Anwar, M.R., O'Leary, G., McNeil, D., Hossain, H. and Nelson, R. (2007) Climate change impact on rainfed wheat in south-eastern Australia. Proceedings of the 13th Australian Society of Agronomy Conference 2006. Field Crops Research 104, 139-147.
Araus, J.-L., Slafer, G.A., Reynolds, M.P. and Royo, C. (2002) Plant breeding and drought in C3 cereals: what should we breed for? Annals of Botany 89, 925-940.
Asseng, S., Jamieson, P.D., Kimball, B., Pinter, P., Sayre, K., Bowden, J.W. and Howden, S.W. (2004) Simulated wheat growth affected by rising temperature, increased water deficit and elevated atmospheric CO2. Field Crops Research 85, 85-102.
Brown, J.K.M. (2002) Yield penalties of disease resistance in crops. Current Opinion in Plant Biology 5, 339-344.
Cao, Y.J., Wei, Q., Liao, Y., Song, H.L., Li, X., Xiang, C.B. and Kuai, B.K. (2009) Ectopic over expression of AtHDG11 in tall fescue results in enhanced tolerance to drought and heat stress. Plant Cell Reports 28, 579-588.
Cassman, K.G. (2007) Climate change, biofuels, and global food security. Environmental Research Letters 2, Article 011002.
Castro, J.C., Dohleman, F.G., Bernacchi, C.J. and Long, S.P. (2009) Elevated CO2 significantly delays reproductive development of soybean under free-air concentration enrichment (FACE). Journal of Experimental Botany 60, 29452951.
David, S.G., William, E.E. and James, R.B. (1997) Climate change and forests in the Great Plains. BioScience 47, 287-294.
Estrella, N., Spark, T.H. and Menzel, A. (2007) Trends and temperature response in the phenology of crops in Germany. Global Change Biology 13, 1737-1747.
Foulkes, M.J., Scott, R.K. and Sylvester-Bradley, R. (2002) The ability of wheat cultivars to withstand drought in UK conditions: formation of grain yield. Journal of Agricultural Science 138, 153169.
Galmes, J., Flexas, J., Keys, A.J., Cifre, J., Mitchell, R.A.C., Madgwick, P.J., Haslam, R.P., Medrano,
H. and Parry, M.A.J. (2005) Rubisco specificity factor tends to be larger in plant species from drier habitats and in species with persistent leaves. Plant, Cell and Environment 28, 571579.
Ghannoum, O., Evans, J.R., Chow, W.-S., Andrews, T.J., Conroy, J.P. and von Caemmerer, S. (2005) Faster Rubisco is the key to superior nitrogen-use efficiency in NADP-malic enzyme relative to NAD-malic enzyme C4 grasses. Plant Physiology 137, 638-650.
Good, A.G., Johnson, S.J., De Pauw, M., Carroll, R.T., Savidov, N., Vidmar, J., Lu, Z., Taylor, G. and Stroeher, V. (2007) Engineering nitrogen use efficiency with alanine aminotransferase. Canadian Journal of Botany 85, 252-262.
Habash, D.Z., Bernard, S., Schondelmaier, J., Weyen, J. and Quarrie, S.A. (2007) The genetics of nitrogen use in hexaploid wheat: N utilisation, development and yield. Theoretical and Applied Genetics 114, 403-419.
Harrison, E.P., Willingham, N.M., Lloyd, J.C. and Raines, C.A. (1998) Reduced sedoheptulose-
I,7-bisphosphatase levels in transgenic tobacco lead to decreased photosynthetic capacity and altered carbohydrate accumulation. Planta 204, 27-36.
Hibberd, J.M., Sheehy, J.E. and Langdale, J.A. (2008) Using C4 photosynthesis to increase the yield of rice - rationale and feasibility. Current Opinion in Plant Biology 11, 228-231.
Intergovernmental Panel on Climate Change (IPPC) (2001) Climate Change 2001: Synthesis Report. Available at: http://www.ipcc.ch/ ipccreports/tar/vol4/index.php?idp=0 (accessed 21 September 2009).
Intergovernmental Panel on Climate Change (IPPC) (2009) Intergovernmental Panel on Climate Change. Available at: http://www.ipcc. ch/ (accessed 5 August 2009).
Jackson, S.T. and Overpeck, J.T. (2000) Responses of plant populations and communities to environmental changes of the late Quaternary. Paleobiology 26, 194-220.
Kebeish, R., Niessen, M., Thiruveedhi, K., Bari, R., Hirsch, H.-J., Rosenkranz, R., Stabler, N.,
Schonfeld, B., Kreuzaler, F. and Peterhansel, C. (2007) Chloroplastic photorespiratory bypass increases photosynthesis and biomass production in Arabidopsis thaliana. Nature Biotechnology 25, 593-599.
Lefebvre, S., Lawson, T., Zakhleniuk, O.V., Lloyd, J.C. and Raines, C.A. (2005) Increased sedoheptulose-1,7-bisphosphatase activity in transgenic tobacco plants stimulates photosynthesis and growth from an early stage in development. Plant Physiology 138, 451460.
Lemaux, PG. (2009) Genetically engineered plants and foods: a scientist's analysis of the issues (Part II). Annual Review of Plant Biology 60, 511-559.
Long, S.P., Ainsworth, E.A., Leakey, A.D.B., Nosberger, J. and Ort, D.R. (2006a) Food for thought: lower-than-expected crop yield stimulation with rising CO2 concentrations. Science 312, 1918-1921.
Long, S.P, Zhu, X.-G., Naidu, S.L. and Ort, D.R. (2006b) Can improvement in photosynthesis increase crop yields? Plant, Cell and Environment 29, 315-330.
Lu, C.G., Hawkesford, M.J., Barraclough, P.B., Poulton, PR., Wilson, I.D., Barker, G.L. and Edwards, K.J. (2005) Markedly different gene expression in wheat grown with organic or inorganic fertilizer. Proceedings of the Royal Society B: Biological Sciences 272, 19011908.
Lynch, J.P. (2007) Roots of the second green revolution. Australian Journal of Botany 55, 493-512.
Matsui, T., Namuco, O.S., Ziska, L.H. and Horie, T. (1997) Effect of high temperature and CO2 concentration on spikelet sterility in indica rice. Field Crops Research 51, 213-219.
Miller, A., Tsai, C.H., Hemphill, D., Endres, M., Rodermel, S. and Spalding, M. (1997) Elevated CO2 effects during leaf ontogeny. A new perspective on acclimation. Plant Physiology 115, 1195-1200.
Mitchell, R.A.C., Theobald, J.C., Parry, M.A.J. and Lawlor, D.W. (2000) Is there scope for improving balance between RuBP-regeneration and carboxylation capacities in wheat at elevated
CO2? Journal of Experimental Botany 51, 3913972.
Moore, B.D., Cheng, S.H., Sims, D. and Seemann, J.R. (1999) The biochemical and molecular basis for photosynthetic acclimation to elevated atmospheric CO2. Plant, Cell and Environment 22, 567-582.
Nicolas, M.E., Gleadow, R.M. and Dalling, M.J. (1984) Effects of drought and high-temperature on grain-growth in wheat. Australian Journal of Plant Physiology 11, 555-566.
Ortiz-Monasterio, J.I., Sayre, K.D., Rajaram, S. and McMahon, M. (1997) Genetic progress in wheat yield and nitrogen use efficiency under four nitrogen rates. Crop Science 37, 898-904.
Parry, M.A.J, Andralojc, P.J., Mitchell, R.A.C., Madgwick, P.J. and Keys, A.J. (2003a) Manipulation of Rubisco: its amount, activity, function and regulation. Journal of Experimental Botany 54, 1321-1333.
Parry, M.A.J., Carvalho, J.F.C., Madgwick, P.J., Keys, A.J., Beale, M., Ward, J. and Lea, P.J. (2003b) Short circuiting photorespiration. Plant Biology 379. Available at: http://abstracts.aspb. org/pb2003/public/M08/5020.html (accessed 6 December 2009).
Parry, M.A.J., Flexas, J. and Medrano, H. (2005) Prospects for crop production under drought: research priorities and future directions. Annals of Applied Biology 147, 211-226.
Parry, M.A.J., Madgwick, P.J., Carvalho, J.F.C. and Andralojc, P.J. (2007) Prospects for increasing photosynthesis by overcoming the limitations of Rubisco. Journal of Agricultural Science 145, 31-43.
Parry, M.A.J., Madgwick, P.J., Bayon, C., Tearall, K., Hernandez-Lopez, A., Baudo, M., Rakszegi, M., Hamada, W., Al-Yassin, A., Ouabbou, H., Labhilili, M. and Phillips, A. (2009) Mutation discovery for crop improvement. Journal of Experimental Botany 60, 2817-2825.
Paul, M.J. and Foyer, C.H. (2001) Sink regulation of photosynthesis. Journal of Experimental Botany 52, 1383-1400.
Peng, S., Huang, J., Sheehy, J.E., Laza, R.C., Visperas, R.M., Zhong, X., Centeno, G.S., Khush, G.S. and Cassman, K.G. (2004) Rice yields decline with higher night temperature from global warming. Proceedings of the National Academy of Sciences USA 101, 99719975.
Porter, J.R. (2005) Rising temperatures are likely to reduce crop yields. Nature 436, 174.
Remy, M., Remy, B., Stefan, B., Andreas, S.B. and Hans, J.W. (2003) Effect of CO2 enrichment on growth and daily radiation use efficiency of wheat in relation to temperature and growth stage. European Journal of Agronomy 19, 411425.
Reynolds, M., Foulkes, M.J., Slafer, G.A., Berry, P., Parry, M.A.J., Snape, J.W. and Angus, W.J. (2009) Raising yield potential in wheat. Journal of Experimental Botany 60, 1-20.
Saini, H.S. and Aspinall, D. (1982) Sterility in wheat (Triticum aestivum L.) induced by water stress or high temperature: possible mediation by abscisic acid. Australian Journal of Plant Physiology 9, 529-537.
Sawahel, W. (2007) Improved performance of transgenic glycinebetaine-accumulating rice plants under drought stress. Biologia Plantarum 47, 39-44.
Shrawat, A.K., Carroll, R.T., DePauw, M., Taylor, G.J. and Good, A.G. (2008) Genetic engineering of improved nitrogen use efficiency in rice by the tissue-specific expression of alanine aminotransferase. Plant Biotechnology Journal 6, 722-732.
Springer, C.J. and Ward, J.K. (2007) Flowering time and elevated atmospheric CO2. New Phytologist 176, 243-255.
Subbarao, G.V., Tomohiro, B., Masahiro, K., Osamu, I., Samejima, H., Wang, H.Y., Pearse, S.J., Gopalakrishnan, S., Nakahara, K., Zakir Hossain, A.K.M., Tsujimoto, H. and Berry, W.L. (2007) Can biological nitrification inhibition (BNI) genes from perennial Leymus racemosus (Triticeae) combat nitrification in wheat farming? Plant and Soil 299, 55-64.
Takeda, S. and Matsuoka, M. (2008) Genetic approaches to crop improvement: responding to environmental and population changes. Nature Reviews Genetics 9, 444-457.
Tamoi, M., Nagaoka, M., Miyagawa, Y. and Shigeoka, S. (2006) Contribution of fructose-1,6-bisphosphatase and sedoheptulose-1,7-bisphosphatase to the photosynthetic rate and carbon flow in the Calvin cycle in transgenic plants. Plant and Cell Physiology 47, 380-390.
Taub, D.R. and Wang, X. (2008) Why are nitrogen concentrations in plant tissues lower under elevated CO2? A critical examination of the hypotheses. Journal of Integrative Plant Biology 50, 1365-1374.
Taub, D.R., Miller, B. and Allen, H. (2008) Effects of elevated CO2 on the protein concentration of food crops: a meta-analysis. Global Change Biology 14, 565-575.
Tilman, D., Fargione, J., Wolff, B., D'Antonio, C., Dobson, A., Howarth, R., Schindler, D., Schlesinger, W.H., Simberloff, D. and Swackhamer, D. (2001) Forecasting agriculturally driven global environmental change. Science 292, 281-284.
West, M.A.L., Kim, K., Kliebenstein, D.J., van Leeuwen, H., Michelmore, R.W., Doerge, R.W. and Clair, D.A.S. (2007) Global eQTL mapping reveals the complex genetic architecture of transcript-level variation in Arabidopsis. Genetics 175, 1441-1450.
Whitney, S.M. and Andrews, T.J. (2001) Plastome-encoded bacterial ribulose-1,5-bisphosphate carboxylase/oxygenase (RubisCO) supports photosynthesis and growth in tobacco. Proceedings of the National Academy of Sciences USA 98, 14738-14743.
Whitney, S.M. and Sharwood, R.E. (2007) Linked Rubisco subunits can assemble into functional oligomers without impeding catalytic performance. Journal of Biological Chemistry 282, 3809-3818.
Whitney, S.M., Baldet, P., Hudson, G.S. and Andrews, T.J. (2001) Form I Rubiscos from non-green algae are expressed abundantly but not assembled in tobacco chloroplasts. Plant Journal 26, 535-547.
Wojciechowski, T., Gooding, M.J., Ramsay, L. and Gregory, P.J. (2009) The effects of dwarfing genes on seedling root growth of wheat. Journal of Experimental Botany 60, 2565-2573.
Yan, Y., Ohara, T. and Akimoto, H. (2003) Development of region-specific emission factors and estimation of methane emission from rice fields in the East, Southeast and South Asian countries. Global Change Biology 9, 237-254.
Yu, H., Chen, X., Hong, Y.Y., Wang, Y., Xu, P., Ke, S.D., Lui, H.Y., Zhu, J.K., Oliver, D.J. and Xiang, C.B. (2008) Activated expression of an Arabidopsis HD-START protein confers drought tolerance with improved root system and reduced stomatal density. Plant Cell 20, 11341151.
Zhu, X.G., Portis, A. and Long, S.P. (2004) Would transformation of C3 crop plants with foreign Rubisco increase productivity? A computational analysis extrapolating from kinetic properties to canopy photosynthesis. Plant, Cell and Environment 27, 155-165.
Ziska, L.H. (2008) Three-year field evaluation of early and late 20th century spring wheat cultivars to projected increases in atmospheric carbon dioxide. Field Crops Research 108, 54-59.
Was this article helpful?