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- Title
Biodiversity impacts from water consumption on a global scale for use in life cycle assessment.
- Authors
Verones, Francesca; Pfister, Stephan; Zelm, Rosalie; Hellweg, Stefanie
- Abstract
Purpose: Agriculture is a major water user worldwide, potentially depriving many ecosystems of water. Comprehensive global impact assessment methodologies are therefore required to assess impacts from water consumption on biodiversity. Since scarcity of water, as well as species richness, varies greatly between different world regions, a spatially differentiated approach is needed. Therefore, our aim is to enhance a previously published methodology in terms of spatial and species coverage. Methods: We developed characterization factors for lifecycle impact assessment (LCIA) targeting biodiversity loss of various animal taxa (i.e., birds, reptiles, mammals, and amphibians) in wetlands. Data was collected for more than 22,000 wetlands worldwide, distinguishing between surface water- and groundwater-fed wetlands. Additionally, we account for a loss of vascular plant species in terrestrial ecosystems, based on precipitation. The characterization factors are expressed as global fractions of potential species extinctions (PDF) per cubic meter of water consumed annually and are developed with a spatial resolution of 0.05 arc degrees. Based on the geographic range of species, as well as their current threat level, as indicated by the International Union for Conservation of Nature (IUCN), we developed a vulnerability indicator that is included in the characterization factor. Results and discussion: Characterization factors have maximal values in the order of magnitude of 10 PDF·year/m for animal taxa combined and 10 PDF·year/m for vascular plants. The application of the developed factors for global cultivation of wheat, maize, cotton, and rice highlights that the amount of water consumption alone is not sufficient to indicate the places of largest impacts but that species richness and vulnerability of species are indeed important factors to consider. Largest impacts are calculated for vascular plants in Madagascar, for maize, and for animal taxa; in Australia and the USA for surface water consumption (cotton); and in Algeria and Tunisia for groundwater consumption (cotton). Conclusions: We developed a spatially differentiated approach to account for impacts from water consumption on a global level. We demonstrated its functionality with an application to a global case study of four different crops.
- Subjects
BIODIVERSITY; ECOLOGICAL heterogeneity; COMPARATIVE biology; ORDOVICIAN radiation (Evolution); BIOCOMPLEXITY
- Publication
International Journal of Life Cycle Assessment, 2017, Vol 22, Issue 8, p1247
- ISSN
0948-3349
- Publication type
Article
- DOI
10.1007/s11367-016-1236-0