Life cycle assessment of cotton production in Golestan province based on the production of biomass, energy and net income

Document Type : Research Paper

Authors

1 Associate Professor, Department of Biosystems Engineering, Ferdowsi University of Mashhad, Mashhad, Iran

2 MSc Student of Mechanization, Department of Biosystems Engineering, Ferdowsi University of Mashhad, Mashhad, Iran

Abstract

The main objective of this study was to investigate the environmental impacts of cotton production in Golestan province of Iran using life cycle assessment methodology. The data used in the study were obtained from cotton farmers with face-to-face questionnaire method during 2011-2012. The questionnaires included total inputs of cotton production in the region and yield weight. Environmental impacts based on three functional units (FU) including: the production of one ton biomass, generation of 1000 MJ energy and 10000 Toman net income were investigated. Environmental impacts were evaluated into seven impact categories including global warming, acidification, terrestrial eutrophication, land use, depletion of water resources, depletion of fossil resources and depletion of phosphate and potash resources. Results showed that the terrestrial eutrophication and depletion of fossil resources in terms of environmental index (EcoX) and resource depletion index (RDI) had the highest potential environmental impacts. EcoX for one ton production of cotton, generation of 1000 MJ energy and 10000 Toman net income were calculated as 0.832, 0.048 and 0.036, respectively. RDI for these three functional units were 6.825, 0.396 and 0.296, respectively.

Keywords

Main Subjects


Ahmad, A.L., Yasin, N.H.M., Derek, C.J.C., & Lim, J. K. (2011). Microalgae as a sustainable energy source for biodiesel production: A review. Renewable and Sustainable Energy Reviews, 15: 584-593.
Ashworth, A.J., Taylor, A.M., Reed, D.L., Allen, F.L., Keyser, P.D., & Tyler, D.D. (2014). Environmental impact assessment of regional switchgrass feedstock production comparing nitrogen input scenarios and legume-intercropping systems. Journal of Cleaner Production. DOI: 10.1016/j.jclepro.2014.10.002
Bacenetti, J., Fusi, A., Negri, M., Guidetti, R., & Fiala, M. (2014). Environmental assessment of two different crop systems in terms of biomethane potential production. Science of the Total Environment 466–467, 1066-1077.
Bachmaier, J., Effenberger, M., & Gronauer, A. (2010). Greenhouse gas balance and resource demand of biogas plants in agriculture. Eng Life Sci, 10:560–9.
Bojacá, C.R., Wyckhuys, K.A.G., & Schrevens, E. (2014). Life cycle assessment of Colombian greenhouse tomato production based on farmer-level survey data. Journal of Cleaner Production, 69, 26-33.
Brentrup, F., Kusters, J., Kuhlmann, H., & Lammel, J. (2001). Application of the life cycle assessment methodology to agricultural production: an example of sugar beet production with different forms of nitrogen fertilisers. Europ. J. Agron. 14: 221-233.
Brentrup, F., Küsters, J., Kuhlmann, H., & Lammel, J. (2004a). Environmental impact assessment of agricultural production systems using the life cycle assessment methodology: I. Theoretical concept of a LCA method tailored to crop production. European Journal of Agronomy, 20(3): 247-264.
Brentrup, F., Küsters, J., Lammel, J., & Kuhlmann, H. (2000). Methods to estimate on-field nitrogen emissions from crop production as an input to LCA studies in the agricultural sector. The International Journal of Life Cycle Assessment, 5(6): 349-357.
Brentrup, F., Küsters, J., Lammel, J., Barraclough, P., & Kuhlmann, H. (2004b). 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.
Buratti, C., Barbanera, M., & Fantozzi, F., (2009). Enviromental impact assessment of fiber sorghum (Sudan-Grass) production systems for biomass energy production in a central region of italy.
Carozzi, M., Ferrara, R., Rana, M., & Acutis, M. (2013). Evaluation ofmitigation strategies to reduce ammonia losses from slurry fertilisation on arable lands. Sci Total Environ, 449: 126–33.
Charles, R., Jolliet, O., Gaillard, G., & 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.
Dehghani, H. (2007). Guide to Air Quality, Principles of Meteorology and Air Pollution. Publications of Ghashie. Tehran, Iran, 402 pp. (In Farsi)
Energy the Balance Sheet. (2012). Available at Web site http://www.moe.gov.ir/ (In Farsi)
Erdal, G., Esengün, K., Erdal, H., & Gündüz, O. (2007). Energy use and economical analysis of sugar beet production in Tokat province of Turkey. Energy, 32(1): 35-41.
Fallahpour, F., Aminghafouri, A., Ghalegolab-Behbahani, A., & Bannayan, M. (2012). The environmental impact assessment of wheat and barley production by using life cycle assessment (LCA) methodology. Environment, Development and Sustainability, 14, 979-992.
Food and Agriculture Organization of the United Nations (FAO). (2011). Fao Statistical. Available on the FAO website (www.fao.org/publications).
Gasol, C.M. Gabarrell, X., Anton, A., Rigola, M., Carrasco, J., Ciria, P., Solano, M.L., & Rieradevall, J. (2007). Life cycle assessment of a Brassica carinata bioenergy cropping system in southern Europe. Biomass and Bioenergy, 31(8): 543-555.
Goebes, M.D., Strader, R., & Davidson, C. (2003). An ammonia emission inventory for fertilizer application in the United States. Atmospheric Environment, 37(18): 2539-2550.
Iriarte, A., Rieradevall, J., & Gabarrell, X. (2010). Life cycle assessment of sunflower and rapeseed as energy crops under Chilean conditions. Journal of Cleaner Production, 18(4): 336-345.
Khorramdel, S., Rezvani-Moghaddam, P., & Amin-Ghafori, A. (2014). Evaluation of environmental impacts for wheat Agroecosystems of Iran by using Life Cycle Assessment methodology. Cereal Research, 4(1), 27-44 (In Farsi).
Khoshnevisan, B., Bolandnazar, E., Shamshirband, S., Shariati, H.M., Anuar, N.B., Mat Kiah, M.L.(2014a). Decreasing environmental impacts of cropping systems using life cycle assessment (LCA) and multi-objective genetic algorithm. Journal of Cleaner Production, DOI: 10.1016/j.jclepro.2014.08.062
Khoshnevisan, B., Rafiee, S., & Mousazadeh, H. (2013a). Environmental impact assessment of open field and greenhouse strawberry production. European Journal of Agronomy, 50, 29-37.
Khoshnevisan, B., Rajaeifar, M.A., Clark, S., Shamahirband, S., Anuar, N.B., Mohd Shuib, N.L., & Gani, A. (2014b). Evaluation of traditional and consolidated rice farms in Guilan Province, Iran, using life cycle assessment and fuzzy modeling. Science of The Total Environment, 481, 242-251.
Lehtonen, H., Peltola, J., & Sinkkonen, M. (2006). Co-effects of climate policy and agricultural policy on regional agricultural viability in Finland. Agricultural Systems, 88, 472-493.
Mirhaji, H., Khojastehpour, M., & Abaspour-fard, M.H. (2013). Environmental effects of wheat production in the Marvdasht region. Journal of Natural Environment, 66(2): 223-232. (In Farsi)
Mirhaji, H., Khojastehpour, M., Abaspour-fard, M.H., & Mahdavi Shahri, S.M. (2012). Environmental impact study of sugar beet production using life cycle assessment in Khorasan province. Agroecology, 4: 112-120. (In Farsi)
Nie, S.W., Gao, W.S., Chen, Y.Q., Sui, P., Eneji, A.E. (2010). Use of life cycle assessment methodology for determining phytoremediation potentials of maize-based cropping systems in fields with nitrogen fertilizer over-dose. Journal of Cleaner Production, 18, 1530-1534.
Nikkhah, A., Taheri-Rad, A., Khojastehpour, M., Emadi, B., & Payman, S.H. (2014). Environmental Impacts of Peanut Production in Astaneh Ashrafiyeh of Guilan Province. Agroecology, (In Press) (In Farsi)
Ntiamoah, A., Afrane, G. (2008). Environmental impacts of cocoa production and processing in Ghana: life cycle assessment approach. Journal of Cleaner Production, 16, 1735-1740.
Pishgar-Komleh, S.H. Sefeedpari, P., & Ghahderijani, M. (2012). Exploring energy consumption and CO[sub 2] emission of cotton production in Iran. Journal of Renewable and Sustainable Energy, 4: 033115-033114.
Romero-Gámez, M., Audsley, E., Suárez-Rey, E.M. (2014). Life cycle assessment of cultivating lettuce and escarole in Spain. Journal of Cleaner Production, 73, 193-203.
Snyder, C.S., Bruulsema, T.W., Jensen, T.L., & Fixen, P.E. (2009). Review of greenhouse gas emissions from crop production systems and fertilizer management effects. Agriculture, Ecosystems and Environment, 133(3–4): 247-266.
Soltani, A., Rajabi, M.H., Zeinali, E., & Soltani, E. (2010). Evaluation of environmental impact of crop production using LCA: wheat in Gorgan. Electronic Journal of Crop Production, 3(3): 201-218. (In Farsi)
Taheri-Rad, A., Nikkhah, A., Mehdi Khojastehpour, M., & Nourozieh, S. (2014). Assessing the GHG emissions, the energy and economic analysis of cotton production in Golestan province. The 8th National Congress on Agr. Machinery Eng. (Biosystem) & Mechanization, 29-31 January, Mashhad, Iran (In Farsi).
Tsatsarelis, C. A. 1991. Energy requirements for cotton production in central Greece. Journal of Agricultural Engineering Research, 50: 239-246.
Tzilivakis, J., Warner, D.J., May, M., Lewis, K.A., & Jaggard, K. (2005). An assessment of the energy inputs and greenhouse gas emissions in sugar beet (Beta vulgaris) production in the UK. Agricultural Systems, 85(2): 101-119.
Wang, M., Wu, W., Liu, W., & Bao, Y. (2007). Life cycle assessment of the winter wheat-summer maize production system on the North China Plain. International Journal of Sustainable Development & World Ecology, 14(4): 400-407.
Wang, M., Xia, X., Zhang, Q., & Liu, J. (2010). Life cycle assessment of a rice production system in Taihu region, China. International Journal of Sustainable Development & World Ecology, 17(2): 157-161.