Yoshida - 1981 - Fundamentals of Rice Crop Science

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254 FUNDAMENTALS OF RICE CROP SCIENCE DEI, Y. 1978. High-yielding paddy fields. Pages 377–385 in K. Kawaguchi, ed. Soil science of paddy fields. Kodan-sha Publ. Co. Ltd., Tokyo. DUKSHOORN, W., and M. ISMUNADJI. 1972. Nitrogen nutrition of rice plants measured by growth of nutrient content in pot experiments. 3. Change during growth. Neth. J. Agric. Sci. 20:133–144. DONALD, C.M. 1968. The breeding of crop ideotypes. Euphytica 17:385–403. DORE, J. 1959. Response of rice to small differences in length of day. Nature 183:413–414. DOWNES, R.W. 1969. Differences in transpiration rates between tropical and temperate grasses under controlled conditions. Planta 88:261–273. DRIESSEN, P.M. 1978. Peat soils. Pages 763–779 in International Rice Research Institute. Soils and rice. Los Baños, Philippines. DUNCAN, W.G. 1968. Cultural manipulation for higher yields. Pages 327–339 in J.D. Eastin et al, ed. Physiological aspects of crop yields. American Society of Agronomy, Crop Science of America, Madison, Wisconsin. DUNCAN, W.G. 1971. Leaf angle, leaf area, and canopy photosynthesis. Crop Sci. 11:482–485. EPSTEIN, E. 1972. Mineral nutrition of plants: principles and perspectives. John Wiley and Sons, Inc., New York, London, Sydney, Toronto. 412 p. EVANS, H.J., and G.J. SORGER. 1966. Role of mineral elements with emphasis on the univalent cations. Ann. Rev. Plant Physiol. 17:47–77. EVANS, L.T. 1972. Storage capacity as a limitation on grain yield. Pages 499–511 in International Rice Research Institute. Rice breeding. Los Baños, Philippines. FISCHER, R.A., and T.C. HSIAO. 1968. Stomatal opening in isolated epidermal strips of Vicia faba. II. Responses to KC1 concentration and the role of potassium absorption, Plant Physiol. 43:1953–1958. FORNO, D.A., S. YOSHIDA, and C.J. ASHER. 1975a. Zinc deficiency in rice. I. Soil factors associated with the deficiency. Plant Soil 42:537–550. FORNO, D.A., C.J. ASHER, and S. YOSHIDA. 1975b. Zinc deficiency in rice. II. Studies on two varieties differing in susceptibility to zinc deficiency. Plant Soil 42:551–563. FRIED, M., F. ZSOLDOS, D.B. VOSE, and I.L. SHATOKHIN. 1965. Characterizing the NO 3 and NH 4 uptake process of rice plants by use of 15 N labelled NH 4 NO 3 . Physiol. Plant. 18:313–320. FRIED, M., and H. BROESHART. 1967. The soil-plant system. Academic Press, New York. 358 p. FUJII, Y. 1974. The morphology and physiology of rice roots. ASPAC Tech. Bull. 20. FUJINO, M. 1967. Role of adenosine-triphosphate and adenosinetriphosphatase in stomatal movement. Sci. Bull. Fac. Educ., Nagasaki Univ. 18:l–47. FUKUDA, H., and H. TSUTSUI. 1968. Rice irrigation in Japan. Food and Agriculture Organization (FAO), Rome, Italy. 60 p. GARDNER, W.R. 1960. Dynamic aspects of water availability to plants. Soil Sci. 89:63–73. GARDNER, W.R. 1964. Relation of root distribution to water uptake and availability. Agron. J. 56:41–45. GOTOH, S., and T. ONIKURA. 1971. Organic acids in flooded soil receiving added rice straw and their effect on the growth of rice. Soil Sci. Plant Nutr. (Tokyo) 17:l–8. HASHIMOTO, S., and T. KAWAMORI. 1951. Studies on manganese deficient soils. I. Degraded paddy soils and manganese. J. Sci. Soil Manure, Jpn. 21:293–296. HATCH, M.D. 1971. Photosynthesis and the C-4 pathway. In Commonwealth Scientific and Industrial Research Organization (CSIRO), Division of Plant Industry. Annual Report. Canberra, Australia. HATCH, M.D., and C.R. SLACK. 1970. Photosynthetic CO 2 -fixation pathways. Ann. Rev. Plant Physiol. 21:141–162. HAYASHI, K. 1968, Response of net assilimation rate to differing intensity of sunlight in rice varieties. Proc. Crop Sci. Soc. Jpn. 37:528–533. HAYASHI, K. 1969. Efficiencies of solar energy conversion and relating characteristics in rice varieties. Proc. Crop Sci. Soc. Jpn. 38:495–500. HAYASHI, K., and H. ITO. 1962. Studies on the form of plant in rice varieties with particular reference to the efficiency in utilizing sunlight. I. The significance of extinction coefficient in rice plant communities. Proc. Crop Sci. Soc. Jpn. 30:329–333. HAYASHI, T,. Y. OGAWA, and H. KOUTA. 1951. Productive efficiency of phosphorus nutrient for rice plant. J. Sci. Soil Manure Jpn. 22:29–32. HEGDE, B.A., and G.V. JOSHI. 1974. Pattern of photosynthesis in a saline indica var. of rice Kala rata. Pages 755–763 in The proceedings of the symposium on use of radiations and radioisotopes in studies of plant productivity. Pantnagar, India. HIRANO, S., K. SHIRAISHI, and S. TANABE. 1968. Rice crop and water use in Southeast Asia. Pages 128–140 in Symposium on world rice. 2. Agronomy Society Japan.
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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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