Ahmadi-Rad, S., Gholamhoseini, M., Ghalavand, A., Asgharzadeh, A. and Dolatabadian, A., 2016. Foliar application of nitrogen fixing bacteria increases growth and yield of canola grown under different nitrogen regimes. Rhizosphere. 2, 34-37.
Akcaoz, H., Ozcatalbas, O. and Kizilay, H., 2009. Analysis of energy use for pomegranate production in Turkey. Journal of Food, Agriculture and Environment. 7, 475-480.
Alhajj Ali, S., Tedone, L. and Mastro, G. 2013. A comparison of the energy consumption of rainfed durum wheat under different management scenarios in southern Italy. Energy. 61, 308-318.
Alimagham, S.M., Soltani, A., Zeinali, E. and Kazemi, H., 2017. Energy flow analysis and estimation of greenhouse gases (GHG) emissions in different scenarios of soybean production (Case study: Gorgan region, Iran). Journal of Cleaner Production. 149, 621-648.
Alimagham, M., Soltani, A. and Zeinali, E., 2013. Evaluation of fuel and energy use and their environmental impacts in soybean production at Gorgan. MS.c. thesis. Gorgan University of Agricultural Sciences and Natural Resources Gorgan, Iran. 196 Pp. (In Persian with English abstract).
Alluvione, F., Moretti, B., Sacco, D. and Grignani, C., 2011. EUE (energy use efficiency) of cropping systems for a sustainable agriculture. Energy. 36, 4468-4481.
Bahadur, U.P., Singh, B.K., Sarma, D.P., Singh, K.P. and Singh, A., 2007. Foliar application of plant growth-promoting rhizobacteria increases antifungal compounds in pea (Pisum sativum) against Erysiphepisi. Mycobiology. 35, 129-134.
Barut, Z.B., Ertekin, C. and Karaaga, H.A., 2011. Tillage effects on energy use for corn silage in Mediterranean Coastal of Turkey. Energy. 36, 5466-5475.
BeheshtiTabar, I., Keyhani, A. and Rafiee, SH. 2010. Energy balance in Iran’s agronomy (1990–2006). Renewable and Sustainable Energy Reviews. 14, 849–855.
Budzynski, W.S., Jankowski, K.J. and Jarocki, M., 2015. An analysis of the energy efficiency of winter rape seed biomass under different farming technologies. A case study of a large-scale farm in Poland. Energy. 90, 1272-1279.
Canakci, M., Topakci, M., Akinci, I. and Ozmerzi, A., 2005. Energy use pattern of some field crops and vegetable production: case study for Antalya region, Turkey. Energy Conversion and Management. 46, 655–666.
Castanheira, E.G. and Freire, F., 2013. Greenhouse gas assessment of soybean production: implications of land use change and different cultivation systems. Journal of Cleaner Production. 54, 49-60.
Clements, D.R., Weise, S.F., Brown, R., Stonehouse, D.P., Hume, D.J. and Swanton, C.J., 2005. Energy analysis of tillage and herbicide inputs in alternative weed management-systems. Agriculture, Ecosystem and Environment. 52, 119-128.
Dal Ferro, N., Zanin, G. and Borin M., 2017. Crop yield and energy use in organic and conventional farming: A case study in north-east Italy. European Journal of Agronomy. 86, 37–47.
Dornburg, V., Termeer, G. and Faaij, A.P.C., 2005. Economic and greenhouse gas emission analysis of bioenergy production using multi-product crops—case studies for the Netherlands and Poland. Biomass and Bioenergy. 28, 454–474.
Ferraro, D.O., 2012. Energy use in cropping systems: A regional long-term exploratory analysis of energy allocation and efficiency in the Inland Pampa (Argentina). Energy. 44, 490-497.
Green, M., 1987. Energy in pesticide manufacture, distribution and use. In: Helsel Z.R. (Ed). Energy in Plant Nutrition and Pest Control. Amsterdam, Elsevier, pp: 165-177.
Hamzei, J. and Seyyedi, M., 2016. Energy use and input –output costs for sunflower production in sole and intercropping with soybean under different tillage systems. Soil and Tillage Research. 15, 73-82.
Hatirli, S.A., Ozkan, B. and Fert, C., 2006. Energy inputs and crop yield relationship in greenhouse tomato production. Renew. Energy. 31, 427-438.
Houshyar, E. and Grundmann, P., 2017. Environmental impacts of energy use in Wheat tillage systems: A comparative Life Cycle Assessment (LCA) study in Iran. Energy. 122, 11-24.
IIES, Institute for International Energy Studies. 2007. Iran Hydrocarbons Energy Balance, Ministry of oil and gas. Available online at: https://www.iea.org
International Energy Agency (IEA). Electricity/Heat in Iran, Islamic Republic of in 2009. Available online at: http://iea.org/ stats/electricitydata.asp? COUNTRY_CODE¼ IR; 2010 [verified on 5/13/2012].
IPCC. Climate change 2007: impacts, adaptation and vulnerability. In: Parry M.L., Canziani O.F., Palutik of JP, van der Linden P.J., Hanson C.E., Editors. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK: Cambridge University Press, p. 976.
Kaltsas, A.M., Mamolos, A.P., Tsatsasarelis, C.A., Nanos, G.D. and Kalburtji, K.L., 2007. Energy budget in organic and conventional olive groves. Agriculture, Ecosystem and Environment. 122, 243-251.
Kazemi, H., Kamkar, B., Lakzaei, S., Badsar, M. and Shahbyki, M., 2015. Energy flow analysis for rice production in different geographical regions of Iran. Energy. 84, 390-396.
Kazemi, H., Hassanpour Bourkheili, S., Kamkar, B., Soltani, A., Gharanjic, K. and Nazari, N.M., 2016. Estimation of greenhouse gas (GHG) emission and energy use efficiency (EUE) analysis in rainfed canola production (case study: Golestan province, Iran). Energy. 116, 694-700.
Kazemi, H., Shahbyki, M. and Baghbani, S., 2015a. Energy analysis for faba bean production: A case study in Golestan province, Iran. Sustainable Production and Consumption. 3, 15-20.
Kazim, K., 2001. Assessing the role of US agriculture in reducing greenhouse gas emissions and generating additional environmental benefits. Ecological Economics. 38, 85-103.
Khaledian, M.R., Mailho, J.C., Ruelle, P., Mubarak, I. and Perret, S., 2010. The impacts of direct seeding into mulch on the energy balance of crop production system in the SE of France. Soil and Tillage Research. 106, 218-226 .
Khoshnevisan, B., Rafiee, S., Omid, M., Yousefi, M. and Movahedi, M., 2013. Modeling of energy consumption and GHG (greenhouse gas) emissions in wheat production in Esfahan province of Iran using artificial neural networks. Energy. 52, 333-338.
Kumar, I., Saharawat, Y.S., Gathala, M.K., Jat, A., Singh, S.K., Chaudhary, N. and Jat, M.L., 2013. Effect of different tillage and seeding methods on energy use efficiency and productivity of wheat in the Indo-Gangetic Plains. Field Crops Research 142, 1–8.
Maikhuri, R.K., Dangwal, D., Negi, V.S. and Rawat, L.S., 2016. Evaluation of symbiotic nitrogen fixing ability of legume crops in Central Himalaya, India. Rhizosphere. 1, 26-28.
Maraseni, T.N. and Cockfield, G., 2011. Does the adoption of zero tillage reduce greenhouse gas emissions? An assessment for the seeds industry in Australia. Agricultural System. 104, 451-458.
Mohammadi, A., Rafiee, S., Jafari, A., Dalgaard, T., Knudsen, M.T., Keyhani, A., Mousavi-Avval, S.H. and Hermansen, J.E., 2013. Potential greenhouse gas emission reductions in soybean farming: a combined use of Life Cycle Assessment and Data Envelopment Analysis. Journal of Cleaner Production. 54, 89-100.
Mohammadi, A., Tabatabaeefar, A., Shahin, S., Rafiee, S. and Keyhani, A., 2008. Energy use and economic analysis of potato production in Iran a case study: Ardabil province. Energy Conversion and Management. 49, 3566-3570.
Mondani, F., Aleagha, S., Khoramivafa, M. and Ghobadi, R., 2017. Evaluation of greenhouse gases emission based on energy consumption in wheat Agroecosystems. Energy Reports. 3, 37-45.
Moore, S.R., 2010. Energy efficiency in small-scale bio intensive organic onion production in Pennsylvania, USA. Renewable Agriculture and Food Systems. 25, 181-188.
Moreno, M., Corcoles, J., Tarjuelo, J. and Ortega, J., 2010. Energy efficiency of pressurized irrigation networks managed on-demand and under a rotation schedule. Biosystem Engineering. 107, 349-363.
Mousavi-Avval, S.H., Rafiee, S., Sharifi, M., Hosseinpour, S. and Shah, A., 2017. Combined application of Life Cycle Assessment and Adaptive Neuro-Fuzzy Inference System for modeling energy and environmental emissions of oilseed production. Renewable and Sustainable Energy Reviews. 78, 807-820.
Mousavi-Avval, S.H., Rafiee, S., Jafari, A. and Mohammadi, A., 2011. Optimization of energy consumption for soybean production using Data Envelopment Analysis (DEA) approach. Appleid Energy. 88, 3765-3772.
Nabavi-Pelesaraei, A., Hosseinzadeh-Bandbafha, H., Qasemi-Kordkheili, P., Kouchaki-Penchah, H., and Riahi-Dorcheh, F., 2016. Applying optimization techniques to improve of energy efficiency and GHG (greenhouse gas) emissions of wheat production. Energy. 103, 672-678.
Nabavi-Pelesaraei, Abdi, R., Rafiee, Sh. and Taromi, K., 2014. Applying data envelopment analysis approach to improve energy efficiency and reduce greenhouse gas emission of rice production. Engineering in Agriculture, Environment and Food. 7, 155-162.
Nassiri, S.M. and Singh, S., 2009. Study on energy use efficiency for paddy crop using Data Envelopment Analysis (DEA) technique. Applied Energy. 86, 1320-5.
Ozkan, B., Akcaoz, H. and Fert, C., 2004. Energy input –output analysis in Turkish agriculture. Renewable Energy. 29, 39-51.
Patthanaissaranukool, W. and Polprasert, C., 2016. Reducing carbon emissions from soybean cultivation to oil production in Thailand. Journal of Cleaner Production. 131, 170-178.
Pelletier, N., Arsenault, N. and Tyedmers, P., 2008. Scenario modeling potential eco-efficiency gains from a transition to organic agriculture: life cycle perspectives on Canadian Canola, Corn, Soy, and Wheat production. Environmental Management. 42, 989-1001.
Pishgar-Komleh, S.H., Sefeedpari, P. and Rafiee, S., 2011. Energy and economic analysis of rice production under different farm levels in Guilan province of Iran. Energy. 36, 5824-5831.
Rahman, S. and Rahman, M.S., 2013. Energy productivity and efficiency of maize accounting for the choice of growing season and environmental factors: An empirical analysis from Bangladesh. Energy. 49, 329-336.
Rajabi Hamedani, S., Shabani, Z. and Rafiee, S., 2011. Energy inputs and crop yield relationship in potato production in Hamadan province of Iran. Energy. 36, 2367-2371.
Rajaeifar, M.A, Ghobadian, B., Safa, M. and Heidari, M.D., 2014. Energy life-cycle assessment and CO2 emissions analysis of soybean-based biodiesel: a case study. Journal of Cleaner Production. 66, 233-241.
Ramedani, Z., Rafiee, S. and Heidari, M.D., 2011. An investigation on energy consumption and sensitivity analysis of soybean production farms. Energy. 36, 6340-6344.
Rathke, G.W., Behrens, T. and Diepenbrock, W., 2006. Integrated nitrogen management strategies to improve seed yield, oil content and nitrogen efficiency of winter oilseed rape (Brassica napus L.): A review. Agriculture, Ecosystems and Environment. 117, 80–108.
Rathke, G.W., Wienhold, B.J., Wilhelm, W.W. and Diepenbrock, W., 2007. Tillage and rotation effect on corn–soybean energy balances in eastern Nebraska. Soil and Tillage Research. 97, 60–70.
Raucci, G.S., Moreira, C.S., Alves, P.A., Mello, F.F.C., Frazão, L.A., Cerri, C.E.P. and Cerri, C.C., 2014. Greenhouse gas assessment of Brazilian soybean production: a case study of Mato Grosso State. Journal of Cleaner Production. 96, 411-425.
Remus, R., Ruppel, S., Jacob, H.J., Hecht-Buchholz, C. and Merbach, W., 2000. Colonization behavior of two enterobacterial strains on cereals. Biology and Fertility of Soils. 30, 550-557.
Safa, M. and Samarasinghe, S., 2011. Determination and modeling of energy consumption in Wheat production using neural networks: A case study in Canterbury province, New Zealand. Energy. 36, 5140–5147.
Safa, M., Samarasinghe, S. and Mohsen, M., 2010. Determination of fuel consumption and indirect factors affecting it in wheat production in Canterbury, New Zealand. Energy. 35, 5400-5405.
Salvagiotti, F., Cassman, K.G., Specht, J.E., Walters, D.T., Weiss, A. and Dobermann, A., 2008. Nitrogen uptake, fixation and response to fertilizer N in soybeans: A review. Field Crops Research. 108, 1–13.
Sarauskis, E., Buragien, S., Masilionyt, L., Romaneckas, K., Avizienyt, D. and Sakalauskas, A., 2014. Energy balance, costs and CO2 analysis of tillage technologies in maize cultivation. Energy. 69, 227-235.
Soltani, A., Maleki, M.H.M. and Zeinali, E., 2014. Optimal crop management can reduce energy use and greenhouse gases emissions in rainfed Canola production. Int. Journal of Plant Production. 8, 587-604.
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.
Soni, P., Taewichit, C. and Salokhe, V.M., 2013. Energy consumption and CO2 emissions in rainfed agricultural production systems of Northeast Thailand. Agricultural System. 116, 25–36.
Strapatsa, A.V., Nanos, G.D. and Tsatsarelis, C.A., 2006. Energy flow for integrated apple production in Greece. Agriculture, Ecosystem and Environment. 116, 176-180.
Tabatabaie, S.M.H., Rafiee, S.H., Keyhani, A. and Heidari, M.D., 2013. Energy use pattern and sensitivity analysis of energy inputs and input costs for pear production in Iran. Renewable Energy. 51, 7-12.
Tipi, T., Cetin, B. and Vardar, A., 2009. An analysis of energy use and input costs for wheat production in Turkey. Journal of food Agriculture and Environment. 7, 352-356.
Turhan, S., Cananozbag, B. and Rehber, E., 2008. A comparison of energy use in organic and conventional tomato production. Journal of food Agriculture and Environment. 6, 318-321.
Wiesler, F., Behrens, T. and Horst, W.J., 2001. The role of nitrogen-efficient cultivars in sustainable agriculture. In: Optimizing Nitrogen Management in Food and Energy Production and Environmental Protection: Proceedings of the 2nd International Nitrogen Conference on Science and Policy, The Scientific World. DOI 10.1100/tsw.2001.264
Zahir, A.Z., Arshad, M. and Frankenberger, W.T., 2004. Plant growth promoting Rhizobacteria: applications and perspectives in agriculture. Advances in Agronomy. 81, 97-168.