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References

  • Acock B & Acock MC. 1989. Calculating air leakage rates in controlled- environment chambers containing plants. Agronomy Journal 81: 619623.
  • Amthor JS. 1989. Respiration and crop productivity. Berlin, Germany: Springer-Verlag.
  • Baker JT, Allen LH Jr, Boote KJ. 1990a. Growth and yield responses of rice to carbon dioxide concentration. Journal of Agricultural Science 115: 313320.
  • Baker JT, Allen LH Jr, Boote KJ, Jones P, Jones JW. 1990b. Rice photosynthesis and evapotranspiration in subambient, ambient, and superambient carbon dioxide concentration. Agronomy Journal 82: 834840.
  • Baker JT, Allen LH Jr, Boote KJ, Pickering NB. 1997. Rice responses to drought under carbon dioxide enrichment. 2. Photosynthesis and evapotranspiration. Global Change Biology 3: 129138.
  • Baker JT, Allen LH Jr, Boote KJ, Pickering NB. 2000. Direct effects of atmospheric carbon dioxide concentration on whole canopy dark respiration of rice. Global Change Biology 6: 275286.
  • Baker JT, Laugel F, Boote KJ, Allen LH Jr. 1992. Effects of daytime carbon dioxide concentration on dark respiration in rice. Plant, Cell & Environment 15: 231239.
  • Gifford RM. 1995. Whole plant respiration and photosynthesis of wheat under increased CO2 concentration and temperature: long-term vs short-term distinctions for modelling. Global Change Biology 1: 385396.
  • Grüters U. 1999. On the role of wheat stem reserves when source-sink balance is disturbed by elevated CO2. Journal of Applied Botany 73: 5562.
  • Imai K, Coleman DF, Yanagisawa T. 1985. Increase in atmospheric partial pressure of carbon dioxide and growth and yield of rice (Oryza sativa L.). Japanese Journal of Crop Science 54: 413418.
  • Jones P, Allen LH Jr, Jones JW, Boote KJ, Campbell WJ. 1984. Soybean canopy growth, photosynthesis, and transpiration response to whole-season carbon dioxide enrichment. Agronomy Journal 76: 633637.
  • Kim HY, Horie T, Nakagawa H, Wada K. 1996. Effects of elevated CO2 concentration and high temperature on growth and yield of rice. I. The effect on development, dry matter production and some growth characters. Japanese Journal of Crop Science 65: 634643.
  • Kimball BA. 1990. Exact equations for calculating air leakage rates from plant growth chambers. Agronomy Journal 82: 9981003.
  • Lawlor DW & Mitchell AC. 1991. The effects of increasing CO2 on crop photosynthesis and productivity: a review of field studies. Plant, Cell & Environment 14: 807814.
  • Luo Y, Hui D, Cheng W, Coleman JS, Johnson DW, Sims DA. 2000. Canopy quantum yield in a mesocosm study. Agricultural and Forest Meteorology 100: 3548.
  • Makino A, Harada M, Kaneko K, Mae T, Shimada T, Yamamoto N. 2000. Whole-plant growth and N allocation in transgenic rice plants with decreased content of ribulose-1,5-bisphosphate carboxylase under different CO2 partial pressures. Australian Journal of Plant Physiology 27: 112.
  • Makino A, Harada M, Sato T, Nakano H, Mae T. 1997. Growth and N allocation in rice plants under CO2 enrichment. Plant Physiology 115: 199203.
  • Monje O & Bugbee B. 1998. Adaptation to high CO2 concentration in an optimal environment: radiation capture, canopy quantum yield and carbon use efficiency. Plant, Cell & Environment 21: 315324.
  • Nakano H, Makino A, Mae T. 1997. The effect of elevated partial pressures of CO2 on the relationship between photosynthetic capacity and N content in rice leaves. Plant Physiology 115: 191198.
  • Reddy VR, Acock B, Acock MC. 1989. Seasonal carbon and nitrogen accumulation in relation to net carbon dioxide exchange in a carbon dioxide-enriched soybean canopy. Agronomy Journal 81: 7883.
  • Rowland-Bamford AJ, Baker JT, Allen LH Jr, Bowes G. 1991. Acclimation of rice to changing atmospheric carbon dioxide concentration. Plant, Cell & Environment 14: 577583.
  • Sage RF. 1994. Acclimation of photosynthesis to increasing atomospheric CO2: The gas exchange perspective. Photosynthesis Research 39: 351368.
  • Sicher RC. 1998. Yellowing and photosynthetic decline of barley primary leaves in response to atmospheric CO2 enrichment. Physiologia Plantarum 103: 193200.
  • Stitt M. 1991. Rising CO2 levels and their potential significance for carbon flow in photosynthetic cells. Plant, Cell & Environment 14: 741762.
  • Vu JCV, Allen LH Jr, Boote KJ, Bowes G. 1997. Effects of elevated CO2 and temperature on photosynthesis and rubisco in rice and soybean. Plant, Cell & Environment 20: 6876.
  • Wolfe DW, Gifford RM, Hilbert D, Luo Y. 1998. Integration of photosynthetic acclimation to CO2 at the whole-plant level. Global Change Biology 4: 879893.
  • Wolfenden J & Diggle PJ. 1995. Canopy gas exchange and growth of upland pasture swards in elevated CO2. New Phytologist 130: 369380.
  • Yoshida S. 1972. Physiological aspects of grain yield. Annual Review of Plant Physiology 23: 437464.
  • Ziska LH, Namuco O, Moya T, Quilang J. 1997. Growth and yield response of field-grown tropical rice to increasing carbon dioxide and air temperature. Agronomy Journal 89: 4553.