Abdullah, D. and S. Ali 2014 Influence of subsurface drainage on the productivity of poorly drained paddy fields, Eur. J. Agron., 56: 1–8
Aigner, D., C. K. Lovell and P. Schmidt 1977 Formulation and estimation of stochastic frontier production function models, J. Econometrics, 6: 21–37
Allen, R. G., L. S. Pereira, D. Raes and M. Smith 1998 Crop Evapotranspiration: Guidelines for Computing Crop Water Requirements. United Nations Food and Agriculture Organization, Irrigation and Drainage Paper 56, Rome, Italy: pp. 95–97, 103–109. Retrieved on Oct 14, 2018 from: https://appgeodb.nancy.inra.fr/biljou/pdf/Allen_FAO1998.pdf
Asaoka, M., K. Okuno, T. Sugimoto and H. Fuwa 1985 Developmental changes in the structure of endosperm starch of rice (Oryza sativa L.), Agr. Biol. Chem., 49: 1973–1978
Audibert, M., J. Mathonnat and M. C. Henry 2003 Social and health determinants of the efficiency of cotton farmers in Northern Côte d’Ivoire, Soc. Sci. Med., 56: 1705–1717
Banker, R. D., A. Charnes and W. Cooper 1984 Some models for estimating technical and scale inefficiencies in data envelop- ment analysis, Manage. Sci., 30: 1078–1092
Barrett, C. B., M. F. Bellemare and J. Y. Hou 2010 Reconsidering conventional explanations of the inverse productivity–size rela- tionship, World Dev., 38: 88–97
Bouman, B. A. M. and T. P. Tuong 2001 Field water management to save water and increase its productivity in irrigated lowland rice, Agr. Water Manage., 49: 11–30
Charnes, A., W. Cooper and E. Rhodes 1978 Measuring the effi- ciency of decision–making units, Eur. J. Oper. Res., 2: 429–444
Choudhury, B. U. and A. K. Singh 2016 Estimation of crop coeffi- cient of irrigated transplanted puddled rice by field scale water balance in the semi–arid Indo–Gangetic Plains, India, Agr. Water Manage., 176: 142–150
Coelli, T. J., D. S. P. Rao, C. J. O’Donnell and G. E. Battese 2005 An Introduction to Efficiency and Productivity Analysis (2nd edition), Springer, New York, US: pp. 211–213, 261
Goto, Y., Y. Nitta and S. Nakamura 2000 Crops I: Paddy Cultivation, Japan Agricultural Development and Extension Association (JADEA), Tokyo, Japan: pp. 137–142 (in Japanese)
Farrell M. J. 1957 The measurement of productive efficiency, J. R. Stat. Soc., 120: 253–290
Hirai, Y., K. Saruta and K. Hamagami 2012 Evaluation of an ana- lytical method to identify determinants of rice yield component and protein content, Comput. Electron. Agr., 83: 77–84
Komenet 2018 Planting areas of the major Japonica varieties in Japan, Retrieved on Oct 15, 2018 from: http://www.komenet.jp/jukyuudb/826.html (in Japanese)
Kozak, M., P. K. Singh, M. R. Verma and D. K. Hore 2007 Causal mechanism for determination of grain yield and milling quality of lowland rice, Field Crop Re., 102: 178–184
Li, D., T. Nanseki, Y. Matsue, Y. Chomei and S. Yokota 2016 Determinants of paddy yield of individual fields measured by IT combine: empirical analysis from the perspective of large–scale farm management in Japan, Agr. Inf. Res., 25: 39–46
Li, D., T. Nanseki, Y. Chomei, T. Sasaki and T. Butta 2017 Technical Efficiency and the Effects of Water Management on Rice Production in Japan: Two–Stage DEA on 122 Paddy Fields of a Large–Scale Farm, Annual Symposium of the Farm Management Society of Japan, Sep. 16, Kyushu University, Fukuoka City, Japan, Retrieved on Oct 14, 2018 from: https:// fmsj.jp/?action=common_download_main&upload_id=568&nc_ session=cdd339debc6ab540062946d9893879c8
Li, D., T. Nanseki, Y. Chomei and S. Yokota 2018 Production effi-ciency and effect of water management on rice yield in japan: two–stage DEA analysis on 110 paddy fields of a large–scale farm, Paddy Water Env., 16: 643-654
MAFF 2016a Statistics on the paddy yield of Japan in 2014, Retrieved on Nov 21, 2017 from: http://www.maff.go.jp/j/tokei/kouhyou/sakumotu/sakkyou_kome/pdf/syukaku_suiriku_14.pdf (in Japanese)
MAFF 2016b Statistics on agricultural production costs of Japan, Retrieved on Nov 21, 2017 from: http://www.maff.go.jp/j/tokei/sihyo/data/12–2.html (in Japanese)
Matsue, Y. 2016 Rice production technology for yield and quality improvement of high temperature during the ripening period. In: Proceeding of the Annual Symposium of the Japanese Agricultural Systems Society, Fukuoka, Japan: pp. 9–10 (in Japanese)
Nanseki, T., Y. Chomei and Y. Matsue [Ed] 2016 Rice Farm Management Innovation and Smart Agriculture in TPP Era: Farming Technology Package and ICT Applications, Yokendo, Tokyo, Japan: pp. 2–22, 128–135, 168–178, 198–237 (in Japanese)
Nanseki, T. [Ed] 2019 Smart Agriculture Practice in Rice– farming and Perspective of farm in next–generation, Yokendo, Tokyo, Japan, 363 (in Japanese)
NRCS (National Resources Conservation Services, USDA) 2017 Water Management– NRCS National Ag Water Management (AGWAM) Team, Retrieved on Nov 20, 2017 from: https://www. nrcs.usda.gov/wps/portal/nrcs/main/national/water/manage/
Roel, A,, R. G. Mutters, J. W. Eckert and R. E. Plant 2005 Effect of low water temperature on rice yield in California, Agrono. J., 97: 943–948
Saga, K., K. Imou, S. Yokoyama and T. Minowa 2010 Net energy analysis of bioethanol production system from high–yield rice plant in Japan, Appl. Energ., 87: 2164–2168
Sellamuthua, R., G. Liu, C. Ranganathan and R. Serraj 2011 Genetic analysis and validation of quantitative trait loci associ- ated with reproductive-growth traits and grain yield under drought stress in a doubled haploid line population of rice (Oryza sativa L.), Field Crop Re., 124: 46–58
Tao, Y., Y. Zhang, X. Jin, G. Saiz, R. Jing, L. Guo, M. Liu, J. Shi, Q. Zuo, H. Tao, K. Butterbach–Bahl, K. Dittert and S. Lin 2015 More rice with less water: evaluation of yield and resource use efficiency in ground cover rice production system with trans- planting, Eur. J. Agron., 68: 13–21
Tsujimoto, Y., T. Horie, H. Randriamihary, T. Shiraiwa and K. Homma 2009 Soil management: the key factors for higher productivity in the fields utilizing the system of rice intensifica- tion (SRI) in the central highland of Madagascar, Agr. Syst., 100: 61–71
Wang, Z., W. Zhang, S. Beebout, H. Zhang, L. Liu and J. Zhang 2016 Grain yield, water and nitrogen use efficiencies of rice as influenced by irrigation regimes and their interaction with nitro- gen rates, Field Crop Re., 193: 54–69