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References

  • Ahmadi A, Baker DA. 2001. The effect of water stress on the activities of key regulatory enzymes of the sucrose to starch pathway in wheat. Plant Growth Regulation 35: 8191.
  • Asseng S, Van Herwaarden AF. 2003. Analysis of the benefits to wheat yield from assimilates stored prior to grain filling in a range of environments. Plant and Soil 256: 217219.
  • Austin RB, Morgan CL, Ford MA, Blackwell RD. 1980. Contributions to grain yield from pre-anthesis assimilation in tall and dwarf barley phenotypes in two contrasting seasons. Annals of Botany 45: 309319.
  • Barratt DHP, Whitford PN, Cook SK, Butcher G, Wang TL. 1989. An analysis of seed development in Pisum sativum. VIII. Does abscisic acid prevent precocious germination and control storage protein synthesis? Journal of Experimental Botany 40: 1009 1014.
  • Beck E, Ziegler P. 1989. Biosynthesis and degradation of starch in higher plants. Annual Review of Plant Physiology and Plant Molecular Biology 40: 95117.
  • Beltrano J, Ronco MG, Montaldi ER. 1999. Drought stress syndrome in wheat is provoked by ethylene evolution imbalance and reversed by rewatering, aminoethoxyvinylglycine, or sodium benzoate. Journal of Plant Growth Regulation 18: 5964.
  • Berry PM, Sterling M, Spink JH, Baker CJ, Sylvester-Bradley R, Mooney SJ, Tams AR, Ennos AR. 2004. Understanding and reducing lodging in cereals. Advances in Agronomy 84: 217271.
  • Bidinger F, Musgrave RB, Fischer RA. 1977. Contribution of stored pre-anthesis assimilate to grain yield in wheat and barley. Nature 270: 431433.
  • Biswas AK, Choudhuri MA. 1980. Mechanism of monocarpic senescence in rice. Plant Physiology 65: 340345.
  • Blacklow WM, Darbyshire B, Pheloung P. 1984. Fructans polymerized and depolymerised in the internodes of winter wheat as grain-filling progressed. Plant Science Letters 36: 213218.
  • Boyer JS, McPherson HG. 1975. Physiology of water deficits in cereal crops. Advances in Agronomy 27: 123.
  • Boyer JS, Westgate ME. 2004. Grain yields with limited water. Journal of Experimental Botany 55: 23852394.
  • Boyle MG, Boyer JS, Morgan PW. 1991. Stem infusion of liquid culture medium prevents reproductive failure of maize at low water potentials. Crop Science 31: 12461252.
  • Brenner ML, Cheikh N. 1995. The role of hormones in photosynthate partitioning and seed filling. In: DaviesPJ, ed. Plant hormones, physiology, biochemistry and molecular biology. Dordrecht, the Netherlands: Kluwer Academic Publishers, 649670.
  • Brocklehurst PA. 1977. Factors controlling grain weight in wheat. Nature 266: 348349.
  • Brown JH, Paliyath G, Thompson JE. 1991. Physiological mechanisms of plant senescence. In: StewardFC, ed. Plant physiology; a treatise, Vol. X: Growth and development. London, UK: Academic Press, 227275.
  • De Bruijn SM, Vreugdenhil D. 1992. Abscisic acid and assimilate partitioning to developing seeds. I. Does abscisic acid influence the growth rate of pea seeds? Journal of Plant Physiology 140: 201206.
  • Buchanan-Wollaston V. 1997. The molecular biology of leaf senescence. Journal of Experimental Botany 48: 181199.
  • Buresh R, Peng S, Huang J, Yang J, Wang G, Zhong X, Zou Y. 2004. Rice systems in China with high nitrogen inputs. In: MosierAR, SyersJK, FreneyJR, eds. Agriculture and the nitrogen cycle: assessing impacts of fertilizer use on food production and the environment. London, UK: Island Press, 143153.
  • Caley CY, Duffus CM, Jeffcoat B. 1990. Effects of elevated temperature in developing wheat grains. Australian Journal of Plant Physiology 17: 431439.
  • Cao X, Zhu Q, Yang J. 1992. Classification of source-sink types in rice varieties with corresponding cultivated ways. In: XiongZ, MinS, eds. Prospects of rice farming for 2000. Hangzhou, China: Zhenjiang Science & Technology Press, 361372.
  • Cheih N, Jones RJ. 1995. Heat stress effects on sink activity of developing maize kernels grown in vitro. Physiologia Plantarum 95: 5966.
  • Clifford PE, Offler CE, Patrick JW. 1986. Growth regulators have rapid effects on photosynthate unloading from seed coats of Phaseolus vulgaris L. Plant Physiology 80: 635637.
  • Cock JH, Yoshida S. 1972. Accumulation of 14C-labelled carbohydrate before flowering and the subsequent redistribution and respiration in rice plant. Proceedings of Crop Science Society of Japan 41: 226234.
  • Davies PJ. 1987. The plant hormones: their nature, occurrence, and functions. In: DaviesPJ, ed. Plant hormones and their role in plant growth and development. Dordrecht, the Netherlands: Martinus-Nijhoff Publishers, 111.
  • Déjardin A, Rochat C, Wuilléme S, Boutin JP. 1997. Contribution of sucrose synthase, ADP-glucose pyrophosphorylase and starch synthase to starch synthesis in developing pea seeds. Plant, Cell & Environment 20: 14211430.
  • Dewdney SJ, McWha JA. 1979. Abscisic acid and the movement of photosynthetic assimilates towards developing wheat (Triticum aestivum L.) grains. Zeitschrift für Pflanzenphysiologie 92: 186193.
  • Dobermann A, Witt C, Abdulrachman S, Gines HC, Nagarajan R, Son TT, Tan PS, Wang GH, Chien NV, Thoa VTK, Phuong CV, Stalin P, Muthukrishnan P, Ravi V, Bahu M, Simbhan GC, Adviento MAA. 2002. Soil fertility and indigenous nutrient supply in irrigated rice domains of Asia. Agronomy Journal 95: 913923.
  • Dubois D, Winzeler M, Nösberger J. 1990. Fructan accumulation and sucrose: sucrose fructosyltransferase activity in stems of spring wheat genotypes. Crop Science 30: 315319.
  • Duke ER, Doehlert DC. 1996. Effects of heat stress on enzyme activities and transcript levels in developing maize kernels grown in culture. Environmental and Experimental Botany 36: 199208.
  • Dwyer LM, Andrews CJ, Stewart DW, Ma DL, Dugas JA. 1995. Carbohydrate levels in field-grown leafy and normal maize genotypes. Crop Science 35: 10201027.
  • Ehdaie B, Waines JG. 1996. Genetic variation for contribution of preanthesis assimilates to grain yield in spring wheat. Journal of Genetics and Breeding 50: 4755.
  • Ekanayake IJ, De Datta SK, Steponkus PL. 1989. Spikelet sterility and flowering response of rice to water stress at anthesis. Annals of Botany 63: 257264.
  • Ekanayake IJ, De Datta SK, Steponkus PL. 1993. Effect of water deficit stress on diffusive resistance, transpiration, and spikelet dessication of rice (Oryza sativa L.). Annals of Botany 72: 7380.
  • Fisher DB, Gifford RM. 1986. Accumulation and conversion of sugars by developing wheat grains. VI. Gradients along the transport pathway from the peduncle to the endosperm cavity during grain filling. Plant Physiology 82: 10241030.
  • Gallagher JN, Biscoe PV, Hunter B. 1976. Effects of drought on grain growth. Nature 264: 541542.
  • Gallagher JA, Volence JJ, Turner LB, Pollock CJ. 1997. Starch hydrolytic enzyme activities following defoliation of white clover. Crop Science 37: 18121818.
  • Gebbing T, Schnyder H. 1999. Pre-anthesis reserve utilization for protein and carbohydrate synthesis in grains of wheat. Plant Physiology 121: 871878.
  • Gong Y, Zhang J, Gao J, Lu J, Wang J. 2005. Slow export of photoassimilate from stay-green leaves during late grain filling stage in hybrid winter wheat (Triticum aestivum L.). Journal of Agronomy and Crop Science 191: 292299.
  • Haberer G, Kieber JJ. 2002. Cytokinins. New insights into a classic phytohomone. Plant Physiology 128: 354362.
  • Hawker JS, Jenner CJ. 1993. High temperature affects the activity of enzymes in the committed pathway of starch synthesis in developing wheat endosperm. Australian Journal of Plant Physiology 20: 197209.
  • Hendrix JE, Linden JC, Smith DH, Ross CW, Park IK. 1986. Relationship of preanthesis fructan metabolism to grain numbers in winter wheat (Triticum aestivum L.). Australian Journal of Plant Physiology 13: 391398.
  • Housley TL, Kanabus J, Carpita NC. 1989. Fructan synthesis in wheat leaf blades. Journal of Plant Physiology 134: 192195.
  • Huber SC, Huber JL. 1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annual Review of Plant Physiology and Plant Molecular Biology 47: 431444.
  • Hurkman WJ, McCue KF, Altenbach SB, Korn A, Tanaka CK, Kothari KM, Johnson EL, Bechtel DB, Wilson JD, Anderson OD, DuPont FM. 2003. Effect of temperature on expression of genes encoding enzymes for starch biosynthesis in developing wheat endosperm. Plant Science 164: 873881.
  • Hussain A, Black CR, Taylor IB, Roberts JA. 2000. Does an antagonistic relationship between ABA and ethylene mediate shoot growth when tomato (Lycopersicon esculentum Mill.) plants encounter compacted soil? Plant, Cell & Environment 23: 12171226.
  • Isopp H, Frehner M, Long SP, Nosberger J. 2000. Sucrose-phosphate synthase responds differently to source-sink relations and photosynthetic rates: Lolium perenne L. growing at elevated inline image in the field. Plant, Cell & Environment 23: 597607.
  • Jacobsen JV, Hanson AD, Chandler PC. 1986. Water stress enhances expression of an α-amylase gene in barley leaves. Plant Physiology 80: 350359.
  • Jenner CF. 1994. Starch synthesis in the kernel of wheat under high temperature conditions. Australian Journal of Plant Physiology 21: 791806.
  • Johnson RR, Moss DN. 1976. Effect of water stress on 14CO2 fixation and translocation in wheat during grain filling. Crop Science 16: 697701.
  • Jones HG, Corlett JE. 1992. Current topics in drought physiology: review. Journal of Agricultural Science 119: 291296.
  • Jones MM, Rawson HM. 1979. Influence of rate of development of leaf water deficits upon photosynthesis, leaf conductance, water use efficiency and osmotic potential in sorghum. Physiologia Plantarum 45: 103111.
  • Judel GK, Mengel K. 1982. Effect of shading on non-structural carbohydrates and their turnover in culms and leaves during the grain filling period of spring wheat. Crop Science 22: 985962.
  • Karssen CM. 1982. The role of endogenous hormones during seed development and the onset of primary dormancy. In: WareingPF, ed. Plant growth substances. London, UK: Academic Press, 623632.
  • Kato T. 1995. Change of sucrose synthase activity in developing endosperm of rice cultivars. Crop Science 35: 827831.
  • Keeling PL, Bacon PJ, Holt DC. 1993. Elevated temperature reduces starch deposition in wheat endosperm by reducing the activity of soluble starch synthase. Planta 191: 342348.
  • Kende H, Zeevaart JAD. 1997. The five ‘classical’ plant hormones. Plant Cell 9: 11971210.
  • Kobata T, Palta JA, Turner NC. 1992. Rate of development of postanthesis water deficits and grain filling of spring wheat. Crop Science 32: 12381242.
  • Kobata T, Takami S. 1981. Maintenance of the grain growth in rice subject to water stress during the early grain filling. Japanese Journal of Crop Science 50: 536545.
  • Kozlowski TT. 1978. Water deficits and plant growth, Vol. 5. New York, USA: Academic Press.
  • Kühbauch W, Thome U. 1989. Nonstructural carbohydrates of wheat stems as influenced by sink-source manipulations. Journal of Plant Physiology 134: 243250.
  • Lauer JG, Simmons SR. 1985. Photoassimilate partitioning of main shoot leaves in field-grown spring barley. Crop Science 25: 851855.
  • Lers A, Khalchitski A, Lomaniec E, Burd S, Green PJ. 1998. Senescence-induced RNases in tomato. Plant Molecular Biology 36: 439449.
  • Liang J, Cao X, Zhu Q. 1994. The changes of stem-sheath reserve contents of rice and affecting factors during grain filling. Chinese Journal of Rice Science 8: 151156.
  • Madhu A, Thomas G, Edward N. 1999. The roles of abscisic acid and ethylene in the abscission and senescence of cocoa flowers. Plant Growth Regulation 27: 149155.
  • Mi G, Tang L, Zhang F, Zhang J. 2002. Carbohydrate storage and utilization during grain filling as regulated by nitrogen application in two wheat cultivars. Journal of Plant Nutrition 25: 213229.
  • Murata Y, Matsushima S. 1975. Rice. In: EvansT, ed. Crop physiology. Cambridge, UK: Cambridge University Press, 7379.
  • Murayama N, Oshima M, Tsukahara S. 1961. Studies on the dynamic status of substances during ripening processes in rice plant. Science of Soil Manure, Japan 32: 261265.
  • Nakamura Y, Yuki K. 1992. Changes in enzyme activities associated with carbohydrate metabolism during development of rice endosperm. Plant Science 82: 1520.
  • Nakamura Y, Yuki K, Park SY. 1989. Carbohydrate metabolism in the developing endosperm of rice grains. Plant and Cell Physiology 30: 833839.
  • Nelson CJ, Spollen W. 1987. Fructans. Physiologia Plantarum 71: 512516.
  • Nicolas ME, Lambers H, Simpson RJ, Dalling MJ. 1985a. Effect of post-anthesis drought on cell division and starch accumulation in developing wheat grains. Annals of Botany 55: 433444.
  • Nicolas ME, Lambers H, Simpson RJ, Dalling MJ. 1985b. Effect of drought on metabolism and partitioning of carbon in two wheat varieties differing in drought-tolerance. Annals of Botany 55: 727747.
  • Nielsen TH, Deiting U, Stitt M. 1997. A β-amylase in potato tubers is induced by storage at low temperature. Plant Physiology 113: 503510.
  • Nooden LD. 1988a. Whole plant senescence. In: NoodenLD, LeopoldAC, eds. Senescence and aging in plants. San Diego, CA, USA: Academic Press, 281327.
  • Nooden LD. 1988b. Abscisic acid, auxin, and other regulators of senescence. In: NoodenLD, LeopoldAC, eds. Senescence and aging in plants. San Diego, CA, USA: Academic Press, 329368.
  • Ntanos DA, Koutroubas SD. 2002. Dry matter and N accumulation and translocation for Indica and Japonica rice under Mediterranean conditions. Field Crops Research 74: 93101.
  • Ober ES, Setter TL. 1990. Timing of kernel development in water stressed maize: water potential and abscisic acid accumulation. Annals of Botany 66: 665672.
  • Ober ES, Setter TL, Madison JT, Thompson JF, Shapiro PS. 1991. Influence of water deficit on maize endosperm development. Enzyme activities and RNA transcripts of starch and zein synthesis, abscisic acid, and cell division. Plant Physiology 97: 154164.
  • Palta JA, Kobata T, Turner NC, Fillery IR. 1994. Remobilization of carbon and nitrogen in wheat as influenced by post-anthesis water deficits. Crop Science 34: 118124.
  • Peng S, Cassman KG, Virmani SS, Sheehy J, Khush GS. 1999. Yield potential trends of tropical rice since release of IR8 and the challenge of increasing rice yield potential. Crop Science 39: 15521559.
  • Peng S, Yang J, Laza RC, Sanico AL, Visperas RM, Son TT. 2003. Physiological bases for heterosis and crop management strategies for hybrid rice in the tropics. In: VirmaniSS, MaoCX, HarbyB, eds. Hybrid rice for food security, poverty alleviation, and environmental protection. Los Baños, the Philippines: International Rice Research Institute, 153172.
  • Pheloung PC, Siddique KHM. 1991. Contribution of stem dry matter to grain yield in wheat cultivars. Austrian Journal of Plant Physiology 18: 5364.
  • Pic E, De La Serve T, Tardieu F, Turc O. 2002. Leaf senescence induced by mild water deficit follows the same sequence of macroscopic, biochemical, and molecular events as monocarpic senescence in pea. Plant Physiology 128: 236246.
  • Plaut Z, Butow BJ, Blumenthal CS, Wrigley. 2004. Transport of dry matter into developing wheat kernels and its contribution to grain yield under post-anthesis water deficit and elevated temperature. Field Crops Research 86: 185198.
  • Pollock CJ, Cairns AJ. 1991. Fructan metabolism in grasses and cereals. Annual Review of Plant Physiology and Plant Molecular Biology 42: 77101.
  • Preiss J. 1988. Biosynthesis of starch and its regulation. In: PreissJ, ed. The biochemistry of plants, Vol. 14. New York, USA: Academic Press, 181254.
  • Rawson HM, Evans LT. 1971. The contribution of stem reserves to grain development in a range of wheat cultivars of different height. Australian Journal of Agricultural Research 22: 851863.
  • Ricciardi L, Stelluti M. 1995. The response of durum wheat cultivars and Rht1/rht1 near-isogenic lines to simulated photosynthetic stresses. Journal of Genetics and Breeding 49: 365374.
  • Richards FJ. 1959. A flexible growth function for empirical use. Journal of Experimental Botany 10: 290300.
  • Saini HS, Westgate ME. 2000. Reproductive development in grain crops during drought. Advances in Agronomy 68: 5995.
  • Schnyder H. 1993. The role of carbohydrate storage and redistribution in the source-sink relations of wheat and barley during grain filling – a review. New Phytologist 123: 233245.
  • Setter TL, Brun WA, Brenner ML. 1980. Effect of obstructed translocation on leaf abscisic acid, and associated stomatal closure and photosynthesis decline. Plant Physiology 65: 11111115.
  • Sharp RE. 2002. Interaction with ethylene: changing views on the role of abscisic acid in root and shoot growth responses to water stress. Plant, Cell & Environment 25: 211222.
  • Sharp RE, LeNoble ME, Else MA, Thorne ET, Gherardi F. 2000. Endogenous ABA maintains shoot growth in tomato independently of effects on plant water balance: evidence for an interaction with ethylene. Journal of Experimental Botany 51: 15751584.
  • Simpson RJ, Bonnett GD. 1993. Fructan exohydrolase from grasses. New Phytologist 123: 453459.
  • Smart CM. 1994. Tansley Review, 64: Gene expression during leaf senescence. New Phytologist 126: 419448.
  • Smith AM, Denyer K. 1992. Starch synthesis in developing pea embryos. New Phytologist 122: 2133.
  • Spollen WG, Noble ME, Samuels TD, Bernstein N, Sharp RE. 2000. Abscisic acid accumulation maintains maize primary root elongation at low water potentials by restricting ethylene production. Plant Physiology 122: 967976.
  • Sturm A, Tang GQ. 1999. The sucrose-cleaving enzymes of plants are crucial for development, growth and carbon partitioning. Trends in Plant Science 4: 401407.
  • Sun J, Loboda T, Sung S-JS, Black CC. 1992. Sucrose synthase in wild tomato, Lycopersicon chemielewskii, and tomato fruit sink strength. Plant Physiology 98: 11631169.
  • Tadas P, Agata P, Philip DR, Bernard R, Elsbeth LW. 1999. Identification of senescence-associated genes from daylily petals. Plant Molecular Biology 40: 237248.
  • Thomas H, Smart CM. 1993. Crops that stay green. Annals of Applied Biology 123: 193219.
  • Tietz A, Ludwig M, Dingkuhn M, Dorffling K. 1981. Effect of abscisic acid on the transport of assimilates in barley. Planta 152: 557561.
  • Todaka D, Matsushima H, Morohashi Y. 2000. Water stress enhances β-amylase activity in cucumber cotyledons. Journal of Experimental Botany 51: 739745.
  • Venkateswarlu B, Visperas RM. 1987. Source-sink relationships in crop plants. International Rice Research Institute Paper Series 125: 119.
  • Virmani SS. 2003. Advances in hybrid rice research and development in the tropics. In: VirmaniSS, MaoCX, HarbyB, eds. Hybrid rice for food security, poverty alleviation, and environmental protection. Los Baños, the Philippines: International Rice Research Institute, 720.
  • Wagner W, Wiemken A, Matile P. 1986. Regulation of fructan metabolism in leaves of barley (Hordeum vulgare L. cv. Gerbel). Plant Physiology 81: 444447.
  • Wang HL, Lee PD, Chen WL, Huang DJ, Su JC. 2000. Osmotic stress-induced changes of sucrose metabolism in cultured sweet potato cells. Journal of Experimental Botany 51: 19911999.
  • Wang F, Sanz A, Brenner ML, Smith A. 1993. Sucrose synthase, starch accumulation, and tomato fruit sink strength. Plant Physiology 101: 321327.
  • Wardlaw IF, Willenbrink J. 1994. Carbohydrate storage and mobilization by the culm of wheat between heading and grain maturity: the relation to sucrose synthase and sucrose-phosphate synthase. Austrian Journal of Plant Physiology 21: 255271.
  • Whittingham CP, Keys AJ, Bird IF. 1979. The enzymology of sucrose synthesis in leaves. In: GibbsM, LatzkoE, eds. Encyclopedia of plant physiology, Vol. 6. Berlin, Germany: Springer-Verlag, 313315.
  • Wilhelm EP, Mullen RE, Keeling PL, Singletary GW. 1999. Heat stress during grain filling in maize: effects on kernel growth and metabolism. Crop Science 39: 17331741.
  • Willienbrink J, Bonnett GD, Willenbrink S, Wardlaw IF. 1998. Changes of enzyme activities associated with the mobilization of carbohydrate reserves (fructans) from the stem of wheat during kernel filling. New Phytologist 139: 471478.
  • Yang J, Peng S, Visperas RM, Sanico AL, Zhu Q, Gu S. 2000a. Grain filling pattern and cytokinin content in the grains and roots of rice. Plant Growth Regulation 30: 261270.
  • Yang J, Zhang J, Huang Z, Zhu Q, Wang L. 2000b. Remobilization of carbon reserves is improved by controlled soil-drying during grain filling of wheat. Crop Science 40: 16451655.
  • Yang J, Zhang J, Wang Z, Zhu Q. 2001a. Activities of starch hydrolytic enzymes and sucrose-phosphate synthase in the stems of rice subjected to water stress during grain filling. Journal of Experimental Botany 52: 21692179.
  • Yang J, Zhang J, Wang Z, Zhu Q, Liu L. 2001b. Water deficit-induced senescence and its relationship to the remobilization of pre-stored carbon in wheat during grain filling. Agronomy Journal 93: 196206.
  • Yang J, Zhang J, Wang Z, Zhu Q, Wang W. 2001c. Hormonal changes in the grains of rice subjected to water stress during grain filling. Plant Physiology 127: 315323.
  • Yang J, Zhang J, Wang Z, Zhu Q, Wang W. 2001d. Remobilization of carbon reserves in response to water-deficit during grain filling of rice. Field Crops Research 71: 4755.
  • Yang J, Peng S, Zhang Z, Wang Z, Visperas RM, Zhu Q. 2002a. Grain and dry matter yields and partitioning of assimilates in japonica/indica hybrid rice. Crop Science 42: 766772.
  • Yang J, Zhang J, Huang Z, Wang Z, Zhu Q, Liu L. 2002b. Correlation of cytokinin levels in the endosperms and roots with cell number and cell division activity during endosperm development in rice. Annals of Botany 90: 369377.
  • Yang J, Zhang J, Liu L, Wang Z, Zhu Q. 2002c. Carbon remobilization and grain filling in japonica/indica hybrid rice subjected to post-anthesis water deficits. Agronomy Journal 94: 102109.
  • Yang J, Zhang J, Wang Z, Zhu Q, Liu L. 2002d. Abscisic acid and cytokinins in the root exudates and leaves and their relations with senescence and remobilization of carbon reserves in rice subjected to water stress during grain filling. Planta 215: 645652.
  • Yang J, Zhang J, Wang Z, Liu L, Zhu Q. 2003a. Postanthesis water deficits enhance grain filling in two-line hybrid rice. Crop Science 43: 20992108.
  • Yang J, Zhang J, Wang Z, Zhu Q. 2003b. Hormones in the grains in relation to sink strength and postanthesis development of spikelets in rice. Plant Growth Regulation 41: 185195.
  • Yang J, Zhang J, Wang Z, Zhu Q, Liu L. 2003c. Activities of enzymes involved in sucrose-to-starch metabolism in rice grains subjected to water stress during grain filling. Field Crops Research 81: 6981.
  • Yang J, Zhang J, Wang Z, Zhu Q, Liu L. 2003d. Involvement of abscisic acid and cytokinins in the senescence and remobilization of carbon reserves in wheat subjected to water stress during grain filling. Plant, Cell & Environment 26: 16211631.
  • Yang J, Zhang J, Wang Z, Xu G, Zhu Q. 2004a. Activities of key enzymes in sucrose-to-starch conversion in wheat grains subjected to water deficit during grain filling. Plant Physiology 135: 16211629.
  • Yang J, Zhang J, Wang Z, Zhu Q, Liu L. 2004b. Activities of fructan- and sucrouse-metabolizing enzymes in wheat stems subjected to water stress during grain filling. Planta 220: 331343.
  • Yang J, Zhang J, Ye Y, Wang Z, Zhu Q, Liu L. 2004c. Involvement of abscisic acid and ethylene in the responses of rice grains to water stress during filling. Plant, Cell & Environment 27: 10551064.
  • Yoshida S. 1972. Physiological aspects of grain yield. Annual Review of Plant Physiology 23: 437464.
  • Yuan LP. 1994. Increasing yield potential in rice by exploitation of heterosis. In: VirmaniSS, ed. Hybrid rice technology, new developments and future prospects. Los Baños, the Philippines: International Rice Research Institute, 16.
  • Yuan LP. 1998. Hybrid rice breeding in China. In: VirmaniSS, SiddiqEA, MuralidharanK, eds. Advances in hybrid rice technology. Proceedings of the Third International Symposium on Hybrid Rice, Hyderabad, India, 14–16 November 1996. Los Baños, the Philippines: International Rice Research Institute, 2733.
  • Yuan LP. 2003. Recent progress in breeding super hybrid rice in China. In: VirmaniSS, MaoCX, HarbyB, eds. Hybrid rice for food security, poverty alleviation, and environmental protection. Los Baños, the Philippines: International Rice Research Institute, 36.
  • Yue S. 1997. Effects of top-dressing at different developmental stages on the senescence of flag leaves and grain weight of winter wheat. Scientia Agricultura Sinica 29: 5969.
  • Yukawa T, Kobayashi M, Watanabe Y. 1995. Studies on fructan accumulation in wheat (Triticum asetivum L.). Japanese Journal of Crop Science 64: 801806.
  • Zahedi M, Jenner CF. 2003. Analysis of effects in wheat of high temperature on grain filling attributes estimated from mathematical models of grain filling. Journal of Agricultural Science 141: 203212.
  • Zeevaart JAD, Creelman RA. 1988. Metabolism and physiology of abscisic acid. Annual Review of Plant Physiology and Plant Molecular Biology 39: 439473.
  • Zhang J, Davies WJ. 1989. Sequential responses of whole plant water relations towards prolonged soil drying and the mediation by xylem sap ABA concentrations in the regulation of stomatal behaviour of sunflower plants. New Phytologist 113: 167174.
  • Zhang J, Sui X, Li B, Su B, Li J, Zhou D. 1998. An improved water-use efficiency for winter wheat grown under reduced irrigation. Field Crops Research 59: 9198.
  • Zhang J, Yang J. 2004. Crop yield and water use efficiency. In: BaconM, ed. Water use efficiency in plant biology. Oxford, UK: Blackwell Publishing, 189218.
  • Zhu Q, Zhang Z, Yang J, Wang Z. 1997. Source-sink characteristics related to the yield of inter-subspecific hybrid rice. Scientia Agricultura Sinica 30: 5259 (in Chinese with English abstract).