Black CC, Tu Z-P, Counce PA, Yao P-F, Angelov MN. 1995. An integration of photosynthetic traits and mechanisms that can increase crop photosynthesis and grain production. Photosynthesis Res. 46:169175.
Cheesman JM, Clough BF, Carter DR, Lovelock CE, Eong OJ, Sim RG. 1991. The analysis of photosynthetic performance in leaves under field conditions: a case study using Bruguiera mangroves. Photosynthesis Res. 29:11-22. Hidema J, Makino A, Mae T, Ojima K. 1991. Photosynthetic characteristics of rice leaves aged under different irradiances from full expansion through senescence. Plant Physiol. 97:1287-1293. Horton P. 1999. Are grana required for the regulation of light harvesting? Aust. J. Plant Physiol. 26:659669.
Horton P. 2000. Prospects for crop improvement through the genetic manipulation of photosynthesis:
morphological and biochemical aspects of light capture. J. Exp. Bot. 51:475-485. Horton P, Lee PJ, Ferny hough P. 1990. Emerson enhancement, photosynthetic control and protein phosphorylation in isolated maize mesophyll chloroplasts: dependence upon carbon metabolism. Biochim. Biophys. Acta 1017:160-166.
Huang L-K, Osmond CB, Terashima I. 1989. Chilling injury in mature leaves of rice. II. Varietal differences in the response to interactions between low temperature and light measured by chlorophyll fluorescence at 77K and the quantum yield of photosynthesis. Aust. J. Plant Physiol. 16:339-352.
Khush GS, Peng S. 1996. Breaking the yield frontier of rice. In: Reynolds MP, Rajaram S, McNab A, editors. Increasing yield potential in wheat: breaking the barriers. Mexico: International Maize and Wheat Improvement Center (CIMMYT). p 11-19.
Leegood RC, Edwards G. 1996. Carbon metabolism and photorespiration: temperature dependence in relation to other environmental factors. In: Baker NR. editor. Photosynthesis and the environment. Dordrecht (Netherlands): Kluwer Academic Publishers, p 101-121.
Mann GC. 1999a. Crop scientists seek a new revolution. Science 283:310-314.
Mann GC. 1999b. Genetic engineers aim to soup up crop photosynthesis. Science 283:314-316.
Mitchell PL, Sheehy JE, Woodward FI. 1998. Potential yields and the efficiency of radiation use in rice. IRRI Discussion Paper Series No. 32. Manila (Philippines): International Rice Research Institute. 62 p.
Murchie EH, Chen Y-Z, Hubbart S, Peng S. Horton P. 1999. Interactions between senescence and leaf orientation determine in situ patterns of photosynthesis and photoinhibition in field-grown rice. Plant Physiol. 119:553-563.
Murchie EH, Horton P. 1998. Contrasting patterns of photosynthetic acclimation to the light environment are dependent on the differential expression of the responses to altered irradiance and spectral quality. Plant Cell Environ. 21:139-148.
Pastenes C, Horton P. 1996. Effect of high temperature on photosynthesis in beans. II. CO, assimilation and metabolite contents. Plant Physiol. 112:1253-1260.
Peng S, Cassman KG, Kropff MJ. 1995. Relationship between leaf photosynthesis and nitrogen content of field-grown rice in the tropics. Crop Sci. 35:1627-1630.
Peng S, Lanuza RC, Khush GS, Sanico AL, Vísperas RM. Garcia FV. 1998. Transpiration efficiencies of indica and improved tropical japónica rice grown under irrigated conditions. Euphytica 103:103108.
Sinclair TR, Sheehy JE. 1999. Erect leaves and photosynthesis in rice. Science 283:1456-1457.
Walters RG, Horton P. 1994. Acclimation of Arabidopsis ihaliana to the light environment: changes in composition of the photosynthetic apparatus. Planta 195:248-256.
Winder TL, Sun J, Okita TW, Edwards GE. 1998. Evidence for occurrence of feedback inhibition of photosynthesis in rice. Plant Cell Physiol. 39:813-820.
Yoshida S. 1981. Physiological analysis of rice yield. In: Fundamentals of rice crop science. Los Baños (Philippines): International Rice Research Institute, p 231-251.
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