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Manuscript ID : 11629 Visit : 177 Page: 133 - 150

10.22034/jest.2017.11629

Article Type: Original Research

Land Suitability Evaluation Based on the Climatic Elements for Canola Cultivation Using Fuzzy and AHP model in Kordestan

Subject Areas : environmental management

Amir hossein Halabian 1 , Nahid esmaeli 2

1 - Associate professor, Geography Department, Payame- Noor University, Tehran, Iran*(Corresponding Author)
2 - M. A student in climatology, Geography Department, Payame- Noor University, Saghez, Iran.

Received: 2016-07-05 Accepted : 2016-10-25 Published : 2017-12-22

Keywords: Canola, Growing Degree Days, Analytic Hierarchy Process (AH, fuzzy, Kordestan,

Abstract :

Background and Objective: The challenge of costant development production in agriculture is the food security for growing population that increase the country food needs. The capability finding, lands regionalization and encouraging the producers for producting the strategic and high quality products with more add end- value result in optimum production according to offer and demand and decreasing the depandence. The edible oil have the most depandence amond basive materials so, cultivating the oily seeds with favorite quality and more efficiency that be compatible with climate conditions of country is as the most important effective factors for increasing the production operation. Method: In this research, first, the studied data of 7 meteorology station have been studied daily during the common years (1992-2010:1371- 1389) for 19 years statistic period. Then, the value information layers have been provided for Geographic Information System. The studied layers including the height, landuse, soil, frosty, effective and active growth term period. The present layers have been fuzzy by using fuzzy redundant, and then the weight of each layer have been calculated by AHP model.Then, the final regionalization of feasibility study for Canola cultivation have been provided. Findings: The results of study indicated that Kordeston province have fine cultivation capability for canola oily plant, so the 28% of lands in northeast and south east place in very fine limit. 38% of province lands place in fine limit and more of them observe in eastern half of province. 24% of province lands is in the medium limit and 10% of province lands place in weak limit, Generally, the eastern half of Kordestan province have more capability for Canola cultivation. Discussion & conclusion:  Based on the obtained results, the Kordestan province lands were divided in to four categories of highly suitable (7940.8 km2), suitable (10905.3 km2), moderate (6824 km2) and weak (2829.3 km2) lands on the basis of the environmental and climatologocal potentials for canola cultivation.

References:


Reference

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    2.

  1. Johnson, B. L., Mckay, K. R., Schneiter, A. A., Hanson, B. K., Schatz, B. G., 1995. Influence of planting date on Canola and crambe production. Journal of prodaction Agriculture, 8,594-599
    2.
  2. Song, M., Copeland, L. O., Song, M. T., 1995. Effect of planting date on freezing tolerance and winter survival of Canola  (Brassica napus L.). Korean Journal of Crop Science, 40,150-156.
    3.
  3. Mckay, K. R., Schneiter, A. A., Johnson, B. L., Hanson, B. K. , Sxhatz, B. G., 1992. Influence of planting date on Canola  and crambe production, North Dakota Farm Research, 49, 23-26.
    4.
  4. Kutcher, H.R., Warland, J.S., Brandt, S.A., 2010. Temperature and precipitation effects on Canola  yields in Saskatchewan, Canada, Agric. Forest Meteorol, 150 (2), 161–165.
    5.
  5. Grassano, N., Tedone, L., Verdini, L., De Mastro, G., 2011. Evaluation of rapeseed cultivation suitability in Apulia with GISmulticriteria analysis. Ital. J. Agronomy 6 (2), 101–105.
    6.
  6. Kamkar, B., Dorri, M. A., da Silva, J. A. T. ,2014. Assessment of land suitability and the possibility and performance of a Canola (Brassica napus L.)–soybean (Glycine max L.) rotation in four basins of Golestan province, Iran, The Egyptian Journal of Remote Sensing and Space Science, 17(1), 95-104.
    7.
  7. MacWilliam, S., Sanscartier, D., Lemke, R., Wismer, M., Baron, V. ,2016. Environmental benefits of Canola production in 2010 compared to 1990: A life cycle perspective, Agricultural Systems, 145, 106-115.
    8.
  8. 10.  Yazdani, F., Akbari, G.A., Mimbashi moeni, M., Allahdadi, E., 2013. Assessment of crop land in Tehran and Alborz provinces for rapeseed cultivation using Geographic Information System (GIS). Journal of Agroecology, 1, 27-41. (In Persian)
    9.
  9. Mikaniki, J., Ashrafi, A., Sadeghi, H., 2013. Feasibility study of Rapeseed cultivation in Izeh county by using geographical information system(GIS). Journal Management System, 8, 101-114. (In Persian)
    10.
  10. Omidvar, K., Mazidi, A., Doostmoradi, S., 2014. Climatic feasibility of Rapeseed cultivation in Kermanshah province. Geography and Development Iranian Journal, 35, 97-116. (In Persian)
    11.
  11. Najafi, M.S, Rasouli, A.K, Ashournejad, G., Azarm, K., 2014. Implementing of land suitability assessment models for Canola cultivation using Fuzzy inference system (case Study: west Azerbaijan province). Journal of Arid Regions Geographics Studies, 15. 113-130. (In Persian)
    12.
  12. Kimber, D., Mc Gregor, D.I., 1999, Brassica Oilseed: Production and Utilization.
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  13. Ghodsipour, S.H., 2002. Analytical Hierarchy Process. Amirkabir University Technology Publication, Third edition. (In Persian)
    14.
  14. Bowen, W.M.,1990. Subjective judgments and data environment analysis in site selection، Computer، By: Azizi, M., Soltani, A., Khavari khorasani, S., Press, Mashad, Iran, PP 230.
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  15. Young,J. A, Christensen, B.M., Schaad, M.S., Herdeudrof, M.E., vance, G.F. , Munn, L.C. ,1999. A Geographical information system to identifier for alternative crops in northwestern Wyoming. Reprinted form: perspective on new crops and new use, J. Janick (eds) ASHS Press, Alenandvia, VA.
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9.      9. Rooshanali, M., Marsousi, N., Zakeri, M., 2012. Land suitability evaluation Mazandaran province model based on elements of the climate for the cultivation of Rapeseed using TOPSIS model. Biannual Journal of Urban Ecology Researches, 3(6), 67-80. (In Persian)

14.  Saeidabadi, R., Najafi, M.S., Abkharabat, S., 2016. Land suitability assessment in climate change condition, Case study: Canola cultivation in west Azerbaijan providence. Physical Geography Research Quarterly, 47(4), 563-582. (In Persian)

15.  Khorshiddoust, A. M., Sobhani, B., Azarm, K., Amini, J., 2015. Evaluation of environmental capability of west Azerbaijan province in Canola cultivation based on AHP and TOPSIS methods. Journal of Geography and Planning, 19(52), 141-161. (in Persian)

16.  J Khoshhal Dastjerdi; Baratian, A., 2010. Thermal requirements estimation of the phenological stages of autumn Colza SLM046, Okapi in Iranian cold climatic conditions (Case study: ShahreKord). Physical Geography Research Quarterly, 70, 35-44. (in Persian)

  1. Hejazi, A., 2000. Canola Agriculture, Planting and harvesting, Rozaneh Publication, Second edition. Tehran. (In Persian)
    2.

 

 

_||_

Reference

  1. Khorshiddoust, A.M., Hosseini, S. A., Mohammadpour, K., 2011. Suitable site selection for Conola cultivation in Kurdestan province using geographical information system(GIS). Journal of Water and Soil Science, 21(3), 37- 48. (In Persian)
    2.

  1. Johnson, B. L., Mckay, K. R., Schneiter, A. A., Hanson, B. K., Schatz, B. G., 1995. Influence of planting date on Canola and crambe production. Journal of prodaction Agriculture, 8,594-599
    2.
  2. Song, M., Copeland, L. O., Song, M. T., 1995. Effect of planting date on freezing tolerance and winter survival of Canola  (Brassica napus L.). Korean Journal of Crop Science, 40,150-156.
    3.
  3. Mckay, K. R., Schneiter, A. A., Johnson, B. L., Hanson, B. K. , Sxhatz, B. G., 1992. Influence of planting date on Canola  and crambe production, North Dakota Farm Research, 49, 23-26.
    4.
  4. Kutcher, H.R., Warland, J.S., Brandt, S.A., 2010. Temperature and precipitation effects on Canola  yields in Saskatchewan, Canada, Agric. Forest Meteorol, 150 (2), 161–165.
    5.
  5. Grassano, N., Tedone, L., Verdini, L., De Mastro, G., 2011. Evaluation of rapeseed cultivation suitability in Apulia with GISmulticriteria analysis. Ital. J. Agronomy 6 (2), 101–105.
    6.
  6. Kamkar, B., Dorri, M. A., da Silva, J. A. T. ,2014. Assessment of land suitability and the possibility and performance of a Canola (Brassica napus L.)–soybean (Glycine max L.) rotation in four basins of Golestan province, Iran, The Egyptian Journal of Remote Sensing and Space Science, 17(1), 95-104.
    7.
  7. MacWilliam, S., Sanscartier, D., Lemke, R., Wismer, M., Baron, V. ,2016. Environmental benefits of Canola production in 2010 compared to 1990: A life cycle perspective, Agricultural Systems, 145, 106-115.
    8.
  8. 10.  Yazdani, F., Akbari, G.A., Mimbashi moeni, M., Allahdadi, E., 2013. Assessment of crop land in Tehran and Alborz provinces for rapeseed cultivation using Geographic Information System (GIS). Journal of Agroecology, 1, 27-41. (In Persian)
    9.
  9. Mikaniki, J., Ashrafi, A., Sadeghi, H., 2013. Feasibility study of Rapeseed cultivation in Izeh county by using geographical information system(GIS). Journal Management System, 8, 101-114. (In Persian)
    10.
  10. Omidvar, K., Mazidi, A., Doostmoradi, S., 2014. Climatic feasibility of Rapeseed cultivation in Kermanshah province. Geography and Development Iranian Journal, 35, 97-116. (In Persian)
    11.
  11. Najafi, M.S, Rasouli, A.K, Ashournejad, G., Azarm, K., 2014. Implementing of land suitability assessment models for Canola cultivation using Fuzzy inference system (case Study: west Azerbaijan province). Journal of Arid Regions Geographics Studies, 15. 113-130. (In Persian)
    12.
  12. Kimber, D., Mc Gregor, D.I., 1999, Brassica Oilseed: Production and Utilization.
    13.
  13. Ghodsipour, S.H., 2002. Analytical Hierarchy Process. Amirkabir University Technology Publication, Third edition. (In Persian)
    14.
  14. Bowen, W.M.,1990. Subjective judgments and data environment analysis in site selection، Computer، By: Azizi, M., Soltani, A., Khavari khorasani, S., Press, Mashad, Iran, PP 230.
    15.
  15. Young,J. A, Christensen, B.M., Schaad, M.S., Herdeudrof, M.E., vance, G.F. , Munn, L.C. ,1999. A Geographical information system to identifier for alternative crops in northwestern Wyoming. Reprinted form: perspective on new crops and new use, J. Janick (eds) ASHS Press, Alenandvia, VA.
    16.

9.      9. Rooshanali, M., Marsousi, N., Zakeri, M., 2012. Land suitability evaluation Mazandaran province model based on elements of the climate for the cultivation of Rapeseed using TOPSIS model. Biannual Journal of Urban Ecology Researches, 3(6), 67-80. (In Persian)

14.  Saeidabadi, R., Najafi, M.S., Abkharabat, S., 2016. Land suitability assessment in climate change condition, Case study: Canola cultivation in west Azerbaijan providence. Physical Geography Research Quarterly, 47(4), 563-582. (In Persian)

15.  Khorshiddoust, A. M., Sobhani, B., Azarm, K., Amini, J., 2015. Evaluation of environmental capability of west Azerbaijan province in Canola cultivation based on AHP and TOPSIS methods. Journal of Geography and Planning, 19(52), 141-161. (in Persian)

16.  J Khoshhal Dastjerdi; Baratian, A., 2010. Thermal requirements estimation of the phenological stages of autumn Colza SLM046, Okapi in Iranian cold climatic conditions (Case study: ShahreKord). Physical Geography Research Quarterly, 70, 35-44. (in Persian)

  1. Hejazi, A., 2000. Canola Agriculture, Planting and harvesting, Rozaneh Publication, Second edition. Tehran. (In Persian)
    2.

 

 

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