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LCA Methodology
Life Cycle Impact Assessment of Pollutants Causing Aquatic Eutrophication
Mark Huijbregts; Jyri Seppälä
Corresponding author:: Dr. Mark Huijbregts, Institute for Biodiversity and Ecosystem Dynamics, University of Amsterdam, Nieuwe Prinsengracht 130, NL-1018 VZ, Amsterdam, The Netherlands; e-mail: m.huijbregts@sci.kun.nl
DOI: http://dx.doi.org/10.1065/lca2001.08.060 - - - In life cycle impact assessment (LCIA), limited attention is generally given to a consistent inclusion of a fate analysis in the derivation of aquatic eutrophication potentials. This paper includes fate and potential effects in the calculation of aquatic eutrophication potentials of NH3 and NOx emitted to the air, N and P emitted to water, and N and P emitted to soil. These characterisation factors were calculated for the Netherlands, Europe and the world, respectively. Implementation in current LCIA practice is further facilitated by calculating normalisation scores for the Netherlands in 1997, Europe in 1995 and the world in 1990. Although the results presented may be a step forward, significant improvements are still needed in the assessment of pollutants causing aquatic eutrophication. In particular, the fate factors representing transport of NOx and NH3 air emissions via soils to the aquatic environment should be improved. In addition, differences in the biological availability of nutrients and differences in the sensitivity of aquatic environments should be included in the calculation of effect factors for aquatic eutrophication. | | Keywords: air emissions; aquatic eutrophication; biomass production; fate modelling; impact indicator; life cycle impact assessment; nitrogen; phosphorus; soil emissions; water emissions |
6 LCA (6) 339-343 (2001)
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