Subduction dynamics has been actively studied through seismology, mineral physics, and laboratory and numerical experiments.Understanding the dynamics of the subducting slab is critical to a better understanding of the primary societally relevant natural hazards emerging from our planetary interior, the megathrust earthquakes and consequent tsunamis.
Subduction Dynamics is the result of a meeting that was held between August 19 and 22, 2012 on Jeju island, South Korea, where about fifty researchers from East Asia, North America and Europe met. Chapters treat diverse topics ranging from the response of the ionosphere to earthquake and tsunamis, to the origin of mid-continental volcanism thousands kilometers distant from the subduction zone, from the mysterious deep earthquakes triggered in the interior of the descending slabs, to the detailed pattern of accretionary wedges in convergent zones, from the induced mantle flow in the deep mantle, to the nature of the paradigms of earthquake occurrence, showing that all of them ultimately are due to the subduction process.
Volume highlights include:
- Multidisciplinary researchinvolving geology, mineral physics, geophysics and geodynamics
- Extremely large-scale numerical models with sliate-of-the art high performance computing facilities
- Overview of exceptional three-dimensional dynamic representation of the evolution of the Earth interiors and of the earthquake and subsequent tsunami dynamics
- Global risk assessment strategies in predicting natural disasters
This volume is a valuable contribution in earth and environmental sciences that will assist with understanding the mechanisms behind plate tectonics and predicting and mitigating future natural hazards like earthquakes, volcanoes and tsunamis.
Keywords: subduction dynamics, seismology, mineral physics, subducting slab, natural hazards, earthquakes, tsunamis, volcanism, deep earthquakes, convergent zones, mantle flow, deep mantle, deep earth, geology, mineral physics, geophysics, geodynamics, geological modeling, Earth evolution, global risk assessment, natural disaster prediction, hazard mitigation, waveform modeling, continental collision, continental drift, plate variations, magmatism, tectonic modeling, seismicity, seafloor morphology, Structural Geology & Tectonics, Emergency / Disaster Management (ghost code - use SM10), Structural Geology & Tectonics, Emergency Management