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3840331 
Journal Article 
ReCiPe2016: a harmonised life cycle impact assessment method at midpoint and endpoint level 
Huijbregts, MAJ; Steinmann, ZJN; Elshout, PMF; Stam, Gea; Verones, F; Vieira, M; Zijp, M; Hollander, A; van Zelm, R 
2017 
Yes 
International Journal of Life Cycle Assessment
ISSN: 0948-3349
EISSN: 1614-7502 
22 
138-147 
WOS:000394352100003 
Purpose Life cycle impact assessment (LCIA) translates emissions and resource extractions into a limited number of environmental impact scores by means of so-called characterisation factors. There are two mainstream ways to derive characterisation factors, i.e. at midpoint level and at endpoint level. To further progress LCIA method development, we updated the ReCiPe2008 method to its version of 2016. This paper provides an overview of the key elements of the ReCiPe2016 method. Methods We implemented human health, ecosystem quality and resource scarcity as three areas of protection. Endpoint characterisation factors, directly related to the areas of protection, were derived from midpoint characterisation factors with included 17 midpoint impact categories. Results and discussion The update of ReCiPe provides characterisation factors that are representative for the global scale instead of the European scale, while maintaining the possibility for a number of impact categories to implement characterisation factors at a country and continental scale. We also expanded the number of environmental interventions and added impacts of water use on human health, impacts of water use and climate change on freshwater ecosystems and impacts of water use and tropospheric ozone formation on terrestrial ecosystems as novel damage pathways. Although significant effort has been put into the update of ReCiPe, there is still major improvement potential in the way impact pathways are modelled. Further improvements relate to a regionalisation of more impact categories, moving from local to global species extinction and adding more impact pathways. Conclusions Life cycle impact assessment is a fast evolving field of research. ReCiPe2016 provides a state-of-the-art method to convert life cycle inventories to a limited number of life cycle impact scores on midpoint and endpoint level. 
Characterisation factors; Ecosystem quality; Endpoint indicator; Human health; Midpoint indicator; Resource scarcity 
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