Studies on respiratory mechanism of roots in rice plants growing on submerged paddy fields. The effects of soil solution, percolated through paddy field, upon the growth of rice seedlings.
Ueda, Hakuai; Oyama, K.
Proceedings Crop Science Society Japan 28(1): 7-9
1959
Accession: 025566968
The soil solution aided growth if percolated 1 meter deep through paddy fields.
PDF emailed within 1 workday: $29.90
Related References
Ueda, H.; Oyama, K. 1959: Studies on the respiratory mechanism in roots of rice plants growing on submerged paddy fields (5). The effects of soil solution percolated through paddy fields on the growth of rice seedlings (1). Proc. Crop Sci. Soc. Japan. Japan 28: 7-9Ueda, H.; Oyama, K. 1958: Studies on respiratory mechanism of roots in rice plants growing on submerged paddy fields. The influence of water-percolation on growth of rice plants. Proc. Crop Sci. Soc. Japan, Japan 26(4): 249-51
Ueda, H.; Oyama, K. 1958: The respiratory mechanism of roots in rice plants growing in submerged paddy fields. 3 & 4. The effect of water percolation on rice growth. Proc. Crop Sci. Soc, Japan 26: 249-251
Iwasaki, S.; Hayami, A.; Tokunaga, Y.; Matsumura, Y. 1971: Comparative studies on the soil properties in paddy fields and nutrient absorption by the rice plant-from a survey carried out to improve the techniques and production of paddy rice in Furukawa and Ishinden paddy fields Bulletin of the Tokai-Kinki National Agricultural Experiment Station, 22, 21-71
Kim, Y.H.; Kim, B.H.; Kim, H.D.; Kim, J.C.; Ree, D.W. 1987: Studies on rice cultivation by direct sowing on the surface of submerged paddy fields in the central region. I. Growth characteristics and yield of rice varieties on direct sowing on the surface of submerged paddy fields Research Reports of the Rural Development Administration, Crops, Korea Re ic 29(1): 92-98
Kim, Y.H.; Kim, B.H.; Kim, H.D.; Kim, J.C.; Ree, D.W. 1987: Studies on rice cultivation in direct seeding on surface of submerged paddy field in the central area 1. growth characteristics and yield of the rice varieties in direct seeding on surface of submerged paddy field Research Reports of the Rural Development Administration 29(1 CROPS): 92-98
Samoto, Keichi; Suga, Hiroshi; Yamakawa, Isamu; Suzuki, K. 1958: Studies on the growth of rice plants cultivated in different seasons. H. Changes of water and soil temperature and oxidation potentials in paddy fields, and root development of rice plants Proceedings Crop Science Society Japan 27(3): 337-340
Samoto, K., E.Al. 1959: Studies on the growth of rice plants cultivated in different seasons. 2. Changes of water and soil temperature and oxidation potentials in paddy fields and root development of rice plants. Proc. Crop Sci. Soc. Japan 27(3): 337-40
Inao, K.; Iwafune, T.; Horio, T. 2018: An improved PADDY model including uptake by rice roots to predict pesticide behavior in paddy fields under nursery-box and submerged applications Journal of Pesticide Science 43(2): 142-152
Soil, A.d Fertilizer, S.ction And, F.urth Crop, S.ction 1963: Studies on rice culture at paddy fields suffered from storm surges. III. On the fertilizing effects on calcium cyanamide and urea to rice plants cultured in paddy field suffered from storm surges Bull First Agron Div Tokai Kinki Natl Agric Expt Sta 9: 37-42
Morimura, T.; Narioka, H.; Aso, S.; Takenaga, H.; Yoshiba, M. 1995: Methane production of soil physical properties of direct seeding of paddy rice on submerged paddy fields Japanese Journal of Soil Science and Plant Nutrition 66(6): 632-638
Takijima, Y. 1959: Studies on soils of peaty paddy fields. XVIII. Effects of soil washing and drainage on the initial growth of rice plants. J. Sci. Soil Tokyo, Tokyo., 30: 521-559
Takjlhma, Y. 1959: Studies on soils of peaty paddy fields. XIII. Effects of soil drainage on the growth of rice plants and on the weed association,. J. Sci. Soil Tokyo 30: 259-262
Kawai, M.; Ikemoto, S.; Horiuchi, E.; Et Al. 1967: Studies of the root system of rice plants grown in the saline paddy field. 2. Development of root system in relation to the soil profile of paddy fields coated with marine deposits Mem. Ehime Univ. Sect. VI 12: 83-98
Takijima, Y. 1961: Metabolism of organic acids in soils of paddy fields and their inhibitory effects on rice growth. 5. Growth inhibition of rice seedlings as affected by waterlogged soil and by organic-acid concentration in the leachate. Soil Sci. & Plant Nutr, 7: 167
Fourth, C.op Section, A.d Soil, A.d Fertilizer, S.ction 1963: Studies on rice culture at paddy field suffered from storm surges. II. Relations between the salt concentration of paddy soils and toe rice plants cultivated in different seasons Bull First Agron Div Tokai Kinki Natl Agric Expt Sta 9: 18-36
Shoji, S.; Nogi, T. 1975: Absorption of fertilizer and soil nitrogen by rice plants under the various cultural conditions of different paddy fields. III. Relationship between kinds of rice seedlings and absorption of nitrogen by rice plants and general discussion Tohoku Journal of Agricultural Research 26(2): 61-70
Hong Zhou; Morita, O.; Ehara, H. 1999: Growth characteristics of direct-sown rice with roots exposed roots to irrigation water in a submerged paddy field Report of the Tokai Branch of the Crop Science Society of Japan 128: 9-13
Chamura, S.; Kawase, K.; Yokoyama, E.; Honda, Y. 1972: Studies on the relation between soil type and the palatability of paddy rice. I. The influence of chemical properties of various soils on the growth and palatibility of paddy rice Proceedings of the Crop Science Society of Japan 41(1): 27-31
Inaba, K.; Takanezawa, R. 1998: The effects of soil acidity upon growth in direct sowing culture of paddy rice on well-drained paddy field Tohoku Journal of Crop Science 41: 5-6