Runoff characteristics of nutrients from an agricultural watershed with intensive livestock production T Kato, H Kuroda, H Nakasone Journal of Hydrology 368 (1-4), 79-87, 2009 | 149 | 2009 |
A review of SWAT model application in Africa G Akoko, TH Le, T Gomi, T Kato Water 13 (9), 1313, 2021 | 143* | 2021 |
Prospects for multifunctionality of paddy rice cultivation in Japan and other countries in monsoon Asia Y Matsuno, K Nakamura, T Masumoto, H Matsui, T Kato, Y Sato Paddy and Water Environment 4, 189-197, 2006 | 136 | 2006 |
Development and evaluation of a paddy module for improving hydrological simulation in SWAT A Sakaguchi, S Eguchi, T Kato, M Kasuya, K Ono, A Miyata, N Tase Agricultural Water Management 137, 116-122, 2014 | 84 | 2014 |
Evaluation of different objective functions used in the sufi-2 calibration process of swat-cup on water balance analysis: A case study of the Pursat river basin, Cambodia D Sao, T Kato, LH Tu, P Thouk, A Fitriyah, C Oeurng Water 12 (10), 2901, 2020 | 66 | 2020 |
Nitrogen removal from water containing high nitrate nitrogen in a paddy field (wetland) H Nakasone, H Kuroda, T Kato, T Tabuchi Water Science and Technology 48 (10), 209-216, 2003 | 32 | 2003 |
Evaluation of irrigation water resources availability and climate change impacts—A case study of Mwea irrigation scheme, Kenya G Akoko, T Kato, LH Tu Water 12 (9), 2330, 2020 | 27 | 2020 |
Development of SWAT-paddy for simulating lowland paddy fields R Tsuchiya, T Kato, J Jeong, JG Arnold Sustainability 10 (9), 3246, 2018 | 27 | 2018 |
Simulation of rice paddy systems in SWAT: A review of previous applications and proposed SWAT+ rice paddy module PW Gassman, J Jeong, J Boulange, B Narasimhan, T Kato, H Somura, ... International Journal of Agricultural and Biological Engineering 15 (1), 1-24, 2022 | 23 | 2022 |
Simulation of water quality with the application of system dynamics model for population and land-use changes T Kato Paddy and Water Environment 3 (2), 103-109, 2005 | 21 | 2005 |
GIS analysis of conjunctive water resource use in Nganjuk district, east Java, Indonesia Liyantono, T Kato, H Kuroda, K Yoshida Paddy and Water Environment 11, 193-205, 2013 | 19 | 2013 |
Development of a water quality tank model classified by land use for nitrogen load reduction scenarios T Kato Paddy and Water Environment 3, 21-27, 2005 | 19 | 2005 |
The improvement of the nitrogen removal capacity in wetlands H Kuroda, T Kato, Y Koshigoe, D Yaegashi, S Horaguti, K Inubushi, ... Desalination and Water Treatment 19 (1-3), 146-148, 2010 | 14 | 2010 |
Exploring a Balinese irrigation water management system using agent-based modeling and game theory F Okura, IW Budiasa, T Kato Agricultural water management 274, 107951, 2022 | 13 | 2022 |
A review of SWAT model application in Africa. Water. 13 (9) 1313 G Akoko, TH Le, T Gomi, T Kato | 13 | 2021 |
The nitrate nitrogen pollution and the nitrogen removal by paddy field in agricultural area H KURODA, T KATO, H NAKASONE Journal of Water and Environment Technology 3 (2), 165-168, 2005 | 11 | 2005 |
Water quality forecast model of Cidanau watershed, Indonesia, for watershed management planning T KATO, H SOUMURA, A GOTO Rural and Environment Engineering 2002 (43), 3-12, 2002 | 11 | 2002 |
Causes of animal extinction in small irrigation reservoirs in Japan and requirements for future re‐establishment H Nakasone, H Kuroda, T Kato Lakes & Reservoirs: Research & Management 7 (1), 49-54, 2002 | 10 | 2002 |
Assessment of pre-treatment and classification methods for Java paddy field cropping pattern detection on MODIS images A Fatikhunnada, M Solahudin, A Buono, T Kato, KB Seminar Remote Sensing Applications: Society and Environment 17, 100281, 2020 | 9 | 2020 |
Analysis of the drought mitigated mechanism in terraced paddy fields using CWSI and TVDI indices and hydrological monitoring A Fitriyah, A Fatikhunnada, F Okura, BDA Nugroho, T Kato Sustainability 11 (24), 6897, 2019 | 9 | 2019 |