Adom, P.K., and Adams, S. 2020. Decomposition of technical efficiency in agricultural production in Africa into transient and persistent technical efficiency under heterogeneous technologies. World Development. 129, 104907-104907.
Aghayi, N., and Maleki, B. 2016. Efficiency Measurement of DMUs with Undesirable Outputs under Uncertainty Based on the Directional Distance Function: Application on Bank Industry. Energy. 112. https://doi.org/10.1016/j.energy.2016.06.086
Al-Mezeini, N.K., Oukil, A., and Al-Ismaili, A.M. 2020. Investigating the efficiency of greenhouse production in Oman: A two-stage approach based on Data Envelopment Analysis and double bootstrapping. Journal of Cleaner Production. 247, 119-160.
Bolandnazar, E., Keyhani, A., and Omid, M. 2014. Determination of efficient and inefficient greenhouse cucumber producers using Data Envelopment Analysis approach, a case study: Jiroft city in Iran. Journal of Cleaner Production. 79, 108-115.
Ebrahimi, R., and Salehi, M. 2015. Investigation of CO2 emission reduction and improving energy use efficiency of button mushroom production using Data Envelopment Analysis. Journal of Cleaner Production. 103, 112-119.
ESCAP. 2009. Eco-efficiency Indicators: Measuring Resource-use Efficiency and the Impact of Economic Activities on the Environment.
Esfahani, S.M.J., Naderi Mahdei, K., Saadi, H., and Dourandish, A. 2017. Efficiency and Sustainability of Silage Corn Production by Data Envelopment Analysis and Multi-Functional Ecological Footprint: Evidence from Sarayan County, Iran. Journal of Agricultural Science and Technology. 19(7), 1453-1468.
FAO. 2020. FAOSTAT, Crop statistics, http://www.fao.org/faostat/en/#data/QC
Freudenreich, B., and Schaltegger, S. 2019. Developing sufficiency-oriented offerings for clothing users: Business approaches to support consumption reduction. Journal of Cleaner Production. 247, 119589. https://doi.org/10.1016/j.jclepro.2019.119589
Fuss, S., Havlík, P., Szolgayova, J., Schmid, E., Reuter, W.H., Khabarov, N., Obersteiner, M., Ermoliev, Y., Ermolieva, T., and Kraxner, F. 2015. Global food security & adaptation under crop yield volatility. Technological Forecasting and Social Change. 98. https://doi.org/10.1016/j.techfore.2015.03.019
Graubner, M., and Ostapchuk, I. 2018. Efficiency and Profitability of Ukrainian Crop Production.
Guo, D., and Wu, J. 2013. A complete ranking of DMUs with undesirable outputs using restrictions in DEA models. Mathematical and Computer Modelling. 58(5-6), 1102-1109.
Iran, M. o. A.-J. O. 2020. Statistics of Crop production. www.maj.ir
Jahanshahloo, G.R., Khodabakhshi, M., Hosseinzadeh Lotfi, F., and Moazami Goudarzi, M.R. 2011. A cross-efficiency model based on super-efficiency for ranking units through the TOPSIS approach and its extension to the interval case. Mathematical and Computer Modelling. 53(9), 1946-1955.
Khoshroo, A. 2014. Energy Use Pattern and Greenhouse Gas Emission of Wheat Production: A Case Study in Iran. Agricultural Communications. 2, 9-14.
Krishnamurthy, K., Lewis, K., and Choularton, R. 2014. A methodological framework for rapidly assessing the impacts of climate risk on national-level food security through a vulnerability index. Global Environmental Change. 25. https://doi.org/10.1016/ j.gloenvcha.2013.11.004
Lal, R. 2004. Carbon emission from farm operations. Environment International, 30(7), 981-990.
Li, L., Dai, W., Chu, J., Liu, X., and Wang, Y. 2020. DEA altruism and exclusiveness cross-eeciency evaluation models. Scientia Iranica.5, 2499-2513.
Liu, H.-h., Song, Y.-y., and Yang, G.-L. 2019. Cross-efficiency evaluation in data envelopment analysis based on prospect theory. European Journal of Operational Research. 273(1), 364-375.
Liu, W., Zhou, Z., Ma, C., Liu, D., and Shen, W. 2015. Two-stage DEA models with undesirable input-intermediate-outputs. Omega (United Kingdom).56, 74-87.
Majiwa, E., Lee, B. L., Wilson, C., Fujii, H., and Managi, S. 2018. A network data envelopment analysis (NDEA) model of post-harvest handling: the case of Kenya’s rice processing industry. Food Security. 10(3), 631-648.
Malana, N.M., and Malano, H.M. 2006. Benchmarking productive efficiency of selected wheat areas in Pakistan and India using data envelopment analysis [https://doi.org/10.1002/ird.264]. Irrigation and Drainage. 55(4), 383-394.
Masuda, K. 2016. Measuring eco-efficiency of wheat production in Japan: a combined application of life cycle assessment and data envelopment analysis. Journal of Cleaner Production. 126, 373-381.
Moradi, R., and Pourghasemian, N. 2017. Greenhouse gases emission and global warming potential as affected by chemicals inputs for main cultivated crops in kerman province: ?- cereal [Article]. Agroecology. 9(2), 404-405.
Motamedolshariati, S.M., Sadrnia, H., Aghkhani, M.H., and Khojastehpour, M. 2017. Modelling of greenhouse gas emissions from wheat production in irrigated and rain-fed systems in khorasan razavi province, iran [article]. International journal of agricultural management and development. 7(1), 89-94.
Nelson, G., Rosegrant, M., Palazzo, A., Gray, I., Ingersoll, C., Robertson, R., Tokgoz, S., Zhu, T., Sulser, T., Ringler, C., Msangi, S., and You, L. 2010. Food Security, Farming, and Climate Change to 2050: Scenarios, Results, Policy Options. https://doi.org/10.2499/9780896291867
Nikkhah, A., Emadi, B., and Firouzi, S. 2015. Greenhouse gas emissions footprint of agricultural production in Guilan province of Iran. Sustainable Energy Technologies and Assessments. 12, 10-14.
Peng, C. J., Lee, M.-S., Wahlqvist, M.L., Pan, W.-H., Lee, W.-C., Lin, C., and Guo, H.-R. (2015). Needs-based food and nutrient security indices to monitor and modify the food supply and intakes: Taiwan, 1991–2010. Food Policy. 57, 142-152.
Qian, W., Kaur, A., and Schaltegger, S. 2018. Managing Eco-efficiency Development for Sustainability: An Investigation of Top Carbon Polluters in Australia. In (pp. 103-124). https://doi.org/10.1007/978-3-319-70899-7_5
Sadeghi Gavgani, S., and Zohrehbandian, M. 2014. A Cross-Efficiency Based Ranking Method for Finding the Most Efficient DMU. Mathematical Problems in Engineering. 2014, 269768-269768.
Sadok, W., Schoppach, R., Ghanem, M.E., Zucca, C., and Sinclair, T.R. 2019. Wheat drought-tolerance to enhance food security in Tunisia, birthplace of the Arab Spring. European Journal of Agronomy. 107, 1-9.
Schaltegger, S., and Synnestvedt, T. 2002. The link between ‘green’ and economic success: environmental management as the crucial trigger between environmental and economic performance. Journal of Environmental Management. 65(4), 339-346.
Shahnavazi, A. 2017. Determining the Efficiency of Iran’s Provinces in Onion Production: Application of Data Envelopment Analysis. Agricultural Economics Research. 9(33), 145-164.
Shahnavazi, A. 2020. Evaluation of efficiency and profitability of potato cultivation in Iran. Agricultural Economics Research. 12(47), 151-188.
Shanmugam, K.R., and Venkataramani, A. 2006. Technical efficiency in agricultural production and its determinants : an exploratory study at the district level. Indian journal of agricultural economics. 61(2, (4/6)), 169-184.
Shiferaw, B., Smale, M., Braun, H.-J., Duveiller, E., Reynolds, M., and Muricho, G. 2013. Crops that feed the world 10. Past successes and future challenges to the role played by wheat in global food security. Food Security. 5(3), 291-317.
Snyder, C.S., Bruulsema, T.W., Jensen, T.L., and Fixen, P.E. 2009. Review of greenhouse gas emissions from crop production systems and fertilizer management effects. Agriculture, Ecosystems & Environment. 133(3), 247-266.
Soltani, A., Rajabi, M.H., Zeinali, E., and Soltani, E. 2013. Energy inputs and greenhouse gases emissions in wheat production in Gorgan, Iran. Energy. 50, 54-61.
Verburg, P.H., Mertz, O., Erb, K.-H., Haberl, H., and Wu, W. 2013. Land system change and food security: towards multi-scale land system solutions. Current Opinion in Environmental Sustainability. 5(5), 494-502.
Yang, H., and Pollitt, M. 2010. The necessity of distinguishing weak and strong disposability among undesirable outputs in DEA: Environmental performance of Chinese coal-fired power plants. Energy Policy. 38(8), 4440-4444.
Yousefi, M., Damghani, A.M., and Khoramivafa, M. 2014. Energy consumption, greenhouse gas emissions and assessment of sustainability index in corn agroecosystems of Iran. Science of The Total Environment. 493, 330-335.
Zhu, N., Zhu, C., and Emrouznejad, A. 2020. A combined machine learning algorithms and DEA method for measuring and predicting the efficiency of Chinese manufacturing listed companies. Journal of Management Science and Engineering. https://doi.org/https://doi.org/10.1016/j.jmse.2020.10.001