Development of characterization factors for metals in 7 EU water archetypes

    Research output: Contribution to conferenceConference abstract for conferenceResearchpeer-review

    94 Downloads (Pure)

    Abstract

    Toxicity potential of most metals in the freshwater are estimated in current life cycle impact assessment (LCIA) models without taking the spatial differentiated speciation behavior of the metals into consideration. Using a novel approach developed by Gandhi and Diamond (Gandhi et al. 2010), new characterization factors (CF) representing freshwater ecotoxicity potentials are calculated for metals (e.g. Cr, Be and Ba) in 7 EU water types, taking into account the influence of speciation behavior on metal bioavailability and metal fate in seven different EU water types.
    USEtox is used to model the fate of the metals, WHAM 7.0 is used to model the metal speciation, Kd values and bioavailability, while the Free Ion Activity Model (FIAM) is used to model the ecotoxicity effect. The resulting archetype-specific CFs show up to ~4 orders of magnitude difference for Cr and Be. This indicates that the toxicity potential of these two metals is strongly dependent on differences in water chemistry. In comparison, Ba shows a constant bioavailability ratio and toxicity effect across the modeled water chemistries. Thus CFs are strongly correlated with fate, which results in a more narrow range of CFs. The differences in water chemistry not only changes the absolute values of the CFs for the individual metals, but also their ranking in terms of freshwater ecotoxicity potential, illustrating the relevance of taking water chemistry into account when modeling metal ecotoxicity potential in LCIA. In order to support LCIA in the frequent situation where no information is available of the specific water type into which the metal emission occurs, site generic average factors are also calculated and different approaches to averaging across archetypes are investigated and discussed.
    Original languageEnglish
    Publication date2013
    Number of pages2
    Publication statusPublished - 2013
    EventSETAC Europe 23rd Annual Meeting: Building a Better Future: Responsible Innovation and Environmental Protection - Glasgow, United Kingdom
    Duration: 12 May 201316 May 2013
    Conference number: 23
    http://glasgow.setac.eu/?contentid=570

    Conference

    ConferenceSETAC Europe 23rd Annual Meeting
    Number23
    CountryUnited Kingdom
    CityGlasgow
    Period12/05/201316/05/2013
    Internet address

    Keywords

    • Metal
    • Characterization factor
    • Life cycle impact assessment (LCIA)
    • Ecotoxicity

    Fingerprint Dive into the research topics of 'Development of characterization factors for metals in 7 EU water archetypes'. Together they form a unique fingerprint.

    Cite this