斎藤　広隆

Professional Career

経歴

1999年5月 - 2003年5月 : ミシガン大学アナーバー校 土木環境工学科　研究助手
2003年6月 - 2005年1月 : サンディア国立研究所（アルバカーキ、ニューメキシコ）地質水文部　ポスドク研究員
2005年1月 - 2006年5月 : カリフォルニア大学リバーサイド校　環境科学科　ポスドク研究員
2006年6月 - 2007年3月 : カリフォルニア大学リバーサイド校　環境科学科　日本学術振興会海外特別研究員
2006年11月 - 2011年3月 : 東京農工大学　共生科学技術研究院　特任准教授
2011年4月 - 2017年9月 : 東京農工大学　農学研究院　准教授
2017年10月- 現在 : 東京農工大学　農学研究院　教授

Academic Degrees

学位

1997年　修士（農学）東京大学
2001年　博士（農学）東京大学
2003年　Ph.D.　ミシガン大学

Research Interests

キーワード

土壌物理，地球統計学，地球物理，不飽和帯，数値計算，確率・統計，不確実性，物理探査，岩盤亀裂

Publications

論文

• Cho, M.T.T., Chueasamat, A., Hori, T., Saito, H., Kohgo, Y., 2021, Effectiveness of filter gabions against slope failure due to heavy rainfall, Soils and Foundations, 61(2), 480-495, https://doi.org/10.1016/j.sandf.2021.01.010.

• Kassaye, K.T., Boulange, Kurebito, S., Tokunari, T., Saito, H., Watanabe, H., The role of biochar in improving soil properties, water retention and potato yield in a Fluvisol under temperate monsoon climate, Soil Use and Management, Early access, DOI:10.1111/sum.12769,2021

• Saito, H., Kuroda, S., Iwasaki, T., Sala, J., Fujimaki, H., 2021, Estimating infiltration front depth using time-lapse multi-offset gathers obtained from ground penetrating radar antenna array, Geophysics, 86 (5), WB51-WB59, DOI10.1190/GEO2020-0590.1
• Sao, D., Saito, H., Kato, T., Šimůnek, J., Numerical Analysis of Soil Water Dynamics during Spinach Cultivation in a Soil Column with an Artificial Capillary Barrier under Different Irrigation Managements, Water, 13(16), 2176, 2021.
• Noguchi, K., Saito, H., Saefuddin, R., Šimůnek, J., Evaluation of subsurface drip irrigation designs in a soil profile with a capillary barrier, Water, 13(9), 1300, 2021.
• Kassaye, K.T., Boulange, J., Hoang, T.L., Saito, H., Watanabe, H., Soil water content and soil temperature modeling in a vadose zone of Andosol under temperate monsoon climate, Geoderma, 384, 114797, 2021
• Saito, T., Spadini, L., Saito, H., Matins, J.M., Oxarango, L., Takemura, T., Hamamoto, S., Moldrup, P., Kawamoto, K., Komatsu, T., Characterization and comparison of groundwater quality and redox conditions in the Arakawa Lowland and Musashino Upland, southern Kanto Plain of the Tokyo Metropolitan area, Japan, Science of Total Environment, 722, 2020
• Kassaye KT, Boulange J, Thinh LV, Saito H, Watanabe H. Monitoring soil water content for decision supporting in agricultural water management based on critical threshold values adopted for Andosol in the temperate monsoon climate, Agricultural Water Management, 229, 105930, 2020
• Kassaye KT, Boulange J, Saito H, Watanabe H. Calibration of capacitance sensor for Andosol under field and laboratory conditions in the temperate monsoon climate, Soil and Tillage Research 189: 52-63, 2019
• Thiam M., Thuyet DQ, Saito H, Kohgo Y. Performance of the tangential model of soil water retention curves for various soil texture classes, Geoderma, 337: 514-523, 2019.
• Saefuddin, R. Saito, H. Performance of a ring-shaped emitter for subsurface irrigation in bell pepper (Capsicum annum L.) cultivation. Paddy and Water Environment.17.2.101-107
• Wongkaew A, Saito H, Fujimaki H, Simunek F. 2018. Numerical analysis of soil water dynamics under leaf vegetable cultivated in a sandy soil with an artificial capillary barrier, Soil Use and Management, (Soil Use Manage.), 34.2.206-215
• Saito H, Kuroda S, Iwasaki T, Fujimaki H, Nagai N, Sala J. 2018. Tracking infiltration front depth using time-lapse multi-offset gathers collected with array antenna ground penetrating radar, Journal of Visualized Experiments (J. Vis. Exp. )135: e56847.
• Saefuddin R, Saito H, Simunek J, Experimental and Numerical Evaluation of a Ring-Shaped Emitter for Subsurface Irrigation, Agricultural Water Management (Agri Water Manage.), 211: 111-112
• Brunetti G, Saito H, Saito T, Simunek J. 2017. A computationally efficient pseudo-3D model for the numerical analysis of borehole heat exchangers, Applied Energy, 208, 1113-1127