nkysdb: 共著者関連データベース

WADA Ikuko 様の 共著関連データベース

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+(A list of literatures under single or joint authorship with "WADA Ikuko")

共著回数と共著者名 (a list of the joint author(s))

    23: WADA Ikuko

    11: HE Jiangheng, WANG Kelin

    4: BEHN Mark D.

    3: SPINELLI Glenn A.

    2: PERRY Matthew, SHAW Alison M.

    1: CERPA Nestor G., CHEN Rong-Yuh, CLYNNE Michael A., GOWAN Evan J., HASEGAWA Akira, HAURI E., HYNDMAN Roy D, HYNDMAN Roy D., ISHIKAWA Yuzo, JAMES Thomas S., KAO Honn, KUMMER Troy D., MALONE Stephen D., NAKAJIMA Junichi, RYCHERT Catherine A., WALLACE Paul, WALOWSKI Kristina, WILSON Cian

発行年とタイトル (Title and year of the issue(s))

    2003: In slab Stresses and Damaging In slab Earthquakes in Southwest Japan (T52A 0243) [Net] [Bib]

    2003: Tectonic Environment of Damaging In Slab Earthquakes at the Nankai and Cascadia Subduction Zones (SS03/04A/A03 003) [Net] [Bib]

    2006: Effects of Reduced Slab Mantle Coupling on Mantle Wedge Flow and Serpentinization of the Forearc Mantle Wedge(T22C 02) [Net] [Bib]

    2006: Hydrothermal Circulation within Subducting Crust: Implications for Subduction Zone Temperature(TA21A 0380) [Net] [Bib]

    2006: Spatial Extent of Mantle Wedge Serpentinization and its Effects on Mantle Wedge Flow and Subduction Zone Thermal Structure (T15A 03) [Net] [Bib]

    2007: Comparative Study of Subduction Zone Thermal Structure: Implications for Slab Dehydration and Fluid Supply for Mantle Wedge Serpentinization and Arc Volcanism(T53D 05) [Net] [Bib]

    2007: Role of Plate Coupling and Mantle Wedge Flow in Affecting Stresses in Subduction Zone Upper Plate(T13G 05) [Net] [Bib]

    2008: Common Maximum Depth of Slab Mantle Wedge Decoupling: Understanding Variations in Fluid Supply and Thermal Petrologic Proscesses Among Subduction Zones (U52A 04) [Net] [Bib]

    2008: Identifying the Rupture Plane of the 2001 Nisqually, Washington, Earthquake [Net] [Bib]

    2008: Weakening of the subduction interface and its effects on surface heat flow, slab dehydration, and mantle wedge serpentinization [Net] [Bib]

    2009: Common depth of slab mantle decoupling: Reconciling diversity and uniformity of subduction zones [Net] [Bib]

    2009: Glacio Isostatic Adjustment Modeling of New Relative Sea Level Observations from the Northern Cascadia Subduction Zone, British Columbia, Canada (G31A 0639) [Net] [Bib]

    2011: Grain size distribution in the mantle wedge of subduction zones [Net] [Bib]

    2011: Sharp thermal transition in the forearc mantle wedge as a consequence of nonlinear mantle wedge flow [Net] [Bib]

    2012: Effects of heterogeneous hydration in the incoming plate, slab rehydration, and mantle wedge hydration on slab derived H2O flux in subduction zones [Net] [Bib]

    2013: The pattern of fluid release from the subducting slab and the migration of fluids in the mantle wedge(1A O3) [Net] [Bib]

    2014: Waning Dehydration of Mantle Serpentinite in the Subducting Plate Drives Slab Melting Beneath the Cascade Arc (75 8) [Net] [Bib]

    2015: Focusing of upward fluid migration beneath the arc: Effect of mineral grain size variation in the mantle wedge [Net] [Bib]

    2015: Mantle wedge flow pattern and thermal structure in Northeast Japan: Effects of oblique subduction and 3 D slab geometry [Net] [Bib]

    2015: The thermal effect of fluid circulation in the subducting crust on slab melting in the Chile subduction zone [Net] [Bib]

    2016: Modeled temperatures and fluid source distributions for the Mexican subduction zone: Effects of hydrothermal circulation and implications for plate boundary seismic processes [Net] [Bib]

    2017: Fluid migration in the mantle wedge: Influence of mineral grain size and mantle compaction [Net] [Bib]

    2017: Thermal Structure of the Kanto Region, Japan [Net] [Bib]

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