Yoshida - 1981 - Fundamentals of Rice Crop Science

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REFERENCES 259 MITCHELL, R.L. 1960. Contamination problems in soil and plant analysis. J. Sci. Food Agric. 11:553–560. MITSUI, S. 1960. Inorganic nutrition fertilization and soil amelioration for lowland rice. 4th ed. Yokendo Press, Tokyo. 107 p. MITSUI, S. 1965. Dynamic aspects of nutrient uptake. Pages 53–62 in International Rice Research Institute. The mineral nutrition of the rice plant. Proceedings of a symposium at the International Rice Research Institute, February, 1964. The Johns Hopkins Press, Baltimore, Maryland. MITSUI, S., and Y. ISHII 1938. Effects of supply of three major nutrients on photosynthetic rate of rice seedlings. J. Sci. Soil Manure, Jpn. 12:287–289. MITSUI, S., and Y. ISHII 1939. Effects of nitrogen top-dressing on photosynthetic activity of the rice plant, J. Sci. Soil Manure, Jpn. 13:309–313. MITSUI, S., and K. TENSHO. 1953. Dynamic studies on the nutrient uptake by crop plants. 8. J. Sci. Soil Manure, Jpn. 24:145–148. MITSUI, S., K. KUMAZAWA, and T. HISHIDA. 1959a. Dynamic studies on the nutrient uptake by crop plants. 23. The growth of rice plants on poorly drained soil as affected by the accumulation of volatile acids (2). J. Sci. Soil Manure, Jpn. 30:411–413. MITSUI, S., K. KUMAZAWA, and N. MUKAI. 1959b. Dynamic studies on the nutrient uptake by crop plants. 22. The growth of rice plants on poorly drained soils as affected by the accumulating volatile organic acids (1). J. Sci. Soil Manure, Jpn. 30:345–348. MITSUISHI, S. 1975. Study on the direct underground sowing in the submerging field of rice. Spec. Bull., Ishikawa Pref. Coll. Agric., 4. 59 p. MONSI, M., and T. SAEKI. 1953. Uber den Licktfaktor in den Pflanzengesellschaften und seine Bedeutung fur die Stoffproduktion. Jpn. J. Bot. 14:22–52. MONTEITH, J.L. 1965. Light distribution and photosynthesis in field crops. Ann. Bot., N.S. 29:17–37. MONTEITH, J.L. 1972. Solar radiation and productivity in tropical ecosystems, J. Appl. Ecol. 9:747–766. MONTEITH, J. L. 1977. Climate. Pages 1–27 in P. de T. Alvim and T.T. Kozlowski, eds. Ecophysiology of tropical crops. Academic Press, New York. MONTEITH, J.L. 1978. Reassessment of maximum growth rates for C3 and C4 crops. Exp. Agric. 14:1–5. MOTOMURA, S. 1961. Dissolution of iron compounds in soils by milk vetch extract. Soil Sci. Plant Nutr. (Tokyo) 7:54–60. MOTOMURA, S. 1962. Effect of organic matters on the formation of ferrous iron in soils. Soil Sci. Plant Nutr. (Tokyo) 8:20–29. MURATA, Y. 1961. Studies on the photosynthesis of rice plant and culture significance. Bull. Natl. Inst. Agric. Sci. (Tokyo), D,9:1–169. MURATA, Y. 1964. On the influence of solar radiation and air temperature upon the local differences in the productivity of paddy rice in Japan. Proc. Crop Sci. Soc. Jpn. 35:59–63. MURATA, Y., ed. 1975. Crop productivity and solar energy utilization in various climates in Japan. JIBP Synthesis. vol. 11. Japanese Committee for the International Biological Program, Tokyo. MURATA, Y. 1976. Productivity of rice in different climatic regions of Japan. Pages 449–470 in International Rice Research Institute. Climate and rice. Los Baños, Philippines. MURATA, Y., A. MIYASAKA, K. MUNAKATA, and S. AKITA. 1968. On the solar energy balance of rice population in relation to the growth stage. Proc. Crop Sci. Soc. Jpn. 37:685–691 MURATA, Y., and S. MATSUSHIMA. 1975. Rice. Pages 73–99 in L.T. Evans, ed. Crop physiology. Cambridge University Press. London. MURAYAMA, N. 1967. Nitrogen nutrition of rice plant. JARQ 2:1–15. MURAYAMA, N., M. YOSHINO, M. OSHIMA, S. TSUKAHARA, and Y. KAWARAZAKI. 1955. Studies on the accumulation process of carbohydrates associated with growth of rice. Bull. Natl. Inst. Agric. Sci. (Tokyo), B, 4:123–166. MURAYAMA, N.. M. OSHIMA, and S. TSUKAHARA. 1961. Studies on the dynamic status of substances during ripening processes in the rice plant. VI. J. Sci. Soil Manure, Jpn, 32:261–265 NAGAI, I. 1962. Japonica rice. Its breeding and culture. Yokendo Ltd., Tokyo. 843 p. NAKAGAWA, S. 1976. Water requirements and their determination. Pages 193–208 in Symposium on water management in rice field. Trop. Agric. Res. Ser. No. 9, Tropical Agriculture Research Center, Ibaraki. Japan. NAKAYAMA, H. 1969. Senescence on rice panicle. I. A decrease in dehydrogenase activity in the kernel senescence. Proc. Crop Sci. Soc. Jpn. 38:338–341. NEARPASS, D.C., and F.E. CLARK. 1960. Availability of sulfur to rice plants in submerged and upland soil. Soil Sci. Soc. Am., Proc. 24:385–387.
260 FUNDAMENTALS OF RICE CROP SCIENCE NEWMAN, E.I. 1966. A method of estimating the total root length in a sample. J. Appl. Ecol. 3:139–145. NIEUWOLT, S. 1977. Tropical climatology. An introduction to the climates of the low latitudes. John Wiley & Sons, Ltd., London. 207 p. NISHIYAMA, I. 1977. Physiology of cold injury in direct-seeded rice with special reference to germination and seedling growth. Agric. Hortic. (Tokyo) 52:1353–1357, 1480–1482; 53:30–34, 263–268. NISHIYAMA, I., N. ITO, H. HAYASE, and T. SATAKE. 1969. Protecting effect of temperature and depth of irrigation water from sterility caused by cooling treatment at the meiotic stage of rice plants. Proc. Crop. Sci. SOC. Jpn. 38:554–555. NITSOS, R.E., and H.J. EVANS. 1969. Effects of univalent cations on the activity of particulate starch synthetase. Plant Physiol. 44:1260–1266. NOGUCHI, Y. 1940. Influence of potassium nutrition on culm structure of the rice plant. Proc. Crop Sci. SOC. Jpn. 11:499–510. NOMOTO, K., and M. ISHIKAWA. 1950. Edaphological studies on cropping systems (preliminary report). Root oxidizing ability of major upland crops. J. Sci. Soil Manure, Jpn. 20:66–67. OERTLI, J.J., and L. JACOBSON. 1960. Some quantitative considerations in iron nutrition of higher plants. Plant Physiol. 35:683–688. OJI, Y., and G. IZAWA. 1974. Studies on the absorption and assimilation of inorganic nitrogen in intact plants (Part 4). J. Sci. Soil Manure, Jpn. 45:341–351. OKA, H.I. 1958. Photoperiodic adaption to latitude in rice varieties. Phyton 11:153–160. OKAJIMA, H. 1958. On the relationship between the nitrogen deficiency of the rice plant and reduction of the medium. J. Sci. Soil Manure, Jpn. 29:175–180. OKAJIMA, H. 1960. Studies on the physiological function of root system in the rice plant viewed from the nitrogen nutrition. Bull. Inst. Agric. Res. Tohoku Univ. 12:l–146. OKAJIMA, H. 1962. Nutrio-physiology of rice. Nosan-Gyosan-Bunka Kyokai, Tokyo. 205 p. OKAJIMA, H., S. TAKAGI, N. TAKAHASHI, and T. HONDA. 1958. Physiological behavior of hydrogen sulfide in the rice plant. Part 9. Growth and development disorder of hydrogen sulfide treated rice plant. Bull. Inst. Agric. Res. Tohoku Univ. 9:193–225. OKUDA, A., and E. TAKAHASHI. 1965. The role of silicon. Pages 123–146 in International Rice Research Institute. The mineral nutrition of the rice plant. Proceedings of a symposium at the International Rice Research Institute, February, 1964. The Johns Hopkins Press, Baltimore, Maryland. OLDEMAN, L.R., and D. SUARDI. 1977. Climatic determinants in relation to cropping patterns. Pages 61–81 in International Rice Research Institute. Proceedings, symposium on cropping systems research and development for the Asian rice farmer, 21–24 September 1976. Los Baños, Philippines. ONODERA,I. 1929. Decomposition of genge in the soil and its effects on rice growth. [inJapanese] J. Sci. Soil Manure, Jpn. 3:49–64. ORMROD, D.P., and W.A. BUNTER. 1961. The evaluation of rice varieties for cold water tolerance. Agron. J. 53:133–134. OSADA, A. 1964. Studies on the photosynthesis of indica rice. Proc. Crop Sci. SOC. Jpn. 33:69–76. OSADA, A. 1967. Relationship between photosphythetic activity and dry matter production in rice varieties, especially as influenced by nitrogen supply Bull. Natl. Inst. Agric. Sci. (Tokyo) D, 14:117–188. OSADA, A. 1974. Physiology of rice. Pages 48–74 in S. Hatta, ed. Rice cultivation in tropical Asia. Norin-Tokei-Kyokai, Tokyo. OSHIMA, M. 1966. On the translocation of 14 C assimilated at various growth stages to grains in rice plants. J. Sci. Soil Manure, Jpn. 37:589–593. OSUGI, S., and K. KAWAGUCHI. 1938. A physiological disorder associated with application of ammonium sulfate in paddy rice. J. Sci. Soil Manure, Jpn. 12:453–462. OTA, Y., and M. NAKAYAMA. 1970. Effect of seed coating with calcium peroxide on germination under submerged conditions in rice plant. Proc. Crop Sci. SOC. Jpn. 39:535–536. OZAKI, K. 1955. Determination of top-dressing for rice in the field by the detection of asparagine. Soil Plant Food 1:88–90. PALACPAC, A.C. 1978. World rice statistics. International Rice Research Institute, Department of Agricultural Economics, Los Baños, Philippines. 155 p. PANDE, H.K. 1976. Water management practices and rice cultivation in India. Pages 231–249 in Symposium on water management in rice field. Tropical Agriculture Research Center, Ministry of Agriculture and Forestry, Tokyo. PARK, Y.D., and A. TANAKA. 1968. Studies of the rice plant on an “Akiochi” soil in Korea. Soil Sci. Plant Nutr. 14:27–34.
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FOREWORD Rice is vital to more than
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CONTENTS Foreword Preface GROWTH AN
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3.2. Adaptation to Submerged Soils
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4.5. Corrective Measures for Nutrit
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1 .1. OUTLINE OF THE LIFE HISTORY T
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GROWTH AND DEVELOPMENT OF THE RICE
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5.1. PHOTOSYNTHESIS 5.1.1. Photosyn
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Photosynthetic characteristics Meas
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Yoshida - 1981 - Fundamentals of Rice Crop Science

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