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Implications of geographic variability on Comparative Toxicity Potentials of Cu, Ni and Zn in freshwaters of Canadian ecoregions
Implications of geographic variability on Comparative Toxicity Potentials of Cu, Ni and Zn in freshwaters of Canadian ecoregions,10.1016/j.chemosphere
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Implications of geographic variability on Comparative Toxicity Potentials of Cu, Ni and Zn in freshwaters of Canadian ecoregions
(
Citations: 2
)
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Nilima Gandhi
,
Mark A. J. Huijbregts
,
Dik van de Meent
,
Willie J. G. M. Peijnenburg
,
Jeroen Guinée
,
Miriam L. Diamond
Current methods of estimating potential environmental impacts of metals in hazard and
Life Cycle Impact Assessment
(LCIA) do not consider differences in chemistry and landscape properties between geographic sites. Here, we developed and applied a model for regional aquatic impact characterization of metals using an updated method for estimating environmental fate factor (FF), bioavailability factor (BF) and aquatic ecotoxicity factor (EF). We applied the model to analyze differences in Comparative Toxicity Potentials (CTPs) of Cu, Ni and Zn for 24 Canadian ecoregions. The combined impacts of regional variability in ambient chemistry (in particular DOC, pH and hardness) and landscape properties (water residence time) can change the CTPs of these metals for freshwater by up to three orders of magnitude and change the relative ranking of metal hazard between ecoregions. Variation among Canadian freshwater chemistries and landscape characteristics influence the FFs within two orders of magnitude, BFs within two orders of magnitude for Ni and Zn and four orders of magnitude for Cu, and EFs within one order of magnitude. Sensitivity of metal FFs to environmental parameters alone spans three orders of magnitude when a constant
water chemistry
was used for all ecoregions. These results indicate that application of regionalised metal CTPs can have a significant influence in the analysis of ecotoxicological impacts in the
life cycle assessment
of products and processes.
Journal:
Chemosphere
, vol. 82, no. 2, pp. 268-277, 2011
DOI:
10.1016/j.chemosphere.2010.09.046
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Citations
(2)
Addressing speciation in the effect factor for characterisation of freshwater ecotoxicity—the case of copper
(
Citations: 1
)
Karen S. Christiansen
,
Peter E. Holm
,
Ole K. Borggaard
,
Michael Z. Hauschild
Journal:
International Journal of Life Cycle Assessment - INT J LIFE CYCLE ASSESS
, pp. 1-13
Environmental product development: replacement of an epoxy-based coating by a polyester-based coating
(
Citations: 1
)
Cecilia Askham
Journal:
International Journal of Life Cycle Assessment - INT J LIFE CYCLE ASSESS
, pp. 1-10