Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. JJ Van Oosten, S Wilkins, RT Besford. Regulation of the expression of photosynthetic nuclear genes by high
    CO 2 is mimicked by carbohydrates: A mechanism for the acclimation of photosynthesis to high CO 2. Plant Cell
    Environ 17:913–923, 1994.

  2. N Majeau, JR Coleman. Effect of CO 2 concentration on carbonic anhydrase and ribulose-1,5-bisphosphate
    carboxylase/oxygenase expression in pea. Plant Physiol 112:569–574, 1996.

  3. GY Nie, DL Hendrix, AN Weber, BA Kimball, SP Long. Increased accumulation of carbohydrates and de-
    creased photosynthetic gene transcript levels in wheat grown at an elevated CO 2 concentration in the field.
    Plant Physiol 108:975–983, 1995.

  4. RW Gesch, KJ Boote, JCV Vu, LH Allen Jr, G Bowes. Changes in growth CO 2 result in rapid adjustments of
    ribulose-1,5-bisphosphate carboxylase/oxygenase small subunit gene expression in expanding and mature
    leaves of rice. Plant Physiol 118:521–529, 1998.

  5. JCV Vu, RW Gesch, LH Allen Jr, KJ Boote, G Bowes. CO 2 enrichment delays a rapid, drought-induced
    decrease in Rubisco small subunit transcript abundance. J Plant Physiol 155:139–142, 1999.

  6. JCV Vu, RW Gesch, LH Allen Jr, G Bowes, KJ Boote. Soybean grows well as high as 40°C daytime temper-
    ature under a doubling of atmospheric CO 2. Plant Biology 99: Abstract No. 518. Final Program of the Annual
    Meeting of the American Society of Plant Physiologists, Baltimore, July 24–28, 1999.

  7. JJ Van Oosten, RT Besford. Some relationships between the gas exchange, biochemistry and molecular
    biology of photosynthesis during leaf development of tomato plants after transfer to different carbon dioxide
    concentrations. Plant Cell Environ 18:1253–1266, 1995.

  8. GP Bertoni, WM Becker. Expression of the cucumber hydroxypyruvate reductase gene is down-regulated by
    elevated CO 2. Plant Physiol 112:599–605, 1996.

  9. RF Sage, RK Monson. C 4 Plant Biology. San Diego: Academic Press, 1999, pp XIII–XV.

  10. J Lloyd, GD Farquhar.^13 C discrimination during CO 2 assimilation by the terrestrial biosphere. Oecologia
    99:201–215, 1994.

  11. TE Cerling, JM Harris, BJ MacFadden, MG Leakey, J Quade, V Eisenmann, JR Ehleringer. Global vegetation
    change through the Miocene/Pliocene boundary. Nature 389:153–158, 1997.

  12. RH Brown. Agronomic implications of C 4 photosynthesis. In: RF Sage, RK Monson, eds. C 4 Plant Biology.
    San Diego: Academic Press, 1999, pp 473–507.

  13. AK Knapp, E Medina. Success of C 4 photosynthesis in the field: Lessons from communities dominated by C 4
    plants. In: RF Sage, RK Monson, eds. C 4 Plant Biology. San Diego: Academic Press, 1999, pp 251–283.

  14. RF Sage, DA Wedin, M Li. The biogeography of C 4 photosynthesis: Patterns and controlling factors. In: RF
    Sage, RK Monson, eds. C 4 Plant Biology. San Diego: Academic Press, 1999, pp 313–373.

  15. JP Simon, C Potvin, BR Strain. Effects of temperature and CO 2 enrichment on kinetic properties of phospho-
    enol-pyruvate carboxylase in two ecotypes of Echinochloa crusgalli(L.) Beauv., a C 4 weed grass species.
    Oecologia 63:145–152, 1984.

  16. C Potvin, BR Strain. Photosynthetic response to growth temperature and CO 2 enrichment in two species of C 4
    grasses. Can J Bot 63:483–487, 1985.

  17. C Potvin, BR Strain. Effects of CO 2 enrichment and temperature on growth in two C 4 weeds,Echinochloa
    crus-galliandEleusine indica. Can J Bot 63:1495–1499, 1985.

  18. LH Ziska, JA Bunce. Influence of increasing carbon dioxide concentration on the photosynthetic and growth
    stimulation of selected C 4 crops and weeds. Photosynth Res 54:199–208, 1997.

  19. FB Fritschi, KJ Boote, LE Sollenberger, LH Allen Jr, TR Sinclair. Carbon dioxide and temperature effects on
    forage establishment: Photosynthesis and biomass production. Global Change Biol 5:441–453, 1999.

  20. DH Greer, WA Laing, BD Campbell. Photosynthetic responses of thirteen pasture species to elevated CO 2 and
    temperature. Aust J Plant Physiol 22:713–722, 1995.

  21. DR LeCain, JA Morgan. Growth, gas exchange, leaf nitrogen and carbohydrate concentrations in NAD-ME
    and NADP-ME C 4 grasses grown in elevated CO 2. Physiol Plant 102:297–306, 1998.

  22. JP Maroco, GE Edwards, MSB Ku. Photosynthetic acclimation of maize to growth under elevated levels of
    carbon dioxide. Planta 210:115–125, 1999.

  23. LH Allen Jr, JCV Vu, JD Ray. Sugarcane responses to carbon dioxide, temperature, and water table. 1998
    Annual Meeting Abstracts. American Society of Agronomy, Baltimore, Oct. 18–22, 1998. Abstract page 20,
    Division A-3.

  24. JCV Vu, LH Allen Jr, G Bowes. Growth and photosynthesis responses of sugarcane to high CO 2 and temper-
    ature. Plant Biology 98: Abstract No 448. Final Program of the Annual Meeting of the American Society of
    Plant Physiologists, Madison, WI, June 27–July 1, 1998.

  25. AJ Jarvis, TA Mansfield, WJ Davies. Stomatal behaviour, photosynthesis and transpiration under rising CO 2.
    Plant Cell Environ 22:639–648, 1999.

  26. BG Drake, PW Leadly. Canopy photosynthesis of crops and native plant communities exposed to long-term
    elevated CO 2. Plant Cell Environ 14:853–860, 1991.

  27. CE Owensby, PI Coyne, JM Ham, LM Auen, AK Knapp. Biomass production in a tallgrass prairie ecosystem
    exposed to ambient and elevated CO 2. Ecol Appl 3:644–653, 1993.

  28. AB Samarakoon, RM Gifford. Soil water content under plants at high CO 2 concentration and interactions with
    the direct CO 2 effects: A species comparison. J Biogeogr 22:193–202, 1995.


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