بررسی تأثیر تغییر اقلیم بر کشاورزی ایران: 1- پیش‌‎بینی وضعیت اگروکلیماتیک آینده

نوع مقاله : مقاله پژوهشی

نویسندگان

1 دانشگاه فردوسی مشهد

2 دانشگاه هرمزگان

چکیده

گرمایش جهانی و پی‌آمدهای ناشی از آن بسیاری از متغیرهای اقلیمی مؤثر در رشد و نمو گیاهان زراعی را تحت تأثیر قرار می‌دهد و پاسخ گیاهان به این امر تابع شدت و الگوی تغییرات می‌باشد. در این مطالعه تأثیر تغییر جهانی اقلیم بر شاخص‌های اقلیمی کشاورزی ایران برای سال 2050 میلادی (1430 شمسی) براساس سناریوی استاندارد IPCC توسط دو مدل گردش عمومی مورد ارزیابی قرار گرفت. نتایج نشان داد که میانگین دمای سالانه مناطق مختلف کشور تا سال هدف بین 5/3 تا 5/4 درجه سانتی‌گراد افزایش می‌یابد در حالی‌که میانگین بارش سالانه بین 7 تا 14 درصد کاهش خواهد یافت. به‌علاوه این تغییرات از غرب به شرق و از شمال به جنوب کشور شدیدتر خواهد بود. افزایش دما باعث طولانی‌تر شدن فصل رشد به دلیل افزایش تعداد روزهای بدون یخبندان می‌شود. البته کاهش بارش طول فصل خشک را از حدود 20 روز در مناطق غربی تا بیش از 30 روز در جنوب کشور افزایش خواهد داد که این امر به‌ویژه در مناطق کشت دیم از اهمیت بیشتری برخوردار است. افزایش دما همچنین میزان تبخیر و تعرق بالقوه سالانه را در سال هدف بین 18 تا 30 درصد افزایش می‌دهد و در نتیجه تفاوت بین میزان بارش و تبخیر و تعرق بالقوه یا شاخص کمبود بارش به‌طور قابل توجهی افزایش می‌یابد که عمدتاً به دلیل افزایش میزان تبخیر و تعرق خواهد بود. با وجودی‌که پی‌آمدهای تغییر اقلیم بر شاخص‌های اگروکلیماتیک تمامی مناطق کشور مؤثر می‌باشد، ولی نتایج این تحقیق نشان داد که بیشترین اثرات منفی به‌ترتیب در جنوب، شرق و مرکز کشور بروز کرده و کمترین اثرات در شمال و شرق کشور ظاهر خواهد شد.

کلیدواژه‌ها

مراجع

1. Aggarwal, P. K. 2003. Impact of climate change on Indian agriculture. Journal of Plant Biology 30: 189-198.
2. Allen, R. G., Pereira, I. S., Raes, D., and Smith, M. 1998. Crop evapotranspiration: Guidelines for computing requirements. Irrigation and Drinage Papre56. FAO, Rome.
3. Brown, R. A., and Rosenberg, N. J. 1999. Climate change impacts on the potential productivity of corn and winter wheat in their primary United States growing regions. Climate Change 41: 73.
4. Calderini, D. F., Savin, R., Abeledo, L. G., Reynolds, M. P., and Slafer, G. A. 2001. The importance of the period immediately pre‌ceding anthesis for grain weight determination in wheat. Euphytica 119: 199-204.
5. Carson, D. J. 1999. Climate modelling: achievements and prospects. Quarterly Journal of Royal Meteorological Society 125: 1-28.
6. Challinor, A. J., Wheeler, T. R., and Slingo, J. M. 2005. Simulation of the impact of high temperature stress on the yield of an annual crop. Agricultural and Forest Meteorology 135: 180-189.
7. Chmielewski, F. M., and Köhn, W. 2000. Impact of weather on yield and yield components of winter rye. Agricultural and Forest Meteorology 102: 253-261.
8. Chmielewski, F. M., Müller, A., and Bruns, E. 2003. Climate changes and trends in phenology of fruit trees and field crops in Germany, 1961–2000. Agricultural and Forest Meteorology 112: 132-145.
9. Downing, T. E., Ringlus, L., Hulme, M., and Waughray, D. 1997. Adapting to climate: Cold Regions, Kluwer Academic Publishers, Dordrecht 809-825.
10. Easterling, W. E., Weiss, A., Hays, C. J., and Mearns, L. O. 1998. Spatial scales of climate information for simulating wheat and maize productivity: the case of the US Great Plains. Agricultural and Forest Meteorology 90: 51-63.
11. El-Shaer, M. H., Eid, H. M., Rosenzweig, C., Iglesias, A., and Hillel, D. 1996. Agricultural Adaptation to Climate Change in Egypt. In: J.B. Smith et al. (eds.), Adapting to Climate Change: An International Perspective 109-127.
12. Ewert, F., Rounsevell, M. D. A., Reginster, I., Metzger, M. G., and Leemans, R. 2005. Future scenarios of European agricultural land use. I. Estimating changes in crop productivity. Agriculture, Ecosystems and Environment 107: 101-116.
13. Fahad, M. A. 2002. Possible effects of global warming on agriculture and water resources in Saudi Arabia: impacts and responses. Climate Change 54: 225-245.
14. Goudiraan, J., and van Laar, H. H. 1993. Modelling Crop Growth Proccesses. Kluwer Academic Press, The netherlans.
15. Guereña, A., Ruiz-Ramos, M., D´ıaz-Ambrona, C. H., Conde, J. R., and M´ınguez, M. I. 2001. Assessment of climate change and agriculture in Spain using climate models. Agronomy Journal 93: 237-249.
16. Hansen, J., Fung, G., Lacis, A., Rind, D., Russel, G., Lebedeff, S., Ruedy, R., and Stome, P. 1988. Global climate change as forecast by GISS 3-D model. Gournal og Geographical Research 93: 9341-9364.
17. Hill, H. S. J., Butler, D. B., Fuller, S. W., Hammer, G. L., Holzworth, D. P., Love, H. A., Meinke, H., Mjelde, J. W., Park, J., and Rosenthal, W. 2001. Effects of seasonal climate variability and the use of climate forecasts on wheat supply in the US, Australia and Canada. American Society of Agronomy, Special Publication ‘Impact of El Nino and Climatic Variability on Agriculture, pp. 101-123.
18. Holden, N. M., Brereton, A. J., Fealy, R., and Sweeney, J. 2003. Possible change in Irish climate and its impact on barley and potato yields. Agricultural and Forest Meteorology 116: 181-196.
19. Howden, S. M., Reyenga, P. J., and Meinke, H. 1999 Global change impacts on Australian wheat cropping: studies on hydrology, fertiliser management and mixed crop rotations. Report to the Australian Greenhouse Office. CSIRO Wildlife and Ecology, Working Paper 99/13, Canberra.
20. IPCC. 2007. Climate Change 2007. Cambridge University Press, New York.
21. Izaurralde, C., Norman, R., Rosenberg, J., Brown, R. A., and Thomson, A. M. 2003. Integrated assessment of Hadley Center (HadCM2) climate-change impacts on agricultural productivity and irrigation water supply in the conterminous United States Part II. Regional agricultural production in 2030 and 2095. Agricultural and Forest Meteorology 117: 97-122.
22. Koocheki, A., Nassiri, M., Kamali, G. A., and Shahandeh, H. 2006a. Potential impacts of climate change on agro-meteorological indicators in Iran. Arid Land Research and Management 20: 1-15.
23. Koocheki, A., Nassiri, M., Soltani, A., Sharifi, H., and Ghorbani, R. 2006b. Effects of climate change on growth criteria and yield of sunflower and chickpea crops in Iran. Climate Research 30: 247-253.
24. Koocheki, A., Nassiri, M., and Kamali, G. A. 2007. Agroclimatic indices of Iran under climate change. Iranian Journal of Field Crops Research 5 (1): 133-142.
25. Koocheki, A., Nassiri, M., Alizadeh, A., and Ganjali, M. 2009. Modelling the impact of climate change on flowering behaviour of Saffron. Iranian Journal of Field Crops Research 7 (2): 583-594.
26. Lawlor, D. W., and Mitchell, R. A. C. 2000. Crop ecosystems responses to climatic change: Wheat. In: K.R. Reddy and H.F. Hodges (Eds.), Climate Change and Global Crop Productivity. CAB International, Cambridge, pp. 57-80.
27. Lin, E. D. 1996. Agricultural vulnerability and adaptation to global warming in China. Water, Air & Soil Pollution, Kluwer Academic Publishers.
28. Luo, Q., Williams, M. A. J., Bellotti, W., and Bryan, B. 2003. Quantitative and visual assessments of climate change impacts on South Australian wheat production. Agricultural Systems 77: 173-186.
29. Manabe, S., and Wetherlad, R. T. 1987. Large scale changes in soil wetness induced by an increase in CO2. Journal of Atmospheric Science 44: 1211-1235.
30. Matarira, C. H., Mwamuka, F. C., and Makadho, J. M. 1996. Adaptive measures for Zimbabwe's agricultural sector. In: J.B. Smith et al. (ed.). Adapting to Climate Change: An International Perspective 129-147.
31. Menzel, A., and Fabian, P. 1999. Growing season extended in Europe. Nature, 397: 659.
32. Miglietta, F., Bindi, M., Vaccari, F. P., Schapendonk, A. H. C. M., Wolf, J., and Butterfield, R. E. 2000. Crop ecosystem responses to climatic change: root and tuberous crops. In: Reddy, K.R., Hodges, H.F. (Eds.), Climate Change and Global Crop Production. CAB International, Wallingford.
33. Mizina, S. V., Eserkepova, I. B., Pilifosova, O. V., Dolgih, S. A., and Gossen, E. F. 1996. Model based climate change vulnerability and adaptation assessment for wheat yields in Kazakhstan. In: J.B. Smith et al. (Eds.), Adapting to Climate Change: An International Perspective 149-163.
34. Moonena, A. C., Ercoli, L., Mariotti, M., and Masoni, A. 2003. Climate change in Italy indicated by agrometeorological indices over 122 years. Agricultural and Forest Meteorology 111: 13-27.
35. New, M., Hulme, M., and Jones, P. 1999. Representing twentieth century space-time climate variability. Part I. Development of a 1961–1990 mean monthly terrestrial climatology. Journal of Climatology 12: 829-856.
36. Ortiz, R., Sayre, K. D., Govaerts, B., Gupta, R., Subbarao, G. V., Ban, T., Hodson, D., Dixon, J. M., Ortiz-Monasterio, J. I., and Reynolds, M. 2008. Climate change: Can wheat beat the heat? Agriculture, Ecosystems and Environment 126: 46-58.
37. Parry, M., Rosenzweig, C., Iglesias, A., Fischer, G., and Livermore, M. 1999. Climate change and world food security: a new assessment. Global Environmental Change 9: S51-S67.
38. Pauw, E., De Göbel, W., and Adam, H. 2000. Agrometeorological aspects of agriculture and forestry in the arid zones. Agricultural and Forest Meteorology 103: 43-58.
39. Peng, S., Laza, R. C., Visperas, R. M., Khush, G. S., Virk, P., and Zhu, D. 2004. Rice: Progress in breaking yield ceiling. In: Proceeding of the 4th International Crop Science Congress, Brisbane, Australia. Available at http://www.cropscience.com/icsc2004.
40. Reilly, J., Tubiello, F., McCarl, B., Abler, D., Darwin, R., Fuglie, K., Hollinger, S., Izaurralde, C., Jagtap, S., Jones, J., Mearns, L., Ojima, D., Paul, E., Paustian, K., Riha, S., Rosenberg, N., and Rosenzweig, C. 2003. Agriculture and climate change: new results. Climatic Change 57: 43-69.
41. Roderick, M. L., and Farquhar, G. D. 2004. Changes in Australian pan evaporation from 1970 to 2002. International Journal of Climatology 24: 1077-1090.
42. Rosenzweig, C., and Parry, M. L. 1994. Potential impacts of climate change on world food supply. Nature 367: 133-138.
43. Saunders, M. A. 1999. Earth’s future climate. Philosophical Transactions of the Royal Society London 357: 3459-3480.
44. Tao, Z. 1993. Influences of global change on agriculture of China. In: Climate Biosphere Interactions, John Wiley & Sons, Inc., New York.
45. Tubiello, F. N., Rosenzweig, C., Kimball, B. A., Pinterm, P. J., Wall, G. W., Hunsaker, D. J., Lamorte, R. L., and Garcia, R. L. 1999. Testing CERES-Wheat with FACE data: CO2 and water interactions. Agronomy Journal 91: 1856-1865.
46. Turner, N. C. 2001. Optimizing water use. In: Nosberger, H.A. and P.C. Struik (eds.) International Crop Science. CAB International, Wallingford, UK, pp. 119-135.
47. Xiao, G., Zhang, Q., Yao, Y., Zhao, H., Wang, R., Bai, H., and Zhang, F. 2008. Impact of recent climatic change on the yield of winter wheat at low and high altitudes in semi-arid northwestern China. Agricultural Ecosystem and Environment 127: 37-42.
48. Yates, D. N., and Strzepek, K. M. 1998. An assessment of integrated climate change impacts on the agricultural economy of Egypt. Climate Change 38: 261-287.
ارسال نظر در مورد این مقاله
CAPTCHA Image

فایل ها

هم رسانی

ارجاع به این مقاله

آمار