Yasunaga Eriko | Biotron Institute Kyushu University
スポンサーリンク
概要
関連著者
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Yasunaga Eriko
Biotron Institute Kyushu University
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Yasunaga Eriko
Institute For Sustainable Agro-ecosystem Services Tokyo University
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YASUTAKE Daisuke
Faculty of Agriculture Kyushu University
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KITANO Masaharu
Faculty of Agriculture Kyushu University
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Eguchi Toshihiko
Biotron Institute Kyushu University
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Yoshida Satoshi
Biotron Institute Kyushu University
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SAGO Yuki
Faculty of Agriculture, Kyushu University
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HIDAKA Kota
National Agricultural Research Center for Kyushu Okinawa Region
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Sago Yuki
Faculty Of Agriculture Kyushu University
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Yasutake Daisuke
Faculty Of Agriculture Kochi University
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Yoshida Satoshi
Biotron Institute Kvushu University
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Eguchi Toshihiko
Biotron Application Center Kyushu University
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YOSHIDA Satoshi
Biotron Application Center, Kyushu University
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Chikushi Jiro
Biotron Institute Kyushu University
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YASUNAGA Eriko
Biotron Institute, Kyushu University
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CHIKUSHI Jiro
Biotron Institute, Kyushu University
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Chikushi Jiro
Kyushu Univ. Fukuoka Jpn
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Rahman M.
Wheat Research Centre Bari
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DUXBURY John
917 Bradfield Hall, Cornell University
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MEISNER Craig
CIMMYT-Bangladesh
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LAUEN Julie
917 Bradfield Hall, Cornell University
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MIYAMOTO Hideki
Biotron Institute, Kyushu University
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Lauen Julie
917 Bradfield Hall Cornell University
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Duxbury John
917 Bradfield Hall Cornell University
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Miyamoto Hideki
Biotron Institute Kyushu University
著作論文
- Simplified Permittivity Calibration of Custom-Designed TDR Probes for Measuring Soil Water Content
- Chemical Control of Soil Environment by Lime and Nutrients to Improve the Productivity of Acidic Alluvial Soils under Rice-Wheat Cropping System in Bangladesh
- Kinetics of Root Ion Absorption Affected by Environmental Factors and Transpiration : II. Environmental Effects and a Concentration-Dependent Model
- Kinetics of Root Ion Absorption Affected by Environmental Factors and Transpiration : I. Measurement System for Intact Roots
- Kinetics of Root Ion Absorption Affected by Environmental Factors and Transpiration : III. A Kinetic Model Integrated with Transpiration