismologist currently at the University of Jaén in Spain and previously at the University of Granada. He obtained a B.Sc. and M.Sc. in physics and a Ph.D. in seismology at the University of Granada. His research interests are in the areas of seismology in general and seismic hazard, seismic forecasting, and seismotectonics studies in particular. His
Introduction.- From the assembly of Pangaea to the closure of Tethys ocean: a synthesis.- Geologic and tectonic research in the East Mediterranean-Red Sea Region.- Evolution of the Afro-Arabian Rift System in space and time.- Interaction of the African, Arabian, Anatolian and Eurasian plates.- The conjugate East and North Anatolian Faults and the westward movement of Anatolian Block.- The Dead Sea Transform Fault System accommodating the left-lateral movement between the African and Arabian Plates.- The Gulf of Aqaba, the southern part of the Dead Sea Fault: geometrical and kinematic approach.- The Northern Red Sea-Gulf of Suez rift.- The rifted continental margin systems in the Gulf of Aden.- Paleoseismology in of the East Mediterranean-Red Sea Region: analysis of historical and instrumental earthquake catalogs.- Seismological aspects of the Mw 7.8, 6th February 2023, Turkey/Syria earthquake and its aftershocks: Causes and consequences.- Seismotectonic frame of the East and North Anatolian Faults.- Crustal and uppermost mantle velocity structures in the Red Sea region.- Seismic tomography study beneath the East Mediterranean.- Seismicity of the Southern Red Sea and Gulf of Aden.- Relation of earthquakes to volcanic activity in the Arabian Peninsula.-
Ambient noise for seismic site characterization in the East Mediterranean-Red Sea Region: examples from some selected cities.- Path attenuation effect in selected countries of East Mediterranean and Red Sea Regions.- Source process and parameters for the major seismic events in the East Mediterranean-Red Sea Region.- Determination of site effects along the western Red Sea coast using microtremor measurements.- Magnitude estimation in the East Mediterranean-Red Sea Region's networks: description and performance of seismic networks.- Induced seismicity: causes and impact on the environment.- Moment Tensor Inversion for large magnitude earthquakes in the East Mediterranean zone.- Description and performanceof seismic networks in the East Mediterranean-Red Sea Region.- Analysis of seismicity and an up-to-date seismicity study of Northern Red Sea Rift and Sinai subplate using updated earthquake data.- Applications of the artificial intelligence and machine learning technologies for earthquake monitoring and analysis.- Seismic design and building codes in East Mediterranean/Red Sea countries.- Updating seismotectonic and hazard maps for the East Mediterranean-Red Sea Region.- Stochastic simulation of earthquake ground motions for selected events and locations in the East Mediterranean and Red Sea Regions.- Site-dependent seismic hazard assessment for selected active zones in the East Mediterranean and Red Sea Regions.- Seismic risk analysis for selected mega-projects in the East Mediterranean-Red Sea Region.- Determination of crustal movements using GPS and seismic data with emphasis on InSAR- and GNSS-Derived Seismic Hazard Models.
Erscheint lt. Verlag | 9.5.2025 |
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Reihe/Serie | Advances in Science, Technology & Innovation |
Zusatzinfo | Approx. 600 p. |
Verlagsort | Cham |
Sprache | englisch |
Maße | 210 x 279 mm |
Themenwelt | Naturwissenschaften ► Geowissenschaften ► Geologie |
Naturwissenschaften ► Geowissenschaften ► Geophysik | |
Schlagworte | aftershocks • Crustal Deformation • East Mediterranean • Focal Mechanisms • Moment tensors • Red Sea • Seismicity • Tectonic zones |
ISBN-10 | 3-031-80927-0 / 3031809270 |
ISBN-13 | 978-3-031-80927-9 / 9783031809279 |
Zustand | Neuware |
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