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2014 | 06 |
Tytuł artykułu

Implications of global warming on changing trends in crop productivity - a review

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Evidence of changes in weather parameters like ambient temperature, precipitation, wind flow, etc., are prominently visible across the world. These changes have been reported to effect global crop yield. This review compiles both direct and indirect effects of climate change on global crop productivity with highlights on existing local and global scenarios. As a conclusion, it may be stated that thorough understanding of agricultural techniques and analysis of global change factors is highly essential for achieving sustainable agricultural yield over the upcoming years.
Wydawca
-
Rocznik
Tom
06
Opis fizyczny
p.16-29,fig.,ref.
Twórcy
autor
  • Department of Environmental Science, University of Calcutta, 51/2 Hazra Road, Kolkata - 700 019, India
autor
  • Department of Environmental Science, University of Calcutta, 51/2 Hazra Road, Kolkata - 700 019, India
  • Department of Environmental Science, University of Calcutta, 51/2 Hazra Road, Kolkata - 700 019, India
Bibliografia
  • [1] IPCC/WMO/UNEP, 1992. The Supplementary Report of the IPCC Scientific Assessment. In Climate Change. Houghton, J.T., Callander, B.A., and Varney, S.K. (eds.), Cambridge University Press, Cambridge, UK. p. 200.
  • [2] Intergovernmental Panel on Climate Change (IPPC), 1996. The Science of Climate Change. In Climate Change 1995. Cambridge University Press, Cambridge, UK.
  • [3] Allen, Jr., L.H., 1990. Plant Responses to Rising Carbon Dioxide and Potential Interactions with Air Pollutants. J. Environ. Qual. 19: 15-34.
  • [4] Kimball, B.A., 1983. Carbon Dioxide and Agricultural Yield. An Assemblage and Analysis of 430 Prior Observations, Agron. J. 75: 1211-1235.
  • [5] Kimball, B. A., 1983. Carbon Dioxide and Agricultural Yield. An Assemblage and Analysis of 770 Prior Observations, WCL Rep. 14, U. S. Water Conservation Laboratory, Phoenix, AZ, p. 71.
  • [6] Rogers, H. H. and Dahlman, R. C., 1993. Crop Response to CO2 Enrichment. Vegetatio 104-105: 117-131.
  • [7] Battisti, D. S. and Naylor, R. L. 2009 Historical warnings of future food insecurity with unprecedented seasonal heat. Science 323: 240-244.
  • [8] Intergovernmental Panel on Climate Change Special Report on Emissions Scenarios. Accessed from (http://www.grida.no/climate/ipcc/emission/076.htm) retrieved 26 June 2007.
  • [9] Fraser, E., 2008. Crop yield and climate change. Accessed from (http://www.vulnerable foodsystems.com). Retrieved on 14 September 2009.
  • [10] UN Report on Climate Change. Accessed from (http://www.ipcc.ch/SPM2feb07.pdf). Retrieved 25 June 2007 Archived (http://web.archive.org/20070621143239/http:/ /www.ipcc.ch/SPM2feb07.pdf) June 21, 2007 at the Wayback Machine.
  • [11] "Climate 'could devastate crops'" (http://news.bbc.co.uk/2/hi/science/nature/7220807 .stm) BBC News. 31 January 2008. http://news.bbc.co.uk/2/hi/science/nature/ 7220807.stm.
  • [12] Lobell DB, Burke MB, Tebaldi C, Mastrandrea MD, Falcon WP, Naylor RL (2008). "Prioritizing climate change adaptation needs for food security in 2030". Science 319 (5863): 607–10. doi:10.1126/science.1152339 (http://dx.doi.org/10.1126%2 Fscience.1152339) PMID 18239122 (//www.ncbi.nlm.nih.gov/pubmed/18239122).
  • [13] Olesen, J. E. and Bindi, M., 2002. Consequences of climate change for European agricultural productivity, land use and policy. Eur. J. Agron., 16: 239-262.
  • [14] Reilly, J. et al., 2003. US agriculture and climate change: new results. Clim. Change. 57: 43-69.
  • [15] Tubiello, F. N., Rosenzweig, C., Goldberg, R. A., Jagtap, S. & Jones, J. W. 2002 Effects of climate change on US crop production: simulation results using two different GCM scenarios. Part I: wheat, potato, maize, and citrus. Clim. Res. 20: 259-270.
  • [16] IPCC, 2007. 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 University Press. Cambridge, UK.
  • [17] Cure, J.D., Acock, B., 1986. Crop responses to carbon dioxide doubling: a literature survey. Agric. For Meteorol. 38: 127-145.
  • [18] Allen, L.H. Jr, Boote, K.J., Jones, J.W., Jones, P.H., Valle, R.R., Acock, B., Rogers, H.H. and Dahlman, R.C., 1987. Response of vegetation to rising carbon dioxide: photosynthesis, biomass and seed yield of soybean. Global Biogeochem Cycles 1: 1-14.
  • [19] Kimball, B. A., 1983. Carbon Dioxide and Agricultural Yield. An Assemblage and Analysis of 770 Prior Observations, WCL Rep. 14, U. S. Water Conservation Laboratory, Phoenix, AZ, p. 71.
  • [20] Rosenzweig, C. and Hillel, D., 1995. Potential impacts of climate change on agriculture and world food supply. Consequences Summer: 24: 32.
  • [21] Wheeler, T. R., Craufurd, P. Q., Ellis, R. H., Porter, J. R. and Prasad, P. V. V., 2000 Temperature variability and the yield of annual crops. Agric. Ecosyst. Environ. 82: 159-167.
  • [22] Wollenweber, B., Porter, J. R. and Schellberg, J. 2003 Lack of interaction between extreme high-temperature events at vegetative and reproductive growth stages in wheat. J. Agron. Crop Sci. 189, 142-150.
  • [23] Gornall, J., Betts, R., Burke, E., Clark, R., Camp, J., Willett, K.. and Wiltshire, A., 2010. Implications of climate change for agricultural productivity in the early twenty-first century, Phil. Trans. R. Soc. B 365.
  • [24] Holton, J. R., Curry, J. A. and Pyle, J. A., 2003. Encyclopedia of atmospheric sciences. New York, NY: Academic Press.
  • [25] Wiley Interdisciplinary Reviews: Climate Change, 2010. Drought under global warming: a review. Accessed from (http://onlinelibrary.wiley.com/doi/ 10.1002/ wcc.81/abstract), October 19, 2010.
  • [26] Drought modeling – A review. Accessed from (http://www.sciencedirect.com/ science/article/pii/S0022169411002393). J. Hydrol., 6 June 2011.
  • [27] USGCRP, 2009. Global Climate Change Impacts in the United States . Karl, T.R., J.M. Melillo, and T.C. Peterson (eds.). United States Global Change Research Program. Cambridge University Press, New York, NY, USA.
  • [28] IPCC, 2007. Summary for Policymakers: C. Current knowledge about future impacts. In Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (Parry, M.L., et al. (ed.)). Cambridge University Press. Cambridge, UK.
  • [29] NOAA reports 2005 global temperature similar to 1998 record warm year. Accessed from (http://www.publicaffairs.noaa.gov/releases2006/jan06/noaa06-013.html) (Press release). NOAA. 30th January, 2006.
  • [30] Sacks, W.J., Deryng, D., Foley, J.A. and Ramankutty, N., 2010. Crop planting dates: an analysis of global patterns. Glob. Ecol. Biogeogr. 19: 607-620.
  • [31] Monfreda C, Ramankutty N, Foley JA (2008) Farming the planet. 2. Geographic distribution of crop areas, yields, physiological types, and net primary production in the year 2000. Global Biogeochem Cycles 22: GB1022
  • [32] Peters, G.P., Marland, G., Le Quéré, C., Boden, T., Canadell, J.G., Raupach, M.R., 2011. Rapid growth in CO2 emissions after the 2008-2009 global financial crisis. Nat. Clim. Change. 2: 2-4.
  • [33] Global Carbon Project, 2011. Carbon budget and trends 2010. Accessed from (http:// www.globalcarbonproject.org/carbonbudget). Retrieved on 1st August, 2012.
  • [34] Stone, P., 2001. The effects of heat stress on cereal yield and quality. In Crop Responses and Adaptations to Temperature Stress. Basra, A.S. (ed). Food Products Press, Binghamton, NY, pp 243-291.
  • [35] Crafts-Brandner, S.J. and Salvucci, M.E., 2002. Sensitivity of photosynthesis in a C4 plant, maize, to heat stress. Plant Physiol., 129: 1773-1780.
  • [36] Willett, K.M., Gillett, N.P., Jones, P.D. and Thorne, P.W., 2007. Attribution of observed surface humidity changes to human influence. Nature, 449: 710-712.
  • [37] Ray, J.D., Gesch, R.W., Sinclair, T.R. and Hartwell, A.L., 2002. The effect of vapour pressure deficit on maize transpiration response to a drying soil. Plant Soil, 239: 113-121.
  • [38] Trnka, M., Olesen, J.E., Kersebaum, K.C., Skjelvåg, A.O., Eitzinger, J., Seguin, B., Peltonen-Sainio, P., Rötter, R., Iglesias, A. and Orlandini, S., 2011. Agroclimatic conditions in Europe under climate change. Glob. Change Biol., 17: 2298-2318.
  • [39] Ramankutty, N., Foley, J.A., Norman, J., McSweeney, K., 2002. The global distribution of cultivable lands: current patterns and sensitivity to possible climate change. Glob. Ecol. Biogeogr. 11: 377-392.
  • [40] Ziska, L.H., Blumenthal, D.M., Runion, G.B., Hunt, E.R. and Diaz-Soltero, H., 2011. Invasive species and climate change: an agronomic perspective. Clim. Change, 105: 13-42.
  • [41] Hatfield, J.L., Boote, K.J., Kimball, B.A., Ziska, L.H., Izaurralde, R.C., Ort, D., Thomson, A.M., Wolfe, D., 2011. Climate impacts on agriculture: implications for crop production. Agron. J., 103: 351-370.
  • [42] Intergovernmental Panel on Climate Change, 1996. Climate Change 1995, eds. Houghton J. T., Meira Filho, L. G., Callander, B. A., Harris, N., Kattenberg, A. and Maskell, K (Cambridge Univ. Press, Cambridge, U.K.).
  • [43] Andreae, M., 1995. In World Survey of Climatology, ed. Henderson-Sellers, A. (Elsevier, Amsterdam), Vol. 16, pp. 347-398.
  • [44] Hansen, J., Sato, M, Ruedy, R., Lacis, A. and Oinas, V., 2000. Global warming in the twenty-first century: An alternative scenario Proc. Natl. Acad. Sci., USA, 97(18): 9875-9880.
  • [45] Wilkinson, S., Mills, G., Illidge, R., Davies, W.J., 2012. How is ozone pollution reducing our food supply? J. Exp. Bot., 63: 527-536.
  • [46] Van Dingenen, R., Dentener, F.J., Raes, F., Krol, M.C., Emberson, L. and Cofala, J., 2009. The global impact of ozone on agricultural crop yields under current and future air quality legislation. Atmos. Environ., 43: 604-618.
  • [47] McKee, I.F., Bullimore, J.F., Long, S.P., 1997. Will elevated CO2 concentrations protect the yield of wheat from O-3 damage? Plant Cell Environ., 20: 77-84.
  • [48] McKee, I.F., Mulholland, B.J., Craigon, J., Black, C.R. and Long, S.P., 2000. Elevated concentrations of atmospheric CO2 protect against and compensate for O3 damage to photosynthetic tissues of field-grown wheat. New Phytol., 146: 427-435.
  • [49] Reynolds, M.P., Balota, M., Delgado, M., Amani, I. and Fischer, R.A., 1994. Physiological and morphological traits associated with spring wheat yield under hot, irrigated conditions. Aust. J. Plant Physiol., 21: 717-730.
  • [50] Biswas, D.K., Xu, H., Li, Y.G., Sun, J.Z., Wang, X.Z., Han, X.G. and Jiang, G.M., 2008. Genotypic differences in leaf biochemical, physiological and growth responses to ozone in 20 winter wheat cultivars released over the past. Glob. Change Biol., 14: 46-59.
  • [51] Asada, H. and Matsumoto, J., 2009. Effects of rainfall variation on rice production in the Ganges–Brahmaputra Basin. Clim. Res. 38: 249-260.
  • [52] Welch, J.R., Vincent, J.R., Auffhammer, M., Moya, P.F., Dobermann, A. and Dawe, D., 2010. Rice yields in tropical/subtropical Asia exhibit large but opposing sensitivities to minimum and maximum temperatures. Proc. Natl. Acad. Sci., USA, 107: 14562-14567.
  • [53] Easterling, W. E. et al. 2007. Food, fibre and forest products. In Climate change 2007: impacts, adaptation and vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Parry, M. L., Canziani, O. F., Palutikof, J. P., Linden P. J. v. d. and Hanson, C. E., (eds). Cambridge University Press, Cambridge, UK. pp. 273-313.
  • [54] Lobell B. D. and Gourdji M. S. 2012. The influence of climate change on global crop productivity. Plant Physiology, 160 (2012) 1686-1697.
  • [55] Solomon S., Plattner K-G., Knutti R., Friedlingstein P. (2009) Irreversible climate change due to carbon dioxide emissions, PNAS, 106(6); 1704-1709.
  • [56] L. U. Grema, A. B. Abubakar, O. O. Obiukwu, International Letters of Natural Sciences 3 (2013) 21-27.
  • [57] Hyginus A. Nwona, International Letters of Natural Sciences 4 (2013) 1-9.
  • [58] Schneider, SH (2007). "19.3.1 Introduction to Table 19.1" (http://www.ipcc.ch/publications_and_data/ar4/wg2/en/ch19s19-3-1.html) . In ML Parry, et al, (eds.). Chapter 19: Assessing Key Vulnerabilities and the Risk from Climate Change. Climate change 2007: impacts, adaptation and vulnerability: contribution of Working Group II to the fourth assessment report of the Intergovernmental Panel on Climate Change. Cambridge University Press (CUP): Cambridge, UK: Print version: CUP. This version: IPCC website.
  • [59] ISBN 0-521-88010-6. http://www.ipcc.ch/publications_and_data/ar4/wg2/en/ch19s19-3-1.html. Retrieved 2011-05-04.
Typ dokumentu
Bibliografia
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