SEARCH

SEARCH BY CITATION

References

  • Abou-Hussein, S. D. 2012. Climate change and its impact on the productivity and quality of vegetable crops (review article). J. Appl. Sci. Res. 8:43594383.
  • Allen, R. G., L. S. Pereira, D. Raes, and M. Smith. 1998. Crop evapotranspiration - Guidelines for computing crop water requirements - FAO Irrigation and drainage paper 56.
  • Amthor, J. S. 2001. Effects of atmospheric CO2 concentration on wheat yield: review of results from experiments using various approaches to control CO2 concentration. Field Crops Res. 73:134.
  • Baker, J. T. Jr, and L. H. Allen. 1993. Contrasting crop species responses to CO2 and temperature: rice, soybean and citrus. Vegetatio 104:239260.
  • Ceulemans, R., M. E. Jach, R. Van de Velde, J.X. Lin, and M. Stevens. 2002. Elevated atmospheric CO2 alters wood production, wood quality and wood strength of Scotts pine (Pinus Sylvestris L.) after three years of enrichment. Glob. Change Biol. 8:153162.
  • Challinor, A. J., and T. R. Wheeler. 2008. Crop yield reduction in the tropics under climate change: processes and uncertainties. Agric. For. Meteorol. 148:343356.
  • Dhakhwa, G. B., and C. L. Campbell. 1998. Potential effects of differential day-night warming in global Climate change on crop production. Clim. Change 40:647667.
  • Dong, W. J., Y. L. Tian, B. Zhang, J. Chen, and W. J. Zhang. 2011. Effects of asymmetric warming on grain quality and related key enzymes activities for Japonica Rice (Nanjing 44) under FATI facility. Acta Agron. Sin. 37:832841.
  • Drake, B. G., M. A. Gonzales-Meler, and S. P. Long. 1997. More efficient plants: a consequence of rising atmospheric CO2?. Annu. Rev. Plant Physiol. Plant Mol. Biol. 48:607637.
  • Fang, S. B., K. Y. Tan, S. X. Ren, X. S. Zhang, and J. F. Zhao. 2012. Fields experiments in North China show no decrease in winter wheat yields with night temperature increased by 2.0-2.5°C. Sci. China Earth Sci. 55:10211027.
  • Garcia, R. L., S. P. Long, G. W. Wall, C. P. Osborne, B. A. Kimball, G. Y. Nie, et al. 1998. Photosynthesis and conductance of spring-wheat leaves: field response to continuous free-air atmospheric CO2 enrichment. Plant, Cell Environ. 21:659669.
  • Guo, R. P., Z. H. Lin, X. G. Mo, and C. L. Yang. 2010. Responses of crop yield and water use efficiency to climate change in the North China Plain. Agric. Water Manag. 97:11851194.
  • Hou, R. X., Z. Ouyang, Y. S. Li, G. V. Wilson, and H. X. Li. 2012. Is the change of winter wheat yield under warming caused by shortened reproductive period? Ecol. Evol. 2:29993008.
  • IPCC, 2001. Climate change 2001. Pp. 525638 in J. T. Houghton, Y. Ding, D. J. Griggs, M. Noguer, P. J. van der Linden, X. Dai, et al. eds. The scientific basis. Contribution of Working Group I to the third assessment report of the Intergovernmental Panel on Climate Change. Cambridge Univ. Press, Cambridge, UK and New York, USA.
  • IPCC, 2007. Summary for policymakers. Pp. 615 in S. Solomon, D. Qin, M. Manning, Z. Chen, M. Marquis, and K. B. Averyt, et al., eds. Climate change 2007: the physical science basis. Contribution of Working Group I to the fourth assessment report of the Intergovernmental Panel on Climate Change. Cambridge Univ. Press, Cambridge, UK and New York, NY, USA.
  • Karl, T. R., P. D. Jones, R. W. Knight, G. Kukla, and N. Plummer. 1993. Asymmetric trends of daily maximum and minimum temperature. Papers in natural resources. Paper 185.
  • Kimball, B. A., and S. B. Idso. 1983. Increasing atmospheric CO2 effects on crop yield, water use and climate. Agric. Water Manag. 7:5572.
  • Krishnan, P., D. K. Swain, and B. C. Bhaskar. 2007. Impacts of elevated CO2 and temperature on rice yield and methods of adaptation as evaluated by crop simulation studies. Agric. Ecosyst. Environ. 122:233242.
  • Lal, M., H. K. Sing, L. S. Rathore, G. Srinivasan, and S. A. Sasseendran. 1998. Vulnerability of rice and wheat yields in NW India to future changes in climate. Agric. For. Meteorol. 89:101114.
  • Lal, M., H. K. Sing, G. Srinivasan, L. S. Rathore, D Naidu, and C. N. Tripathi. 1999. Growth and yield responses of soybean in Madhya Pradesh, India to climate variability and change. Agric. For. Meteorol. 93:5370.
  • Lawlor, D. W., and A. J. Keys. 1993. Understanding photosynthetic adaptation to changing climate. Pp. 85106 in L. Fowden, T. A. Mansfield and J. Stoddart, eds. Plant adaptation to environmental stress. Chapman & Hall, London.
  • Lobell, D. B. 2007. Changes in diurnal temperature rand and national cereal yields. Agric. For. Meteorol. 145:229238.
  • Lobell, D. B., and J. I. Ortiz-Monasterio. 2007. Impacts of day versus night temperatures on spring wheat yields: a comparison of empirical and CERES model predictions in three locations. Agron. J. 99:469477.
  • Lobell, D. B., W. Schlenker, and J. Costa-Roberts. 2011. Climate trends and global crop production since 1980. Science 333:616620.
  • Lovelli, S., M. Perniola, T. Di Tommaso, D. Ventrella, M. Moriondo, and M. Amato 2010. Effects of rising atmospheric CO2 on crop evapotranspiration in a Mediterranean area. Agric. Water Manag. 97:12871292.
  • Ludwig, F., and S. Asseng. 2006. Climate change impacts on wheat production in a Mediterranean environment in Western Australia. Agric. Syst. 90:159179.
  • Mohammed, A. Z., and L. Tarpley. 2009. Impact of high nighttime temperature on respiration, membrane stability, antioxidant capacity, and yield of rice plants. Crop Sci. 49:313322.
  • Morison, J. I. L. 1985. Sensitivity of stomata and water use efficiency to high CO2. Plant, Cell Environ. 8:467474.
  • Ortiz, R., K. D. Sayre, B. Govaerts, R. Gupta, G. V. Subbarao, T. Ban, et al. 2008. Climate change: can wheat beat the heat? Agric. Ecosyst. Environ. 126:4658.
  • Peng, S. B., J. L. Huang, J. E. Sheehy, R. C. Laza, R. M. Visperas, X. Zhong, et al. 2004. Rice yields decline with higher night temperature from global warming. Proc. Natl Acad. Sci. 101:99719975.
  • Peterson, T. C., V. S. Golubev, and P. Y. Groisman. 1995. Evaporation losing its strength. Nature 377:687688.
  • Polley, H. W. 2002. Implications of atmospheric and climatic change for crop yield and water use efficiency. Crop Sci. 42:131140.
  • Prasad, P. V. V., S. R. Pisipati, Z. Ristic, U. Bukovnik, and A. K. Fritz. 2008. Impacts of nighttime temperature on physiology and growth of spring wheat. Crop Sci. 48:23722380.
  • Qiao, Y. Z., H. Z. Zhang, B. D. Dong, C. H. Shi, Y. X. Li, H. M. Zhai, et al. 2010. Effects of elevated CO2 concentration on growth and water use efficiency of winter wheat under two soil water regimes. Agric. Water Manag. 97:17421748.
  • Ren, G. Y., Z. Y. Chu, Y. Q. Zhou, J. Y. Zheng, T. W. Wu, G. L. Tang, et al. 2005. Recent progresses in studies of regional temperature changes in China. Clim. Environ. Res. 10:701716.
  • Rosenzweig, C., and F. N. Tubiello. 1996. Effects of changes in minimum and maximum temperature on wheat yields in the central US. A simulation study. Agric. For. Meteorol. 80:215230.
  • Tan, K. Y., S. B. Fang, S. X. Ren, and X. S. Zhang. 2009. Asymmetric trends of daily maximum and minimum temperature in global warming and its effects on agriculture ecosystems. J. Appl. Meteorol. Sci. 22:634641.
  • Tennant, D. 1975. A test of a modified line intersect method of estimating root length. J. Ecol. 63:9951001.
  • Todisco, F., and L. Vergni. 2008. Climatic changes in Central Italy and their potential effects on corn water consumption. Agric. For. Meteorol. 148:111.
  • Xia, J., Y. Han, Z. Zhang, Z. Zhang, and S. Wan. 2009. Non-additive effect of day and night warming on soil respiration in a temperate steppe. Biogeosci. Discuss. 6:43854411.
  • Zhang, Y. B., Q. Y. Tang, S. B. Peng, Y. B. Zou, S. Chen, W. J. Shi, et al. 2013. Effects of high night temperature on yield and agronomic traits of irrigated rice under field chamber system condition. Aust. J. Crop Sci. 7:713.