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2014 | 28 | 1 |

Tytuł artykułu

Life cycle assessment of fertilizers: a review

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Life cycle assessment has become an increasingly common approach for identifying, quantifying, and evaluating the total potential environmental impact of production processes or products, from the procurement of raw materials (the ‘cradle’), to production and utilization (the ‘gates’) and their final storage (the ‘grave’), as well as for determining ways to repair damage to the environment. The paper describes life cycle assessment of mineral fertilizers. On the basis of results provided by life cycle assessment, it can be concluded that an effective strategy for protecting the environment against the harmful effects of fertilizers is to attempt to ‘seal’ the nutrient cycle on a global, regional, and local scale. Pro-environ- mental measures aim on the one hand to reduce resource utilization, and on the other hand to limit losses of nutrients, during both production and use of fertilizers. An undoubted challenge for life cycle assessment when used in agricultural production is the need for relevance at each scale.

Wydawca

-

Rocznik

Tom

28

Numer

1

Opis fizyczny

p.101-110,fig.,ref.

Twórcy

  • Department of Agricultural and Environmental Chemistry, University of Life Sciences in Lublin, Akademicka 15, 20-950 Lublin, Poland
autor
  • Department of Agricultural and Environmental Chemistry, University of Life Sciences in Lublin, Akademicka 15, 20-950 Lublin, Poland

Bibliografia

  • Ahlgren S., Bernesson S., Nordberg A., and Hansson P., 2010. Nitrogen fertiliser production based on biogas -Energy input, environmental impact and land use. Biores. Technol., 101, 7181-7184.
  • Brentrup F., 2012. Life cycle assessment of crop production. In: Green Technologies in Food Production and Processing (Eds J.I. Boye, Y. Arcand). Springer Sci. Business Media Press, New York-Dordrecht-Heidelberg-London.
  • Brentrup F., Küsters J., Kuhlmann H., and Lammel J., 2001. Application of the Life Cycle Assessment methodology to agricultural production: an example of sugar beet productionwith different forms of nitrogen fertilisers. Europ. J. Agron., 14, 221-233.
  • Brentrup F., Küsters J., Kuhlmann H., and Lammel J., 2004a. Environmental impact assessment of agricultural production systems using the life cycle assessmentmethodology I. Theoretical concept of a LCA method tailored to crop production. Europ. J. Agron., 20, 247-264.
  • Brentrup F.,Küsters J.,Lammel J., Barraclough P., andKuhlmann 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. Europ. J. Agron., 20, 265-279.
  • Brentrup F. and Lammel J., 2011. LCA to assess the environmental impact of different fertilisers and agricultural systems. Proc. Int. Fertiliser Society, April 14, York, UK.
  • Brentrup F. and Palliere C., 2008. GHG emissions and energy efficiency in European nitrogen fertiliser production and use. Proc. International Fertiliser Society, December 11, York, UK.
  • Brock P., Madden P., Schwenke G., and Herridge D., 2012. Greenhouse gas emissions profile for 1 tonne of wheat produced in Central Zone (East) New South Wales: a life cycle assessment approach. Crop Pasture Sci., 63, 319-329.
  • Charles R., Jolliet O., Gaillard G., and Pellet D., 2006. Environmental analysis of intensity level in wheat crop production using life cycle assessment. Agric. Ecosystems Environ., 113, 216-225.
  • Cichy B., 2012. Inorganic wastes of chemical industry - technological foresight. The research project. Final report (in Polish). Chemik, 66(3), 215-218.
  • Cowell S.J. and Lindeijer E., 2000. Impacts on ecosystems due to land use: biodiversity, life support, and soil quality in LCA. In: Agricultural Data for Life Cycle Assessments. Agriculture Economics Research Institute, Hague, the Netherlands. Czyż E.A., Jugowar J.L., and S³awiñski C., 2007. The greenhouse gas and ammonia emission in agriculture (in Polish). Acta Agrophysica, 150, 1-136.
  • Dawson C.J. and Hilton J., 2011. Fertiliser availability in a resource-limited world: Production and recycling of nitrogen and phosphorus. Food Policy, 36, 14-22.
  • FotymaM., Igras J., Kopiński J., and Podyma W., 2010.An evaluationof threats caused by overload of nitrogen originated from agriculture on the background of other European countries (in Polish). Studies Reports IUNG-BIP, 20, 52-75.
  • Fallahpour F., Aminghafouri A., Ghalegolab Behbahani A., and Bannayan M., 2012. The environmental impact assessment of wheat and barley production by using life cycle assessment (LCA) methodology. Environ Dev. Sustain., 14, 979-992.
  • Fertilizers, Climate Change and Enhancing Agricultural Productivity Sustainably, 2009. IFA Press, Paris, France, http://www.fertilizer.org
  • Hayashi K., 2013. Practical recommendations for supporting agricultural decisions through life cycle assessment based on two alternative views of crop production: the example of organic conversion. Int. J. Life Cycle Assess., 18, 331-339.
  • Hillier J., Brentrup F., Wattenbach M., Walter C., Garcia-Suarez T., Mila-I-Canals L., and Smith P., 2012. Which cropland greenhouse gas mitigation options give the greatest benefits in different world regions? Climate and soilspecific predictions from integrated empirical models. Global Change Biol., 18, 1880-1894.
  • Jensen A.A., HoffmanL., Moller B.T., Schmidt A., Christiansen C., Elkington J., and van Dijk F., 1997. Life Cycle Assessment (LCA).Aguide to approaches, experiences and information sources. Eur. Issues Series, Eur. Environment Agency, Copenhagen, Denmark.
  • Kloverpris J.H., Baltzer K., and Nielsen P.H., 2010. Life cycle inventory modelling of land use induced by crop consumption. Int. J. Life Cycle Assess., 15, 90-103.
  • Koellner T., de Baan L., Beck T., Brandao M., Civit B., Goedkoop M., Margni M., Mila L, Müller-Wenk R., Weidema B., and Wittstock B., 2012. Principles for life cycle inventories of land use on a global scale. Int. J. Life Cycle Assess., 18, 1203-1215.
  • Kopiński J., 2012. Realization of environmental and economic objectives by the farms of various specialization directions (in Polish). Problems Agric. Eng., 2, 37-45.
  • Kowalski Z., Kulczycka J., and Góralczyk M., 2007. Environmental life cycle assessment of the manufacturing processes (LCA) (in Polish). PWN Press, Warsaw, Poland.
  • Lammel J., 2000. Environmental aspects of fertilizer production and use – consequences for fertilizer types and use. IFA Production and International Trade Conf., October 17-19, Shanghai, China.
  • Linderholm K., Tillman A., and Mattsson J.E., 2012. Life cycle assessment of phosphorus alternatives for Swedish agriculture. Resour. Conserv. Recyc., 66, 27-39.
  • Mourad A.L., Coltro L., Oliveira P.A.P.L.V., Kletecke R.M., and Baddini J.P.O.A., 2007. A simple methodology for elaborating the Life Cycle Inventory of agricultural products. Int. J. LCA, 12(6), 408-413.
  • Nemecek T., Elie O. H., Dubois D., Gaillard G., Schaller B., and Chervet A., 2011. Life cycle assessment of Swiss farming systems: II. Extensive and intensive production. Agric. Systems, 104, 233-245.
  • Sapek A., 2008. Emissions of nitrogen oxides (NOx) from agricultural soils and natural ecosystems to the atmosphere (in Polish). Water-Environment-Rural Areas, 8(1), 283-304.
  • Silva G.A. and Kulay L.A., 2003. Application of life cycle assessment to the LCA case studies single superphosphate production. Int. J. Life Cycle Assess., 8, 209-214.
  • Silva G.A. and Kulay L.A., 2005. Environmental performance comparison of wet and thermal routes for phosphate fertilizer production usingLCA- aBrazilian experience. J. Cleaner Prod., 13, 1321-1325.
  • Szarlip P., Włodarczyk T., Brzezińska M., and Gliński J., 2010. Production and uptake of nitrous oxide (N2O) as affected by soil conditions. Acta Agrophysica, 187, 1-66.
  • Tuomisto H.L., Hodge I.D.,. Riordan P., and Macdonald D.W., 2012. Comparing global warming potential, energy use and land use of organic, conventional and integrated winter wheat production. Ann. Appl. Biol., 161, 116-126.
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Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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