SEARCH

SEARCH BY CITATION

References

  • Amthor J.S. (2000) The McCree-de Wit-Penning de Vries-Thornley respiration paradigms: 30 years later. Annals of Botany 86, 120.
  • Asseng S., Foster I. & Turner N.C. (2011) The impact of temperature variability on wheat yields. Global Change Biology 17, 9971012.
  • Barker T., Bashmakov I., Bernstein L., et al. (2007) Technical summary. In Climate Change 2007: Mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (eds B. Metz , O.R. Davidson , P.R. Bosch , R. Dave & L.A. Meyer ). Cambridge University Press, Cambridge, UK.
  • Bennetzen E.H., Smith P., Soussana J.F. & Porter J.R. (2012) Identity-based estimation of greenhouse gas emissions from crop production: case study from Denmark. European Journal Agronomy 41, 6672.
  • Boote K.J., Jones J., White J., Asseng S. & Lizaso J. (2013) Putting mechanisms into crop production models. Plant, Cell & Environment. doi: 10.1111/pce.12119. (in press).
  • Castro J.C., Dohleman F.G., Bernacchi C.J. & Long S.P. (2009) Elevated CO2 significantly delays reproductive development of soybean under Free-Air Concentration Enrichment (FACE). Journal of Experimental Botany 60, 29452951.
  • Challinor A.J., Wheeler T.R., Craufurd P.Q. & Slingo J.M. (2005) Simulation of the impact of high temperature stress on annual crop yields. Agricultural and Forest Meteorology 135, 180189.
  • Ewert F. & Porter J.R. (2000) Modelling the effects of ozone exposure on wheat in response to elevated CO2 and climatic conditions: short term and seasonal responses of leaf photosynthesis. Global Change Biology 6, 735750.
  • Goudriaan J. & Christensen S. (1993) Deriving light interception and biomass spectral reflectance ratio. Remote Sensing of the Environment 43, 8795.
  • Hay R.K.M. & Porter J.R. (2006) The Physiology of Crop Yield. Blackwell Scientific, Oxford, UK.
  • Kimball B. (1983) Carbon dioxide and agricultural yield: an assemblage and analysis of 430 prior observations. Agronomy Journal 75, 779788.
  • Large E.C. (1946) The Advance of the Fungi. Jonathan Cape, London, UK.
  • Le Quéré C., Raupach M.R., Canadell J.G., et al. (2009) Trends in the sources and sinks of carbon dioxide. Nature Geoscience 2, 831836.
  • Lobell D.B., Banziger M., Magorokosho C. & Vivek B. (2011) Nonlinear heat effects on African maize as evidenced by historical yield trials. Nature Climate Change 1, 4245.
  • Lobell D.B., Sibley A. & Ortiz-Monastero J.I. (2012) Extreme heat effects on wheat senescence in India. Nature Climate Change 2, 186189.
  • McCree K.J. (1974) Equations for the rate of dark respiration of white clover and grain sorghum, as functions of dry weight, photosynthetic rate, and temperature. Crop Science 14, 509514.
  • Monteith J.L. (1977) Climate and the efficiency of crop production in Britain. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences 281, 277294.
  • Nakicenovic N. (2004) Socioeconomic driving forces of emissions scenarios. In The Global Carbon Cycle: Integrating Humans, Climate, and the Natural World (eds M.R. Raupach & C.B. Field ), pp. 267292. Island Press, Washington, USA.
  • van Noordwijk M. & de Willigen P. (1986) Quantitative root ecology as element of soil fertility theory. Netherlands Journal of Agricultural Science 34, 273281.
  • Palosuo T., Kersebaum K.C., Angulo C., et al. (2011) Simulation of winter wheat and its variability in different climates of Europe: a comparison of eight crop growth models. European Journal of Agronomy 35, 103114.
  • Porter J.R. (1993) AFRCWHEAT2: A model of the growth and development of wheat incorporating responses to water and nitrogen. European Journal of Agronomy 2, 6477.
  • Rivington M. & Koo J. (2011) Report on the Meta-Analysis of Crop Modelling for Climate Change. CCAFS, Copenhagen, Denmark.
  • Russell G., Jarvis P.G. & Monteith J.L. (1989) Absorption of radiation by canopies and stand growth. In Plant Canopies: Their Growth, Form and Function (eds G. Russell , B. Marshall & P.G. Jarvis ), pp. 2140. Cambridge University Press, Cambridge, UK.
  • Sanchez B.F. (2010) Climate Change: Temperature and Extreme Events Effects on Growth and Development of Rice. Faculty of Life Sciences, University of Copenhagen, Copenhagen, Denmark.
  • Semenov M.A. & Porter J.R. (1995) Climatic variability and the modelling of crop yields. Agricultural and Forest Meteorology 73, 265283.
  • Semenov M.A. & Shewry P.R. (2011) Modelling predicts that heat stress, not drought, will increase vulnerability of wheat in Europe. Nature Scientific Reports. doi: 10.1038/srep00066.
  • Stockle C.O., Martin S. & Campbell G.S. (1994) CropSyst, a cropping systems model: water/nitrogen budgets and crop yield. Agricultural Systems 46, 335359.
  • Tardieu F. & Hammer G. (2012) Designing crops for new challenges. European Journal of Agronomy 42, 12.
  • Wheeler T. (2012) Wheat crops feel the heat. Nature Climate Change 2, 152153.
  • Wollenweber B., Porter J.R. & Schellberg J. (2003) Lack of interaction between extreme high temperature events at vegetative and reproductive growth stages in wheat. Journal of Agronomy and Crop Science 189, 142150.
  • Zhang X., Wollenweber B., Jiang D., et al. (2008) Water deficits and heat shock effects on photosynthesis of a transgenic Arabidopsis thaliana constitutively expressing ABP9, a bZIP transcription factor. Journal of Experimental Botany 59, 839848.