Nankai Trough
Top View
- The Izu-Bonin (Or Izu-Ogasawara) and Mariana Arcs Are Major Topo- Graphic Features in the Circum-Pacific Belt, Extending Curvili
- Resistivity Image of the Philippine Sea Plate Around the 1944 Tonankai Earthquake Zone Deduced by Marine and Land MT Surveys
- 1. Introduction and Summary of Active-Margin Drilling in the Nankai Trough and Japan Trench, Deep Sea Drilling Project Leg 871
- Livingfor Tomorrow
- 42. BASIN GENESIS in the PHILIPPINE SEA Daniel E
- Stress State Along the Western Nankai Trough Subduction Zone Inferred from B‑Values, Long‑Term Slow‑Slip Events, and Low‑Frequency Earthquakes Keita Chiba*
- Expedition 370 Summary1 1 Abstract 2 Introduction 4 Background V.B
- Nankai Trough, Japan Trench and Kuril Trench: Geochemistry of Fluids Sampled by Submersible “Nautile”
- Intraoceanic Thrusts in the Nankai Trough Off the Kii Peninsula
- Plate Convergence, Transcurrent Faults and Internal Deformation
- Deformation of an Island Arc: Rates of Moment Release
- 20.9 News Feat Drilling PJ
- Research Article Variations in Sediment Thickness and Type Along the Northern Philippine Sea Plate at the Nankai Trough
- A Case of the Philippine Sea Plate Beneath the Chugoku Region, Japan
- Determination of Euler Parameters of Philippine Sea Plate and the Inferences
- Philippine Sea Plate Inception, Evolution, and Consumption with Special Emphasis on the Early Stages of Izu-Bonin-Mariana Subduction Serge Lallemand
- Broadband Strong-Motion Prediction for Future Nankai-Trough Earthquakes Using Statistical Green’S Function Method and Subsequent Building Damage Evaluation
- Estimate of the Contraction Rate of Central Japan Through the Deformation of the Philippine Sea Slab Yukitoshi Fukahata