Yoshida - 1981 - Fundamentals of Rice Crop Science

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REFERENCES 265 TSUNODA, S. 1964. A developmental analysis of yielding ability in varieties of field crops [in Japanese, English summary]. Nihon-Gakujitsu-Shinkokai, Maruzen Publ. CO., Tokyo. 135 p. TSUNODA, K. and S. MATSUSHIMA. 1962. Analysis of yield-determining process and its application to yield prediction and culture improvement of lowland rice. LXII. Effects of irrigation water temperature under different water depths on thegrowth, grain yield and yield components of rice. Proc. Crop Sci. SOC. Jpn. 31:19–22. TSUNODA, K., J. WADA, and R. SATO. 1966. Practical studies on cool weather injuries in rice plants. XXII. On the varietal difference in the delay of heading time caused by low temperature and its mechanism (1). Roc. Crop. Sci. SOC. Jpn. 34:399–402. UCHIJIMA, T. 1976. Some aspects of the relation between low air temperature and sterile spikelet numbers in rice plants. I. Agric. Meteorol. 31:199–202. UCHIJIMA, Z. 1976. Microclimate of the rice crop. Pages 115–140 in International Rice Research Institute. Climate and rice. Los Baños, Philippines. ULRICH, A., M.A. TABATABAI, K. OHKI, and C.M. JOHNSON. 1967. Sulfur content of alfalfa in relation to growth in filtered and unfiltered air. Plant Physiol. 26:235-252. VAN KEULEN, H. 1976. A calculation method for potential rice production. Cent. Res. Inst. Agric., Bogor, Indonesia. Contrib. 21. 26 p. VARTAPETIAN, B.B. 1973. Aeration of roots in relation to molecular oxygen transport in plants. Pages 259–265 in Plants responses to climatic factors. Proc. Uppsala Symp. 1970, UNESCO. VERGARA, B.S., R. LILIS, and A. TANAKA. 1965. Studies of the internode elongation of the rice plant. I. Relationship between growth duration and internode elongation. Soil Sci. Plant Nutr. 11:246–250. VERGARA, B.S., B. JACKSON, and S.K. DE DATTA. 1976. Deep water rice and its response to deep water stress. Pages 301–319 in International Rice Research Institute. Climate and rice. Los Baños, Philippines. VERGARA, B.S., and T.T. CHANG. 1976. The flowering response of the rice plant to photoperiod: a review of the literature. Int. Rice Res. Inst. Tech. Bull. 8. 75 p. WADA, C. 1969. The effects of nitrogenous nutrition on the yield-determining process of rice plant. Bull. Natl. Inst. Agric. Sci. 16:27–167. WANG, C.H., T.H. LIEM, and D.S. MIKKELSEN. 1976 a. Sulfur deficiency — a limiting factor in rice production in the lower Amazon Basin. I. Development of sulfur deficiency as a limiting factor for rice production. IRI Research Institute, Inc., New York. Bull. 47. 46 p. WANG,C.H.,T.H. LIEM, and D.S. MIKKELSEN. 1976b. Sulfur deficiency—a limiting requirement for rice production. IRI Research Institute, Inc., New York, Bull. 48. 38 p. WARD, R.C. 1975. Principles of hydrology. 2d ed. McGraw-Hill Books Co. (U.K.) Limited, London, 367 p. WATANABE, I., and K. TENSHO. 1970. Further study on iodine toxicity in relation to “Reclamation Akagare disease of lowland rice.” Soil Sci. Plant Nutr. 16:192–194. WATANABE, I., C.R. ESPINAS, N.S. BERJ A. and B.V. ALIMAGNO. 1977. Utilization of the azollaanabaena complex as a nitrogen fertilizer for rice. IRRI Res. Pap. Ser. 11, 15 p. WICKAM, T.H., and V.P. SINGH. 1978. Water movement through wet soils. Pages 337–358 in International Rice Research Institute. Soils and rice. Los Baños, Philippines, WRIGHT, M.J., and S.A. FERRARI. 1976. Plant adaptation to mineral stress in problem soils. Cornell Univ., New York. 420 p. YAMADA, N. 1963. Spacing. Pages 172–182 in M. Matsubayashi. R. Ito, T. Nornoto, T. Takase, and N. Yamada, eds. Theory and practice of growing rice. Ministry of Agriculture and Forestry, Tokyo, Japan. YAMADA, N., and Y. OTA. 1957. Physiological character of rice seedlings. Proc. Crop Sci. Soc. Jpn. 25:165–168. YAMADA, N., Y. OTA, and H. NAKAYAMA 1961. Diagnosis of root activity of rice plants by a-naphthylamine assay. Agric. Hortic. (Tokyo) 36: 1983–1985. YAMAGUCHI, H., K. SHIRATORI, and R. HATANO. 1958. Researches on technical Improvement of rice culture on ill-drained fields. V. Studies on the physiological characteristics of rice varieties as related to the resistance against yield-fall (5). Varietal difference in H 2 S oxidation activity of rice roots. Proc. Crop Sci. Soc. Jpn. 26:193–194. YAMAGUCHI, J. 1978. Respiration and the growth efficiency in relation to crop productivity. J. Fac. Agric., Hokkaido Univ. 59:59–129. YAMAKAWA, Y., and H. KISHIKAWA. 1957. On the effect of temperature upon the division and elongation of cells in the root of rice plant. Roc. Crop Sci. Soc. Jpn. 26:94–95.
266 FUNDAMENTALS OF RICE CROP SCIENCE YAMANE, I., and K. SATO. 1961. Metabolism in muck paddy soil. Part 3. Role of soil organic matter in the evolution of free hydrogen sulfide in water-losped soil. Tohoku Univ. Inst. Agric. Res. Rep., Ser. D, 12:73–86. YAMANE, I., and K. SATO. 1967. Effect of temperature on the decomposition of organic substances in flooded soil. Soil Sci. Plant Nutr. 13:94–100. YAMAZAKI, T. 1952. Studies on the “excess-moisture injury” of upland crops in overmoist soil from the view point of soil chemistry and plant physiology. Bull. Natl. Inst. Agric. Sci. (Tokyo), B, 1–92. YAMAZAKI, T. 1966. Possibility of achieving high rice yields by increased application of fertilizer. 11 p. (mimeo.) YANAGISAWA, M., and J. TAKAHASHI. 1964. Studies on the factors related to the productivity of paddy soils in Japan with special reference to the nutrition of the rice plants. Bull. Natl. Inst. Agric. Sci., Ser. B, 14:41–171. YATSUYANAGI, S. 1960. Scheduled cultivation of rice in Tohoku region. Agric. Hortic. (Tokyo) 35:1425–1427. YOKOI, T. 1898. On the development of the plumule and radicle of rice seed with various quantities of water in the germinating medium. Tokyo Imp. Univ., Coll. Agric. Bull. 3:482–487. YOSHIDA, S. 1965. Chemical aspects of the role of silicon in physiology of the rice plant. Bull. Natl. Inst. Agric. Sci. (Tokyo), B, 15:l–58. YOSHIDA, S. 1972. Physiological aspects of grain yield. Ann. Rev. Plant Physiol. 23:437–464. YOSHIDA, S. 1973. Effects of temperature on growth of the rice plant (Oryza sativa, L) in a controlled environment. Soil Sci. Plant Nutr. 19:299–310. YOSHIDA, S. 1975 a. Minor elementsfor rice. Food Fert. Technol. Cent., ASPAC, Taiwan, Ext. Bull. 52. YOSHIDA, S. 1975 b. The physiology of silicon in rice. Food Fert. Technol. Cent., ASPAC, Taiwan, Tech. Bull. 25. YOSHIDA, S. 1975 c. Factors that limit growth and yields of upland rice. Pages 46–71 in International Rice Research Institute. Upland rice. Los Baños, Philippines. YOSHIDA, S. 1976. Carbon dioxide and yield of rice. Pages 211–221 in International rice Research Institute. Climate and rice. Los Baños, Philippines. YOSHIDA, S. 1977 a. Rice. Pages 57–87 in Paulo deT. A1vim and T.T. Kozlowski, eds. Ecophysiology of tropical crops. Academic Press, Inc. New York. 502 p. YOSHIDA, S. 1977 b. Physiological consequences of altering plant type and maturity. Int. rice. Comm. Newsl. 26:5–16. YOSHIDA, S. 1978. Tropical climate and its influence on rice. IRRI Res. Pap. Ser. 20. YOSHIDA, S. 1979. A simple evapotranspiration model of paddy field in tropical Asia. Soil Sci. Plant Nutr. 25:81–91. YOSHIDA, S., Y. OHNISHI, and K. KITAGISHI. 1959. Role of silicon in rice nutrition. Soil Plant Food 5:127–133. YOSHIDA, S., Y. OHNISHI, and K. KITAGISHI. 1962. Histochemistry of silicon in rice plant. III. The presence of cuticle-silica double layer in the epidermal tissue. Soil Sci. Plant Nutr. 8:l–5. YOSHIDA, S., and S.B. AHN. 1968. The accumulation process of carbohydrate in rice varieties in relation to their response to nitrogen in the tropics. Soil Sci. Plant Nutr. 14:153–161. YOSHIDA, S., and L. CASTANEDA. 1969. Partial replacement of potassium by sodium in the rice plant under weakly saline conditions. Soil Sci. Plant Nutr. 15:183–186. YOSHIDA, S., and A. TANAKA. 1969. Zinc deficiency of the rice plant in calcareous soils. Soil Sci. Plant Nutr. 15:75–80. YosHIDA, S., S.A. NAVASERO, and E.A. RAMIREZ. 1969. Effects of silica and nitrogen supply on some leaf characters of the rice plant. Plant Soil 31:48–56. YOSHIDA, S., and Y. HAYAKAWA. 1970. Effect of mineral nutrition on tillering of rice. Soil Sci. Plant Nutr. 16:186–191. YOSHIDA, S., G.W. MCLEAN, M. SHAFI, and K.E. MUELLER. 1970. Effects of different methods of zinc application on growth and yields of rice in a calcareous soil, West Pakistan. Soil Sci. Plant Nutr. 16:147–149. YOSHIDA, S., and J.H. COCK. 1971. Growth performance of an improved rice variety in the tropics. Int. Rice Comm. Newsl. 20:l–15. YOSHIDA, S., D.A. FORNO, and A. BHADRACHALAM. 1971. Zinc deficiency of the rice plant on calcareous soils in the Philippines. Soil Sci. Plant Nutr. 17:83–87. YOSHIDA, S., and F.T. PARAO. 1972. Performance of improved rice varieties in the tropics with special reference to tillering capacity. Exp. Agric. 8:203–212.
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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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PHOTOSYNTHESIS AND RESPIRATION 197
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Photosynthetic characteristics Meas
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