| February 25-27, 2009 | ||||
| 2/25 | Chair | |||
| 13:00 | Ohtani | Fukao, Y. | Integration of efforts in different disciplines towards the goal of the stagnant slab project | |
| 13:30 | Kawakatsu, H. | Seismic constraints on the deep water transportation and deep "dry" cold slab beneath SW Japan | ||
| 14:00 | Bina, C. | Phase Stability and Metastability in Deep Slab Structure and Dynamics | ||
| 14:30 | Iwamori, H. | Transportation of H2O Beneath the Japan Arcs and its Implications for Global Water Circulation | ||
| 15:00 | Shimizu, H. | Semi-global and regional electrical conductivity models derived from inversion of electromagnetic variation data in the North Pacific Ocean and Philippine Sea | ||
| 15:30 | Coffee | |||
| 16:00 | Irifune | Katsura, T. | Electrical conductivity of the upper mantle materials | |
| 16:30 | van Keken, P. | The global range of subduction zone models: Consequences for transport of volatiles to the deep Earth | ||
| 17:00 | Obayashi, M. | Seismic image of stagnant slabs: Implication in deformation, temperature and water content | ||
| 17:30 | Yoshioka, S. | 2D temperature model in deep slabs incorporating kinetics of the 410-km and 660-km phase transformations | ||
| 19:00 | Reception | |||
| 2/26 | ||||
| 9:00 | Suetsugu | Helffrich, G. | Compositional controls on upper surface mineralogy in downgoing and recumbent slabs | |
| 9:30 | Richard, G. | Numerical Models of Slab Dehydration in the Earth’s Mantle Transition Zone | ||
| 10:00 | Jacobsen, S. | Effects of hydration on the elastic properties of the mantle above subducting slabs at 300-660 km depth | ||
| 10:30 | Coffee | |||
| 11:00 | Inoue | Shito, A. | Seismic property and the implication in the Izu-Bonin subduction zone inferred from BBOBS data | |
| 11:30 | Wiens, D. | Mantle Wedge and Transition Zone Structure in the Mariana Subduction Zone | ||
| 12:00 | Jackson, I. | Laboratory-based Interpretation of Upper-mantle Seismic Tomograms: Progress and Prospects | ||
| 12:30 | ||||
| 13:30 | Poster Session | |||
| 14:00 | ||||
| 14:30 | ||||
| 15:00 | Coffee | |||
| 15:30 | Ogawa | Honda, S. | Modeling of front and back sides of subduction zones around the Japanese Islands | |
| 16:00 | Suzuki, A. | A Viscosity Minimum of Basaltic Magma at High Pressure | ||
| 16:30 | Schmerr, N. | Upper Mantle Discontinuity Topography Beneath South America from Thermal and Chemical Heterogeneity | ||
| 17:00 | Billen, M. | THE NON-STEADY-STATE EVOLUTION OF SLABS: NON-NEWTONIAN UPPER MANTLE AND SLAB RHEOLOGY | ||
| 17:30 | Yanagisawa, T. | The effect of phase transition and viscosity layering on the slab stagnation | ||
| 2/27 | ||||
| 9:00 | Utada | Tarits, P. | Electrical tomography of the lower mantle beneath stagnant slabs: a case study in Europe | |
| 9:30 | Tange, Y. | EQUATION OF STATE OF MgSiO3 PEROVSKITE BASED ON A NEW MgO PRESSURE-SCALE | ||
| 10:00 | Takeuchi, N. | Fine-Scale Heterogeneities in the Lowermost Mantle Constrained by Broadband Tiltmeter Waveforms | ||
| 10:30 | Coffee | |||
| 11:00 | Tanaka | Thomas, C. | Seismic Structures in the lowermost mantle and the post-perovskite phase transition | |
| 11:30 | Hirose, K. | Subducted Basaltic Crust and the Slow Shear Velocity Anomalies in the Lowermost Mantle | ||
| 12:00 | Conveners | Closing note | ||