51. Takeo Onishi, Hideaki Shibata, Muneoki Yoh, Seiya Nagao, Masayuki Kawahigashi, Vladimir Shamov: Construction of a continental scale hydrological model that incorporate dissolved iron production mechanism, HESS(in preparation)
50. Kiyoto Naito, Takeo Onishi, Tetsuo Yasutaka, Kimihito Nakamura, Susumu Miyazu: Estimation of 137Cs load with consideration of uncertainty at Kuchibuto River Basin (In preparation)
49. Takeo Onishi, Tatsuro Mishima, Ken Hiramatsu, Masateru Senge: Attempts to construct multi-piezoelectric measurements system to measure raindrop energy and canopy interception,HRL(In preparation)
48. Takeo Onishi, Muneoki Yoh, Atsushi Masaki, Kaori Sakuma: What determines dissolved iron concentration of Japanese major rivers?, Biogeochemistry(In review)
47. Tashiro Y., M. Yoh, T. Shiraiwa, T. Onishi, V.P. Shesterkin, V.I. Kim: Seasonal variations of dissolved iron concentration in active layer and rivers in permafrost areas, Russian Far East, Water, 12(9), 2579, 2020, https://doi.org/10.3390/w12092579
46. Ohtsuka T. , T. Onishi, S. Yoshitake, M. Tomotsune, M. Kida, Y. Iimura, M. Kondo, V. Suchewaboripont, R. Cao, K. Kinjo, N. Fujitake: Lateral export of dissolved inorganic and organic carbon from a small mangrove estuary with tidal fluctuation toward the complete net ecosystem production (NEP) estimate, Forest, 11(10), 1041, 2020, https://doi.org/10.3390/f11101041
45. Takeo Onishi, Jun Yoshino, Ken Hiramatsu, Hiroaki Somura: Developing a hydro-chemical model of Ise Bay watersheds and the evaluation of climate change impacts on discharge and nitrate nitrogen loads, Limnology, 2020, DOI 10.1007/s10201-020-00622-2
44. 大西健夫,田代悠人,楊宗興,白岩孝行:流域における溶存鉄生成および凍結融解の影響,土壌の物理性,No.141, pp.19-29, 2019
43. Yudhi
42. Kimihito Nakamura, Le Xuan Quang, Tran Hung, Nguyen Van Tinh, Soken Matsuda, Kengo Kadota, Haruhiko Horino, Pham Thanh Hai, Hirotaka Komatsu, Kiyoshi Hasegawa, Shinji Fukuda, Junya Hirata, Noriko Oura, Ayaka W. Kishimoto-Mo, Seiichiro Yonemura, Takeo Onishi: Effect of organizational paddy water management by water users’ group on methane and nitrous oxide emissions and rice yield in the Red River Delta, Vietnam, Agricultural Water Management, 217(20), 179-192, 2019
41. Ali Rahmat, Dwi Priyo Ariyanto, Keigo Noda, Takeo Onishi, Kengo Ito, and Masateru Senge: Hydrological Characteristics under deciduous broadleaf and evergreen coniferous forests in central Japan, International Journal of GEOMATE, 16(54), pp.217-224, 2019, DOI: https://doi.org/10.21660/2019.54.90969
40. Ali Rahmat, Keigo Noda, Kengo Ito, Takeo Onishi and Masateru Senge: Runoff characteristics of forest watershed under different forest management,Review in Agricultural Science, 6, pp.119-133, 2018, http://dx.doi.org/10.7831/ras.6.119
39. Mendbayar Otogonbayar, Badarifu, Tharangika Ranatunga, Takeo Onishi, Ken Hiramatsu: Cellular automata modelling approach for urban growth, Review in Agricultural Science, 6, pp.93-104, 2018, http://dx.doi.org/10.7831/ras.6.93
38. Tharangika Ranatunga, Ken Hiramatsu, Takeo Onishi: Controlling the process of denitrification in flooded rice soils by using microbial fuel cell applications, Agricultural Water Management, Vol. 206, pp.11-19, https://doi.org/10.1016/j.agwat.2018.04.041, link (until Jun.22), 2018
37. Mendbayar Otgonbayar, Hiroki Saito, Badarifu, Ken Hiramatsu, Takeo Onishi and Masateru Senge: Residential area modelling using cellular automata with Estimated Water Resources – a case study in Darkhan, Mongolia -, Journal of Rain Water Catchment Systems, 23(2), pp., 2018
36. 王鳳蘭,乃田啓吾,伊藤健吾,大西健夫,千家正照:農業水利施設を利用した小水力発電の潜在力評価-明治用水地区の事例-,農業農村工学会誌,No. 306 (86-1), pp.Ⅱ_33-Ⅱ_40,2018
35. Tharangika Ranatunga, Ken Hiramatsu, Takeo Onishi, Yasushi Ishiguro: Redox Distribution Profiles of Flooded Paddy Soils with Microbial Fuel Cell Applications,International Journal of GEOMATE, 14(45), pp.52-57, 2018, DOI:10.21660/2018.45.25281
34. Chen Fang, Hideyoshi Shimizu, Shin-Ichi Nishimura, Ken Hiramatsu, Takeo Onishi, Tatsuro Nishiyama: Seismic Risk Evaluation of Irrigation Tanks-Case Study of Two Irrigation Tanks in Ibigawa-cho, Gifu Prefecture, Japan-, International Journal of GEOMATE, 14(41), pp.1-6, 2018
33. Tharangika Ranatunga, Ken Hiramatsu, Takeo Onishi, Yasushi Ishiguro: The process of denitrification in flooded rice soils: Reviews in Agricultural Sciences, 6, pp.21-33, 2018, http://dx.doi.org/10.7831/ras.6.21
32. M. A. Kader, Masateru Senge, M. A. Mojid, Takeo Onishi, Kengo Ito: Effects of plastic-hole mulching on effective rainfall and readily available soil moisture under soybean (Glycine max) cultivation, Paddy and Water Environment, 2017, DOI 10.1007/s10333-017-0585-z
31.大西健夫,楊宗興,白岩孝行,長尾誠也:アムール川流域における溶存鉄生成メカニズムのモデル化,低温科学,Vol.74,pp.13-20, 2017, doi: 10.14943/lowtemsci.74.13
30. M.S.A. Mamun, Koji Tsuchida, Takeo Onishi, Ken Hiramatsu, Atsushi Iwasawa and Shinichi Nishimura: Medaka in Japanese agricultural water channels – Genetic diversity and conservation –, Review in Agricultural Sciences, 4, pp.8-20, 2016, Doi: 10.7831/ras.4.8
29.Dwi Priyo Ariyanto, Komariah, Kohei Yoshiyama, Ken Hiramatsu, Kengo Ito, Takeo Onishi, Masateru Senge: Small-Farm Reservoir Contribution to Annual Crop Cultivation in Rainfed Paddy Field under Tropical Monsoon Climate, Journal of Rainwater Catchment system, Vol.21(2), pp., 2016
28. Yanyan Dai, Masateru Senge, Kengo Ito, Takeo Onishi, Kohei Yoshiyama: Experimental evaluation of irrigation methods for soil desalinization, Paddy and Water Environment, 13, pp.159-165, 2015, DOI 10.1007/s10333-014-0417-3
27.Yang Y., T. Onishi, K. Hiramatsu: Impacts of different spatial temperature interpolation methods on snowmelt simulations, Hydrological Research Letters, 9(2), pp.27–34, 2015, DOI: 10.3178/hrl.9.27
26. Yang Y., T. Onishi, K. Hiramatsu: Improving the performance of temperature index snowmelt model of SWAT by using MODIS land surface temperature data, The Scientific World Journal – International Journal of Geophysics, 2014, http://dx.doi.org/10.1155/2014/823424
25. V. V. Shamov, T. Onishi, V. V. Kulakov: Dissolved iron runoff in Amur basin rivers in the late XX century, Water Resources, Vol. 41(2), pp.206-215, 2014
24. Hideki Tsuji, Tetsuo Yasutaka, Yoshishige Kawabe, Takeo Onishi, Takeshi Komai: Distribution of dissolved and particulate radiocesium concentrations along rivers and the relationship between radiocesium concentration and deposition after the Nuclear Power Plant Accident in Fukushima, Water Research, 60, pp.15-27, 2014, DOI: 10.1016/j.watres.2014.04.024
23. JIRIGALA,大西健夫,千家正照,天谷孝夫,SAMDAN Shiirev-Adiya:モンゴル国におけるゾド被害の地域特性,農業農村工学論文集,288号,pp.39-46, 2014
22. Hiramatsu K, Ichion, K. Yonebayashi, S. Nishimura, and T. Onishi: Food web structure in an agricultural drainage channel through an urbanized zone in Japan, Paddy and Water Environment, 12(1), pp.113–123, 2014
21. 西村眞一,平松研,大西健夫,吉山浩平:平板状供試体による粘性土の伸びひずみの測定.農業農村工学会論文集286, pp.95-101, 2013
20. 巴達日夫・天谷孝夫・平松研・大西健夫:乾燥地域における地下水依存農牧地帯の水資源状況,Journal of Rainwater Catchment Systems,Vol.19(1), pp.11-17, 2013
19. JIRIGALA,千家正照,大西健夫,SAMDAN Shiirev-Adiya:五種畜の斃死と気象要因の関係― モンゴル国東部ドルノド県を対象にして -,農業農村工学論文集,287号,pp.27-33,2013
18. Jirigala,大西健夫,千家正照,SAMDAN Shiirev-Adiya:ゾド被害を引き起こす気象要因の分析と評価 – モンゴル国東部ドルノド県を対象にして -,農業農村工学論文集,283号,pp.33-40,2013
17. 鈴木研二,大西健夫,積雪・融雪状況把握のための高分解能光学衛星画像データの利活用に関する検討,水文・水資源学会誌,25(5), pp.322-327,2012
16. 兼島香織,千家正照, 伊藤健吾, 大西健夫, 平松 研:水田地帯におけるケリの採食行動と採食環境の選択,農業農村工学論文集,278号,pp.81-88,2012
15. Onishi T., K. Nakamura, H. Horino, T. Adachi, T. Mitsuno: Evaluation of denitrification rate of paddy fields, Journal of Hydrology, pp.111-119, 2012, doi: 10.1016/j.jhydrol.2012.03.004
14. Onishi T., M. Yoh, H. Shibata and S. Nagao: Improvement of runoff simulation of the Amur River, Global Environmental Research, pp.173-182, 2012
13. 千家正照,銭亀達彦,伊藤健吾,大西健夫,平松研:トンネル栽培における蒸発位の推定,畑地農業,633号,pp.2-17, 2011
12. Maruyama T., F. Noto, H. Takimoto, K. Nakamura, and T. Onishi: Assessment of the long-term variation in the nitrogen pollution load potential from farmland to groundwater in the Tedori River Basin, Japan, Paddy and Water Environment, 9(4), pp.441-449, 2011, DOI: 10.1007/s10333-011-0254-6
11. Komariah, K. Ito, T. Onishi, and M. Senge: Soil properties affected by combinations of soil solarization and organic amendment, Paddy and Water Environment, 9(3), pp.357-366, 2011, DOI: 10.1007/s10333-011-0253-7
10. Maruyama T., F. Noto, T. Takahashi, K. Nakamura, and T. Onishi: Assessment of environmental nitrogen pollution load potential from sewage treatment water in the Tedori River Alluvial Fan Area, Japan, Paddy and Water Environment, 9(2), pp.267-274, 2011, DOI: 10.1007/s10333-010-0248-9
9 馬渕和三,板垣博,平松研,清水英良,大西健夫: 鋼製折り返し魚道の開発とその特徴.Journal of Rainwater Catchment System, 17(1), pp.25-32, 2010
8. 丸山利輔,橋本岩夫,千家正照,伊藤健吾,能登史和,大西健夫: 北陸地方、砂丘地下安原地区における畑地灌漑用水の使用実態と特徴-ダイコン、スイカ栽培を事例として-.畑地農業 618号, pp.10-19, 2010
7. 新井羊子,千家正照,伊藤健吾,大西健夫,西村四郎: マルチ敷設に伴うカンキツ園の流出変化.Journal of Rainwater Catchment System, Vol.16, No.1, pp.27-32, 2010
6. Onishi T., Yoh M., Shibata H., Nagao S., Kawahigashi M., and Shamov V.V.: Topography as a macroscopic index for the dissolved iron productivity of different land cover types in the Amur River Basin, Hydrological Research Letters 4, pp.85-89, 2010
5. 長尾誠也,伊藤静香,寺島元基,楊宗興,閻百興,張柏,大西健夫: 中国三江平原河川水中の溶存腐植物質の蛍光特性.水環境学会誌 30(11), pp.629-635, 2007
4. Onishi T., Yoshitani J., Wang Y., and Chen X.: Lessons learned on land management policy from the 1998 Changjiang River flood. Proceedings of the International Conference on Monitoring, Prediction and Mitigation of Water-Related Disasters (MPMD 2005), pp.685-690, 2005
3. 大西健夫,堀野治彦,三野徹: 傾斜地水田群における貯留特性の事例的評価.農業土木学会論文集 230: pp.53-59, 2004
2. 大西健夫,堀野治彦,中村公人,三野徹: 非定常不飽和-飽和浸透流解析を用いた傾斜地水田群における地下水文環境評価.農業土木学会論文集 227: pp.97-104, 2003
1. Onishi T., Horino H., and Mitsuno T.: Quantitative evaluation of hydrological properties in terraced paddy fields. Proceedings of the ⅩⅣ Memorial CIGR World Congress 2000, pp.1030-1034, 2000