Feasibility of Triticale (Tritico secale wittmack. X) Cropping in Agricultural Lands of Gorgan County by Spatial Analysis Tools

Document Type : Scientific - Research

Authors

Department of Agronomy, Faculty of Crop Production, Gorgan University of Agricultural Sciences and Natural Resources, Iran

Abstract

Selecting the most appropriate algorithm for land suitability assessment is important for current and future land use planning. Several approaches have been attempted to conduct land suitability assessment. Geographic Information System (GIS) technology is useful for integration of bio-climate, terrain and soil-resource-inventory information (Sarkar et al., 2008). The integration of Multi-Criteria Analysis (MCA) methods such as Analytical Hierarchy Process (AHP) with GIS is a trend in land suitability analysis. This combination could be useful in solving conflictive situations for individual or groups interested in spatial context and is also a powerful approach to land suitability assessments (Elsheikh et al., 2013). The present study was therefore carried out with the objective land suitability analysis for feasibility of triticale cropping in agricultural lands of Gorgan township by spatial analysis of geographic information system (GIS) and evaluation of environmental variables.
Introduction
It is essential to allocate crop to the most suitable land areas precisely for the best production since arable land has been decreased. Selecting the most appropriate algorithm for land suitability assessment is important for current and future land use planning. Several approaches have been attempted to conduct land suitability assessment. Geographic Information System (GIS) technology is a useful tool for integration of bio-climate, terrain and soil-resource-inventory information. The integration of Multi-Criteria Analysis (MCA) methods such as Analytical Hierarchy Process (AHP) by GIS is a trend in land suitability analysis. This combination could be useful in solving conflictive situations for individual or groups interested in spatial context and it is a powerful approach for land suitability assessments (Elsheikh et al., 2013). The present study was therefore carried out with the objective land suitability analysis for feasibility of triticale cropping in agricultural lands of Gorgan county by spatial analysis of GIS and evaluation of environmental variables.
Material and Methods
One of the most important areas for crop production in Golestan province located in north of Iran, is the Gorgan region. This area is located between latitude 54° 12.9' N and 54° 44.9' N and longitude 36° 30.6' E and 36° 58.8' E.Almost every farm in Gorgan region are rainfed. In order to spatial feasibility of triticale cropping in Gorgan county, agroecological requirements of triticale was identified and classified from scientific resources. Some environmental factors including, climatic variables such as precipitation and temperature in scale of annual, monthly and seasonal, topographic variables such as elevation, slope aspects and slops percent, and some soil characteristics as texture, EC, pH, fertility, K, P and organic matter were evaluated using geostatistics and classic methods and then thematic layers were produced in ArcGIS media. In multi-criteria assessment process, one of the most important steps is to determine each criteria weight. Generally, AHP is suitable to determine the weights of assessment factors. In this respect, the first step is to construct an AHP model consisting objectives, criteria, sub-criteria, and alternatives. Then these digital layers were classified based on ecological requirements table of triticale and they were overlaid and interpolated in GIS media and final layer were classified to four classes of high suitable, suitable, less suitable and non-suitable. The suitability analysis was based on matching between land qualities/characteristics and crop requirements. It was accomplished by weighted overlay technique (WOT) in GIS.
Results and Discussion
The results showed that 28.8 thousand ha (44.92%) of agricultural lands were located in the high suitable class (S1). This zone was observed occasionally in north and northwest parts of studied region. This zone had the high fertility, high organic matter percent (2

Keywords

References

Aami Azghadi, A., Khorassani, R., and Moezi, A. 2010. Soil fertility evaluation based on soil K, P and organic matter factors for wheat by using fuzzy logic-AHP and GIS technology. Journal of Water and Soil 24: 973-984. (In Persian with English Summary)
Akinci, H., Ozlap, A.Y., and Turgut, B. 2013. Agricultural land use suitability analysis using GIS and AHP technique. Computers and Electronics in Agriculture 97: 71-82.
Bidadi, M.J., Kamkar, B., Abdi, O., and Kazemi, H. 2015. Land suitability analysis on rainfed wheat cropping using geospatial information system (A case study: Qaresoo basin). Journal of Agricultural Knowledge and Sustainable Production 25(1): 131-143. (In Persian with English Summary)
Bhagat, R.M., Singh, S., Rana, R.S., Kalia, V., Pradash, S., Immerzeel, W., and Shrestha, B. 2009. Land suitability analysis for cereal production in Himachal Pradesh (India) using geographical information system. Journal of the Indian Society of Remote Sensing 37: 233-240.
Emam, Y. 2011. Cereal Production. Shiraz University Press, Shiraz, Iran 173 pp. (In Persian)
Essiet, E.U. 2001. Agricultural sustainability under small-holder farming in Kano, northen Nigeria. Journal of Arid Environments 48: 1-7.
Eteraf, H. 2000. The effect ofland useon fertilityand soil erosionin the Maraveh-Tappe region. MScThesis, Gorgan University of Agricultural Sciences and Natural Resource, Gorgan, Iran 113 pp. (In Persian with English Summary)
FAO. 2013. Food and agriculture organization of the unit nations. Quaterly Bulletin of Statistics. Remote, Italy.
Fettel, N.A. 1993. Yield physiology of triticale under water deficit: a comparison with wheat. Armidal: University of New England.
Ghafari, A., Cook, H.F., and Lee, H.C. 2000. Integrating climate, soil and crop information: a land suitability study using GIS. 4th International Conference on Integration GIS and Environmental Modeling (GIS/EM4). Banff, Alberta, Canada, September 2-8.
Ghodsipoor, S.H. 2012. Analytical Hierarchy Process (AHP). Amir Kabir University Press, Tehran, Iran 230 pp. (In Persian)
Kamkar, B., and Mahdavi Damghani, A.M. 2008. Principles of Sustainable Agriculture. JDM Press, Mashhad, Iran. 316 pp. (In Persian)
Kamkar, B., and Meghdadi, N. 2015. Land suitability assessment for cumin production using geographic information system and modeling approach. Journal of Plant Production Researches 22(1): 1-22. (In Persian with English Summary)
Kazemi, H. 2013. Agroelological zoning of Gorgan agricultural lands for hulless barely cropping base on Boolean logic. Electronic Journal Crop Production 6(4): 165-185. (In Persian with English Summary)
Kazemi, H., Tahmasbi Sarvestani, Z., Kamkar, B., Shataei, S., and Sadeghi, S. 2012a. Evaluation of geostatistical methods of estimating and zoning of macronutrients in agricultural lands of Golestan province. Journal of Water and Soil Knowledge 22: 201-218. (In Persian with English Summary)
Kazemi, H., Tahmasbi Sarvestani, Z., Kamkar, B., and Shataei, S. 2012b. Agroecological zoning of agricultural lands in Golestan province for canola cultivation by geographic information system (GIS) and analytical hierarchy process (AHP). Electronic Journal Crop Production 5(1): 123-129. (In Persian with English Summary)
Kazemi, H., TahmasbiSarvestani, Z., Kamkar, B., Shataei, S., and Sadeghi, S. 2013. Agro-ecological zoning of Golestan province lands for Soybean cultivation using geographical information system (GIS). Journal of Agricultural Knowledge and Sustainable Production 23(4): 21-39. (In Persian with English Summary)
Kazemi, H., Tahmasbi Sarvestani, Z., Kamkar, B., Shetaei, S., and Sadeghi, S. 2015. Ecological zoning for wheat production at province scale using geographic information system. Advances in Plants and Agriculture Research 2(1): 1-7. (In Persian with English Summary)
Majnun Hosseini, N. 2011. Cereal Production. Tehran University Press, Tehran, Iran 120 pp. (In Persian)
Nasroallahi, N., Kazemi, H. and Kamkar, B. 2015. Feasibility of annual alfalfa (Medicago scutellata L.) cropping in Aq-Qallatownship (Golestan province). Journal of Agroecology 7(3): 397-411. (In Persian with English Summary)
Sharifi Jahantigh, G.R., and Abbasi, M.R. 2009. Forage Crops. Norouzi Press, Iran. 120 pp. (In Persian)
Sys, I., Van-Ranst, E., and Debveye, J. 1991. Land evaluation, part 1: principles in land evaluation and crop production calculation. General Administration for Development Cooperation. EPA, NO. 7, Brussels, Belgium.
Tajalli, H., and Saberi, M. 2011. Survey of grain yield and yield components of triticale genotypes in south Khorasan province. Zeytoon Journal 222: 64-71. (In Persian)
Zhang, J., Su, Y., Wu, J., and Liang, H. 2015. GIS based land suitability assessment for tobacco production and fuzzy set in Shandong province of China. Computer and Electronic in Agriculture 114: 202-211.
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Journal Of Agroecology
Volume 9, Issue 3 - Serial Number 33
September 2016
Pages 777-793

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History

  • Receive Date: 05 November 2015
  • Accept Date: 05 November 2015
  • First Publish Date: 23 September 2017

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