Bare, J., 2011. TRACI 2.0: the tool for the reduction and assessment of chemical and other environmental. Clean Technologies and Environmental Policy pp. 1-10.
Bare, J.C., Norris, N.A., Pennington, D.W., and McKone, T., 2003. TRACI: the tool for the reduction and assessment of chemical and other environmental impacts. Journal of Industrial Ecology 6: 49-78.
Brentrup, F., Kusters, J., Kuhlmann, H., and Lammel, J., 2004 a. Environmental impact assessment of agricultural production systems using the life cycle assessment methodology: I. Theoretical concept of a LCA method tailored a crop production. European Journal of Agronomy 20(3): 247-264.
Brentrup, F., Kusters, J., Lammel, J., Barraclough, P., and Kuhlmann, H., 2004 b. Environmental impact assessment of agricultural production systems using the life cycle assessment (LCA) methodology: II. The application to N fertilizer use in winter wheat production systems. European Journal of Agronomy 20(3): 265-279.
Bosch, M.E., Hellweng, S., Huijbregts, M.A., and Frischknecht, R., 2007. Applying cumulative exergy demand (CExD) indicators to the ecoinvent database. The International Journal of Life Cycle Assessment 12(3): 181-190.
Charles, R., Jolliet, O., Gaillard, G., and Pellet, D., 2006. Environmental analysis of intensity level in wheat crop production using life cycle assessment. Agriculture, Ecosystems and Environment 113(1/4): 216-225.
Chauhan, N.S., Mohapatra, P.K.J., and Pandey, K.P., 2006. Improving energy productivity in paddy production through benchmarking: an application of data envelopment analysis. Energy Conversion and Management 47: 1063-1085.
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, Ecosystems and Environment 52: 119-128.
Dastan, S., 2012. Evaluation on agronomic and ecophysiological indices of lowland rice genotypes in modified agronomical systems. Ph.D. Thesis, Islamic Azad University, Science and Research Branch, Tehran College of Agriculture and Natural Resources. 278 pp. (In Persian with English Summary)
Dastan, S., Soltani, A., and Alimagham, S.M., 2018. Documenting the process of local rice varieties production in two conventional and semi-mechanized planting methods in Mazandaran province. Cereal Research 7(4): 485-502. (In Persian with English Summary)
Dastan, S., Soltani, A., Noormohamadi, G., and Madani, H., 2016 b. Estimation of the carbon footprint and global warming potential in rice production systems. Journal of Environmental Sciences 14(1): 19-22. (In Persian with English Summary)
Dastan, S., Ghareyazie, B., Soltani, A., and Omidi, M., 2016 a. The life cycle assessment (LCA) of rice in conventional, intensive and conservation systems. 2nd International and 14th National Iranian Crop Science Congress. Aug. 30-Sep. 1. University of Guilan, Rasht, Iran. (In Persian with English Summary)
Dastan, S., Ghareyazie, B., Mortazavi, E., Mohsenpour, M., and Abdollahi, S., 2017. The environmental life cycle assessment (LCA) of transgenic and non-transgenic rice cultivars. 2nd International and 10th National Biotechnology Congress of Islamic Republic of Iran. Aug. 29-31. Seed and Plant Improvement Institute, Karaj, Iran. (In Persian with English Summary)
Dastan, S., Noormohamadi, G., Madani, H., and Soltani, A., 2015 b. Analysis of energy indices in rice production systems in the Neka region. Journal of Environmental Sciences 13(1): 53-66. (In Persian with English Summary)
Engstrom, R., Wadeskog, A., and Finnveden, G., 2009. Environmental assessment of Swedish agriculture. Ecological Economics 60: 550-563.
Esmailpour, B., Khorramdel, S., and Amin Ghafouri, A., 2015. Study of environmental impacts for potato agroecosystems of Iran by using life cycle assessment (LCA) methodology. Journal of Crop Production 8(3): 199-224. (In Persian with English Summary)
Iriarte, A., Rieradevall, J., and Gabarrell, H., 2010. Life cycle assessment of sunflower and rapeseed as energy crops under Chilean condition. Journal of Cleaner Production 18: 336-345.
Khoramdel, S., Shabahang, J., and Ghafouri, A., 2017. Evaluation of environmental impacts for rice agroecosystems using life cycle assessment (LCA). Iranian Journal of Applied Ecology 5(18):1-14. (In Persian with English Summary)
Khorramdel, S., Ghorbani, R., and Amin Ghafori, A., 2015. Comparison of environmental impacts for dryland and irrigated barley agroecosystems by using life cycle assessment (LCA) methodology. Journal of Plant Production Research 22(1): 243-264. (In Persian with English Summary)
Khorramdel, S., Rezvani Moghaddam, P., and Ghafori, A., 2014. Evaluation of environmental impacts for wheat agroecosystems of Iran by using LCA methodology. Cereal Research 4(1): 27-44. (In Persian with English Summary)
Koga, N. 2008. An energy balance under a conventional crop rotation system in northern Japan: Perspectives on fuel ethanol production from sugar beet. Agriculture, Ecosystems and Environment 125: 101-110.
Meisterling, K., Samaras, C., and Schweizer, V., 2009. Decisions to reduce greenhouse gases from agriculture and product transport: LCA case study of organic and conventional wheat. Journal of Cleaner Production 17: 222-230.
Mirhaji, H., Khojastehpour, M., and Abbaspour-Fard, M.H., 2013. Environmental impact study of wheat productionin in Marvdasht Area of Iran. Journal of Natural Environment 66(2): 223-232.
Mitchell, T.D., 2003. Pattern scaling: An Examination of the accuracy of the technique for describing future climates. Climatic Change 60: 217-242.
Mollafilabi, A., Khorramdel, S., Aminghafori, A., and Hosseini, M., 2015. Evaluation of environmental impacts for saffron agroecosystems of khorasan based on nitrogen fertilizer by using lice cycle assessment (LCA). Journal of Saffron Research 2(2): 152-166. (In Persian with English Summary)
Nemecek, T., and Kagi, T., 2007. Life cycle inventories of Swiss and European agricultural production systems. Final Report Eco Invent V2.0 NO. 15a. Agroscope Reckenholz- Taenikon Research Station ARTM, Swiss centre for life cycle inventories, Zurich and Dubendorf, CH.
Nikkhah, A., Firouzi, S., Payman, S.H., and Khorramdel, S., 2016. Life cycle assessment of urea fertilizer consumption in Iran. Journal of Natural Environment (Iranian Journal of Natural Resources) 69(3): 853-864. (In Persian with English Summary)
Nikkhah, A., Khortamdel, S., Abedi, M., Firouzi, S., and Hamzeh Kalkenari, H., 2017. Study of Environmental impacts for tea production system in Chaboksar region of Guilan province through life cycle assessment. Journal of Agricultural Science and Sustainable Production 27(1): 181-195. (In Persian with English Summary)
Pathak, H., and Wassmann, R., 2007. Introducing greenhouse gas mitigation as a development objective in rice-based agriculture: I. Generation of technical coefficients. Agricultural Systems 94: 807-825.
Pervanchon, F., Bockstaller, C., and Girardin, P., 2002. Assessment of energy use in arable farming systems by means of an agro-ecological indicator: the energy indicator. Agricultural Systems 72: 149-172.
Rebitzer, G., Ekvall, T., Frischknecht, R., Hunkeler, D., Norris, G., Rydberg, T., Schmidt, W., Suh, S., Weidema, B.P., and Pennington, D.W., 2004. Life cycle assessment. Part 1: Framework, goal and scope definition, inventory analysis, and applications. Environment International 30: 701-720.
Roy, P., Nei, D., Orikasa, T., Xu, Q., Okadome, H., Nakamura, N., and Shiina, T., 2009. A review of life cycle assessment (LCA) on some food products. Journal of Food Engineering 90: 1-10.
SimaPro., 2011. Software and Database Manual. Pré Consultants BV, Amersfoort, the Netherlands.
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.
Tzilivakis, J., Warner, D.J., May, M., Lewis, K.A., and Jaggard, K., 2005. An assessment of the energy inputs and greenhouse gas emissions in sugar beet (Beta vulgaris L.) production in the UK. Agricultural Systems 85: 101-119.
Wang, M., Wu, W., Liu, W., and Bao, Y., 2009. Life cycle assessment of the winter wheat-summer maize production system on the North China Plain. International Journal of Susttainable Development and World Ecology 14(4): 400-407.
Wood, S., and Cowie, A., 2004. A review of greenhouse gas emission factors for fertilizer production. Research and Development Division, State Forests of New South Wales. Cooperative research center for greenhouse accounting. The original study was: T.O. West and G. Marland. A synthesis of carbon sequestration, Carbon emissions and net carbon flux in agriculture: Comparing tillage practices in the United States. Agriculture, Ecosystems and Environment 91(1-3): 217-232.
Send comment about this article