امکان‌سنجی کشت سورگوم علوفه‌ای (Sorghum bicolor L.) بعد از برداشت غلات پاییزه در مناطق نیمه‌خشک با استفاده از منطق فازی

Ahmad, M. 2015. Land suitability classification for sorghum (Sorghum bicolor L. moench) in Bunkure, Kano state, Nigeria. M. Sc. Dissertation, Department of Geography, Faculty of Science, Ahmadu Bello University, Zaria, Nigeria.##Ahmed, M. and Jeb, D. N. 2014. Land suitability for sorghum using multicriteria evaluation (MCE) and analytical hierarchy process (AHP) in Bunkure Kano state, Nigeria. IOSR Journal of Agriculture and Veterinary Science 7 (9): 25-37.##Amirian Chakan, A. 2011. Spatial modeling of land suitability using fuzzy set theory and geostatistical techniques (Case study: Silakhor plain of Dorud city, Lorestan province). Ph. D. Dissertation, Tehran University, Iran. (In Persian).##Elaalem, M. 2012. Land suitability evaluation for sorghum based on boolean and fuzzy-multi-criteria decision analysis methods. International Journal of Environmental Science and Development 3 (4): 357-361.##Esa, E. and Assen, M. 2017. A GIS based land suitability analysis for sustainable agricultural planning in Gelda catchment, Northwest Highlands of Ethiopia. Journal of Geography and Regional Planning 10 (5): 77-91.##FAO. 1993. Guidlines: Agro-ecological assessment for national planning: The example of kenya. FAO Soils Bulletin 67. Rome, FAO. Available at: http://www.fao.org.##General Department of Meteorology of Lorestan Province. 2021. Available at: http://www.lorestanmet.ir/index.php/fa/##Ghibi, M. N., Asadi, F. and Tehrani, M. M. 2014. Guidance integrated management soil fertility and maize nutrient. Soil and Water Research Institute, Iran. 55 p. (In Persian(.##Givi, J. 1997. Qualitative assessment of land suitability for crops and orchards. Ministry of Agriculture-Jahad, Agricultural Research, Education and Extension Organization, Soil and Water Research Institute. 114 p. (In Persian).##Kahsay, A., Haile, M., Gebresamuel, G. and Mohammed. M. 2018. Land suitability analysis for sorghum crop production in northern semi-arid Ethiopia: Application of GIS-based fuzzy AHP approach. Cogent Food and Agriculture 4: 1507184.##Kamkar, B. and Mahdavi Damghani, A. M. 2008. Fundemental of Sustainable Agriculture. Jehad Daneshgahi Press of Mashhad. 315 p. (In Persian).##Khajehpour, M. R. 2013. Cereal crops. University Jihad Publication of Isfahan Technology University. 763 p. (In Persian).##Khodabandeh, N. 2009. Forages crops. Publication of Iranian Agricultural Sciences, Tehran, Iran. (In Persian).##Makhdoom, M. 2012. Land use planning fundamental. University of Tehran Press, Tehran, Iran. (In Persian).##Malakoti, M. J. and Ghibi, M. N. 1997. Determining the critical limit of nutrients in strategic products and fertilizer recommendations in the country. Publication of Agricultural Education, Karaj, Iran. 63 p. (In Persian).##Nabati, J., Nezami, A., Neamatollahi, E. and Akbari, M., 2020. GIS-based agro-ecological zoning for crop suitability using fuzzy inferencesystem in semi-arid regions. Ecological Indicators 117: 106646.##Pilevar, A. R., Matinfar, H. Z., Sohrabi, A. and Sarmadian, F. 2020. Integrated fuzzy, AHP and GIS techniques for land suitability assessment in semi-arid regions for wheat and maize farming. Ecological Indicators 110: 105887.##Pourhadian, H. 2018. Yield gap analysis of forage maize using crop modeling, remote sensing and geographical information system approaches (A case study: Four basins of Golestan province). Ph. D. Dissertation, Gorgan University of Agricultural Sciences and Natural Resources, Iran. (In Persian).##Pourhadian, H. 2020. Ability evaluation of lorestan province climatic for second cultivation of forage sorghum. 16^th National Iranian Crop Science Congress. January 25-27, 2020, Malathi, Iran. (In Persian).##Rahman Salari, K. and Omidvari, Sh. 2016. Study of the efficiency of geostatistical methods (kriging and IDW) in preparing the fertility map of Kamalvand plain of Khorramabad. International Conference on Architecture, Urbanism, Civil Engineering, Art, Environment; Future Horizons and retrospect. March 7, 2016, Tehran, Iran. (In Persian).##Rashid Sorkh Abadi, M., Shahidi, A. and Khashei-Siuki, A. 2016. Determining suitable places for saffron planting using fuzzy hierarchical analysis process in the city of Torbat Heydarieh. Saffron Agronomy and Technology 3 (4): 261-272.##Rezvan, S., Kazemi, H. and Ghaderi-Far, F. 2018. Temporal and spatial feasibility of hull-less barley cropping in agricultural lands of Gorgan township. Cereal Research 8 (1): 127-138.##Seyed Jalai, S. A., Navidi, M. N., Zeinadini Meymand, A. and Mohammad Esmail, Z. 2019. Field crops requirements. Soil and Water Research Institute. 250 p. (In Persian).##Sharififar, A., Ghorbani, H. and Sarmadian, F. 2016. Soil suitability evaluation for crop selection using fuzzy sets methodology. Acta Agriculturae Slovenica 107 (1): 159-174.##Tadesse, M. and Negese, A. 2020. Land suitability evaluation for sorghum crop by using GIS and AHP techniques in Agamsa subwatershed. Ethiopia. Cogent Food and Agriculture 6: 1743624.##Yohannes, H. and Soromessa, T. 2018. Land suitability assessment for major crops by using GIS-based multi-criteria approach in Andit Tid watershed, Ethiopia. Cogent Food and Agriculture 4: 1470481.##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. Computers and Electronics in Agriculture 114: 202-211.##Zolfagharnejad, H. and Kazemi, H. 2016. Evaluation of environmental variables to identify suitable areas for corn cropping using spatial analysis of geographic information system. Journal of Agroecology 6 (2): 197-211.##