Yoshida - 1981 - Fundamentals of Rice Crop Science

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REFERENCES 261 PARTHASARATHY, N. 1972. Rice breeding in tropical Asia up to 1960. Pages 5–29 in International Rice Research Institute. Rice breeding. Los Baños, Philippines. PEARSON, G.A. 1959. Factors influencing salinity of submerged soils and growth of Caloro rice. Soil Sci. 87:198–206. PEARSON. G.A. 1961. The salt tolerance of rice. Int. Rice Comm. Newsl. 10:l–4. PENMAN, H.L. 1948. Natural evaporation from open water, bare soil and grass. Proc. Roy. Soc. London, A. 193:120–146. PENMAN, H.L. 1956. Evaporation: an introductory survey. Neth. J. Agric. Sci. 4:9-29. PENNING DE VRIES, F.W.T. 1972. Respiration and growth. Pages 327–347 in A.R. Rees, K.E. Cockshull, D.W. Hand, and R.G. Hurd, eds. Crop processes in controlled environments. Academic Press, London, New York. PENNING DE VRIES, F.W.T. 1974. Substrate utilization and respiration in relation to growth and maintenance in higher plants. Neth. J. Agric. Sci. 22:40–44. PENNING DE VRIES. F.W.T. 1975a. The cost of maintenance processes in plant cells. Ann. Bot. 39:77–92. PENNING DE VRIES, F.W.T. 1975 b. Use of assimilates in higher plants. Pages 459–480 in J.P. Cooper, ed. Photosynthesis and productivity in different environments. Cambridge University Press, Cambridge. 715 p. PENNING DE VRIES. F.W.T., A.H.M. BRUNSTING, and H.H. VAN LAAR 1974. Products, requirements and efficiency of biosynthesis — a quantitative approach. J. Theor,. Biol. 45:339–377. PENNING DE VRIES, F.W.T., and H.H. VAN LAAR. 1977. Substrate utilization in germinating seeds. Pages 217–218 in J.J. Landsberg and C.V. Cutting, eds. Environmental effects on crop physiology. Academic Press, London. PONNAMPERUMA, F.N. 1965. Dynamic aspects of flooded soils and the nutrition of the rice plant. Pages 295–328 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. PONNAMPERUMA, F.N. 1972. The chemistry of submerged soils. Adv. Agron. 24:29–96. PONNAMPERUMA, F.N. 1976a. Screening rice for tolerance to mineral stresses, Pages 341–353 in M.J. Wright and S.A. Ferrari eds. Proceedings of the workshop on plant adaptation to mineral stress in problem soils. Beltsville. Maryland. November 22–23, 1976. PONNAMPERUMA, F.N. 1976b Temperature and the chemical kinetics of flooded soils. Pages 249–263 in International Rice Research Institute. Climate and rice. Los Baños, Philippines. PONNAMPERUMA, F.N. 1977. Screeningrice for tolerance to mineral stress. IRRI Res. Pap. Ser. 6. 21 p. PONNAMPERUMA, F.N., R. BRADFIELD, and M. PEECH. 1955. Physiological disease of rice attributable to iron toxicity. Nature 175:265. PRUITT, W.O. 1960. Correlation of climatological data with water requirement of crops, Department of Irrigation, University of California. Davis. RANDHAWA, N.S., M.K. SINHA, and P.N. TAKKAR. 1978. Micronutrients. Pages 581–603 in International Rice Research Institute. Soils and rice. Los Baños, Philippines, RAWSON, H.M., and G. HOFSTRA. 1969. Translocation and remobilization of 14 C assimilated at different stages by each leaf of the wheat plant. Aus. J. Biol. Sci. 22:321–331. RESEARCH GROUP OF EVAPOTRANSPIRATION (RGE). 1967a. Radiation balance of paddy field. J. Agric. Meteorol. (Tokyo) 22:97–102. RESEARCH GROUP OF EVAPOTRANSPIRATION (RGE). 1967b. Evapotranspiration from paddy field. J. Agric. Meteorol. (Tokyo) 22:149–157. SASAKI, K., and S. WADA. 1973. Varietal difference in cold tolerance at different stages of panicle development in rice. Hoku-No (Japan) 40(8):7–14. SASAKI, K., and S. WADA. 1975. Effects of nitrogen, phosphoric acid and potash on the percentage of sterile grains in rice plants. Proc. Crop Sci. Soc. Jpn. 44:250–254. SASAKI, K., H. MAEDA. and S. WADA. 1973. Effects of nitrogen and temperature on sterility at meiotic stage. Hoku-No (Japan) 40(9):1–7. SATAKE. T. 1969. Research on cool injury of paddy rice plant in Japan. JARQ 4(4):5–10. SATAKE. T. 1976. Sterile-type cool injury in paddy rice plants. Pages 281-300 in International Rice Research Institute. Climate and rice. Los Baños, Philippines. SATAKE. T., and S. YOSHIDA. 1978. High temperature-induced sterility in indica rices at flowering. Jpn. J. Crop Sci. 47:6–17. SATO. K. 1959. Studies on the starch contained in the tissues of rice plant. (IV). Starch content in the culm related to lodging. Proc. Crop Sci. Soc. Jpn. 26:19.
262 FUNDAMENTALS OF RICE CROP SCIENCE SEKIYA, F. 1953. Studies on the tillering primordium and tillering bud in rice seedlings. (4). On the abnormal situation of the first tillering bud. Proc. Crop Sci. Soc. Jpn. 21 :239–240. SHIBATA, M., K. SASAKI, and Y. SHIMAZAKI. 1970. Effect of air temperature and water temperature at each stage of the growth of lowland rice. 1. Effect of air temperature and water temperature on the percentage of sterile grains. Proc. Crop Sci. Soc. Jpn. 39:401–408. SHIGA, H. 1962. Studies on behavior of hydrogen sulfide in submerged soils. Doctor’s thesis, Hokkaido University, Japan. 247 p. SHIGA, H. 1969. Amelioration of paddy soils. Pages 16–34 in S. Ishizawa, T. Egawa, and N. Murayama, eds. New technologies for soil management and fertilizer application. Gihodo Publ. Co. Ltd., Tokyo. SHIGA, H., Y. YAMAGUCHI, and H. AWAZAKI. 1976. Effect of phosphorus fertility of soils and phosphate application on rice culture in cool regions. Part 2. Res. Bull. Hokkaido Natl. Agric. Exp. Stn., No. 113:95–107. SHIGA, H., and-N. MIYAZAKI. 1977. Effect of the nitrogen supplying method for getting high yield in rice plants in cool region. Part 3. Res. Bull. Hokkaido Natl. Agric. Exp. Stn., No. 118:63–80. SHIGA PREFECTURAL AGRICULTURAL EXPERIMENT STATION. 1961. Phosphate fertilizer for lowland rice. Part I. Secretariat for Research Council of Agriculture, Forestry and Fisheries, Tokyo, 142 p. SHIGEMURA, S. 1966. Contribution of newly developed varieties to increased production of rice in the warm district of Japan: a case study of Hoyoku etc. JARQ 1:l–6. SHIRATORI, K., N. MATSUMOTO, Y. MATSUOKA, and H. YAMAGUCHI. 1960. Studies on the physiological characteristics of rice varieties as related to the resistance against yield-fall. (6). On the growth of transplanted seedlings under the reductive soil. Proc. Crop Sci. Soc. Jpn. 28:351–352. SHIROSHITA, T. 1963. High yielding cultural techniques. Pages 483–496 in M. Matsubayashi et al, eds. Theory and practice of growing rice. Fuji Publ. Co. Ltd., Tokyo. SHIROSHITA, T., K. ISHII, J. KANEKO, and S. KITAJIMA. 1962. Studies on the high productivity of paddy rice by increasing the manurial effects. J. Cent. Agric. Exp. Stn. 1:47–108. SINCLAIR, T.R., and C.T. DE WIT. 1975. Photosynthate and nitrogen requirements for seed production by various crops. Science 189:565–567. SINGH, J.N., and J. TAKAHASHI. 1962. Effect of varying dates of top-dressing of nitrogen on plant characters leading to tendency to lodging in rice. Soil Sci. Plant Nutr. 8:169–176. SOEZIMA, M., and S. KAWATA. 1969. “Lion tail like root” formation in rice plant and soil conditions. Proc. Crop Sci. Soc. Jpn. 28:442–446. SOFIELD, I., L.T. EVANS, and I.F. WARDLAW. 1974. The effects of temperature and light on grain filling in wheat. In Mechanisms of regulation of plant growth. Royal Society of New Zealand, Wellington. SOGA, Y., and M. NOZAKI. 1957. Studies on the relation between seasonal changes of carbohydrates accumulated and the ripening at the stage of generative growth in rice plant. Proc. Crop Sci. Soc. Jpn. 26:105–108. SUETSUGU, I. 1975. Records on high rice yields in India. Agric. Technol. (Tokyo) 30:212–215. SUZUKI, A. 1978. Sulfur nutrition and diagnosis of rice plants. JARQ 12:7–11. SUZUKI, S., and H. SHIGA. 1953. Studies on behavior of hydrogen sulfide in waterlogged soil. (1). Determination of hydrogen sulfide and other sulfides in soil. Bull. Chugoku Agric. Exp. Stn. 2:43–56. TADANO, T. 1976. Studies on the methods to prevent iron toxicity in lowland rice. Mem. Fac. Agric. Hokkaido Univ. 10(1):22–68. TADANO, T., and A. TANAKA. 1976. Comparison of adaptability to ammonia and nitrate among crop plants. (Part 1) J. Sci. Soil Manure, Jpn. 47:321–328. TADANO, T., and S. YOSHIDA. 1978. Chemical changes in submerged soils and their effect on rice growth. Pages 399–420 in International Rice Research Institute. Soils and rice. Los Baños, Philippines. TAKAGI, S. 1966. Studies on the physiological significance of flooded soil condition in rice plant growth. Bull Inst. Agr. Res. Tohoku Univ. 18:l–158. TAKAHASHI, J. 1959 a . Review of investigations on diseases of rice. 1. Int. Rice Comm. Newsl. 9(1):1–6. TAKAHASHI, J. 1959b. Review of investigations on physiological diseases of rice. 2. Int. Rice. Comm. Newsl. 9(2):17–24. TAKAHASHI, J. 1959c. Nutrio-physiology of crop plants [in Japanese]. Haku-yu-sha Publ. Co., Ltd., Tokyo. 220 p. TAKAHASHI, J. 1961. Physiological disease of rice in Taiwan. Soils Fert. Taiwan 1961:l0–14. TAKAHASHI, J., M. YANAGISAWA, M. KONO, F. YAZAWA, and T. YOSHIDA. 1955. Studies on nutrient absorption by crops. Bull. Natl. Inst. Agric. Sci., B, 4:l–83.
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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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