nkysdb: 共著者関連データベース

KAWADA Yoshifumi 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 "KAWADA Yoshifumi")

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

    10: KAWADA Yoshifumi

    4: YAMANO Makoto

    3: HAMAMOTO Hideki, YOSHIDA Shigeo

    2: SEAMA Nobukazu, WATANABE Sei-ichiro

    1: GOTO Shusaku, HIGA Ryosaku, HONDA Satoru, JOSHIMA Masato, KASAYA Takafumi, KINOSHITA Masataka, KISIMOTO Kiyoyuki, NISHIMURA Kiyokazu, RAY Labani, TOKI Tomohiro, TSUNOGAI Urumu, URABE Tetsuro


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

    1998: Parameterization of Heat Transport by Non Newtonian Convection (T32A 1) [Net] [Bib]

    2004: Numerical simulations of mid ocean ridge hydrothermal circulation including the phase separation of seawater [Net] [Bib]

    2006: The role of interactions between the thermohaline circulation and oceanic carbon cycle A case study of Nagoya simple climate model(PP23B 1757) [Net] [Bib]

    2010: Formation of a hydrothermal reservoir due to anhydrite precipitation in an arc volcano hydrothermal system [Net] [Bib]

    2011: The role of seamounts in the transport of heat and fluids: Relations among seamount size, circulation patterns, and crustal heat flow [Net] [Bib]

    2014: Heat flow anomaly on the seaward side of the Japan Trench associated with deformation of the incoming Pacific plate [Net] [Bib]

    2014: Heat flow survey in the vicinity of the branches of the megasplay fault in the Nankai accretionary prism [Net] [Bib]

    2014: Hydrothermal heat mining in an incoming oceanic plate due to aquifer thickening: Explaining the high heat flow anomaly observed around the Japan Trench [Net] [Bib]

    2014: Tracing geologically constrained fluid flow pathways using a combination of heat flow measurements, pore water chemistry, and acoustic imaging near the deformation front of the Nankai Trough off the Muroto Peninsula, Japan [Net] [Bib]

    2015: Multiple scale hydrothermal circulation in 135 Ma oceanic crust of the Japan Trench outer rise: Numerical models constrained with heat flow observations [Net] [Bib]

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