Studies on Methods of Lowland Rice Culture on Upland Fields under irrigation : I. Adaptability of lowland rice varieties to the cultivation on upland fields under irrigation. : II. Differences in the growth and physiological characteristics between lowland rice and upland rice cultivated on upland field under irrigation
Umino, S.; Iizuka, S.; Nonaka, F.; Yuyama, H.
Japanese Journal of Crop Science 27(3): 349-353
1959
ISSN/ISBN: 0011-1848 Accession: 087929857
PDF emailed within 1 workday: $29.90
Related References
Y.yama, Hirokata 1958: Studies on methods of lowland rice culture on upland fields under irrigation I Adaptability of lowland rice varieties to the cultivation on upland fields under irrigation II Differences in the growth and physiological characteristics between lowland rice and upland rice cultivated on upland fields under irrigation Proceedings Crop Science Society Japan: 349-353Umino, S.; Iizuka, S.; Nonaka, F.; Et Al. 1959: Studies on methods of lowland rice cultivation on upland fields under irrigation. I. Adaptability of lowland varieties to cultivation on upland fields under irrigation. II. Differences in the growth and physiological characteristics between lowland rice and upland rice cultivated on upland fields under irrigation. Crop Sci. Soc, Japan 27: 349-353
Umino, S., E.Al. 1959: Studies on methods of lowland rice culture on upland fields under irrigation. 2. Differences in the growth and physiological characteristics between lowland rice and upland rice cultivated on upland field under irrigation. Proc. Crop Sci. Soc. Japan 27(3): 349-53
Umino, S.; Iizuka, S.; Nonaka, F.; Yuyama, H. 1959: Studies on methods of growing lowland rice in irrigated upland fields. I. Adaptability of lowland rice varieties to irrigated upland fields. II. Differences between lowland and upland rice in growth and physiological characteristics when grown under these conditions. Nihon Sakumotsugaku Kai Kiji (Proc. Crop Sci. Soc. Japan), 27: 349-53
Nakagawa, K.; Goto, Y. 1964: Irrigation rate and cultivation methods for swamp and upland rice grown in upland fields. 2. The relationship between irrigation rate and growth stage of swamp and upland rice Bull. Tokai-Kinki natn. agric. Exp. Stn. 10, 93-101
Yu, S.V.; Chen, T.T.; Liu, C.T. 1958: Comparative studies on the physiology of lowland and upland rice I. On the water relation and drought resistance of lowland rice Lao Lai Ching and upland rice Nang Ton Xao Acta Bot Sinica 7(4): 186-201
Taira, H.; Taira, H.; Ono, S. 1975: Effect of upland irrigation culture on mineral composition of upland, lowland and their hybrid brown rice Proceedings of the Crop Science Society of Japan 44(3): 255-262
Tamai, T.; Jodo, S.; Takasuka, T.; Et Al. 1958: Fundamental studies on the irrigation of upland fields. VI. Some water-absorption characteristics of paddy rice cultivated in upland fields in the early season. Proc. Crop Sci. Soc. Japan 27: 261-265
Yang, K.P.; Zheng, P.Y.; Zhou, D.X.; Wang, J.W. 1991: The eco-adaptability of lowland and upland rice varieties to paddy and upland. I. Growth, development and morpho-structure characteristics Acta Agriculturae Universitatis Pekinensis 17(2): 19-29
Tamai, T.; Jodo, S.; Takasuka, T.; Imanishi, T. 1959: Fundamental Studies of Irrigation of Upland Fields. : VI. Some water absorption characteristics of paddy rice plants cultivated in upland fields in early season Japanese Journal of Crop Science 27(2): 261-265
Tamai, Torataro; Jodo, Shuichiro; Takasuka, Tadaatsu; Imanishi, T. 1958: Fundamental studies of irrigation of upland fields. VI. Some water absorption characteristics of paddy rice plants cultivated in upland fields in early season Proceedings Crop Science Society Japan 27(2): 261-265
Choi, S.J.; Chung, G.S.; Choi, H.O. 1980: Studies on the variability of lowland and upland rice grown under lowland and upland conditions. 2. Variation of yield and major quality components of rice grain Journal of the Korean Society of Crop Science 25(1): 25-30
Farooq, S.; Gilani, S.; Arshad, R.; Afzaal, M.; Akram, M.; Iqbal, N.; Azam, F. 2010: Differences in Tolerance to Water Deficiency at Vegetative Stage among Wild Upland Rice, Lowland Rice Landrace, their Inter-Specific Hybrids and Lowland Rice Varieties Cereal Research Communications 38(1): 56-66
Song, T.; Xu, F.; Yuan, W.; Zhang, Y.; Liu, T.; Chen, M.; Hu, Q.; Tian, Y.; Xu, W.; Zhang, J. 2018: Comparison on physiological adaptation and phosphorus use efficiency of upland rice and lowland rice under alternate wetting and drying irrigation Plant Growth Regulation 86(2): 195-210
Taira, H.; Taira, H.; Ishihara, M. 1982: Lipid content and fatty acid composition of upland and hybrid brown rice of nonglutinous and glutinous types by lowland and upland irrigation cultures Report of National Food Research Institute 40: 26-34
Zheng, P.Y.; Yang, K.P.; Wang, J.W.; Zhou, D.X. 1990: Studies on the eco-adaptability of Lowland and upland rice cultivars to paddy and upland conditions. II. Carbohydrate and nitrogen metabolism Chinese Journal of Rice Science 4(2): 69-74
Taira, H.; Taira, H.; Ishihara, M. 1981: Lipid content and fatty acid composition of lowland nonglutinous and glutinous brown rice by lowland and upland irrigation cultures Japanese Journal of Crop Science 50(2): 109-114
Yamamoto, H.; Iwata, I.; Ohba, T. 1981: Studies on ecological changes and control of weeds in upland irrigation culture. V. Changes in weed vegetation and competition between upland-rice and weeds in upland irrigation culture Weed Research, Japan 26(4): 286-290
Sawa, M.; Izumidate, M.; Iida, Y.; Kaizuma, N. 1971: Gentic studies on the emergence of rice seedlings in direct sowing culture on upland fields. 2. Varietal differences in emergence rate under deeply sown conditions and breeding paddy rice varieties suitable for direct sowing culture on upland fields Journal of the Faculty of Agriculture, Iwate University 10(4): 269-282
Chiangmai, P.N.; Yamying, M.; Meetum, P.; Brooks, S.; Rienghlam, P.; Raksasiri, B.V. 2019: How some native upland rice and cultivated lowland rice varieties responded to callus induction and regeneration medium? Asian Journal of Agriculture and Biology 7(1): 137-145