Reviewing the potential for including habitat fragmentation to improve life cycle impact assessments for land use impacts on biodiversity

Purpose The biosphere is progressively subjected to a variety of pressures resulting from anthropogenic activities. Habitat conversion, resulting from anthropogenic land use, is considered the dominant factor driving terrestrial biodiversity loss. Hence, adequate modelling of land use impacts on bio...

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Bibliographic Details
Published in:The international journal of life cycle assessment 2019-12, Vol.24 (12), p.2206-2219
Main Authors: Kuipers, Koen J. J., May, Roel F., Graae, Bente J., Verones, Francesca
Format: Article
Language:English
Subjects:
Anthropogenic factors
Biodiversity
Biodiversity loss
Biosphere
Earth and Environmental Science
Ecological effects
Environment
Environmental Chemistry
Environmental Economics
Environmental Engineering/Biotechnology
Fragmentation
Habitat fragmentation
Habitat loss
Habitats
Human influences
Land use
Lcia of Impacts on Human Health and Ecosystems
Life cycle analysis
Life cycle assessment
Life cycles
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Summary:Purpose The biosphere is progressively subjected to a variety of pressures resulting from anthropogenic activities. Habitat conversion, resulting from anthropogenic land use, is considered the dominant factor driving terrestrial biodiversity loss. Hence, adequate modelling of land use impacts on biodiversity in decision-support tools, like life cycle assessment (LCA), is a priority. State-of-the-art life cycle impact assessment (LCIA) characterisation models for land use impacts on biodiversity translate natural habitat transformation and occupation into biodiversity impacts. However, the currently available models predominantly focus on total habitat loss and ignore the spatial configuration of the landscape. That is, habitat fragmentation effects are ignored in current LCIAs with the exception of one recently developed method. Methods Here, we review how habitat fragmentation may affect biodiversity. In addition, we investigate how land use impacts on biodiversity are currently modelled in LCIA and how missing fragmentation impacts can influence the LCIA model results. Finally, we discuss fragmentation literature to evaluate possible methods to include habitat fragmentation into advanced characterisation models. Results and discussion We found support in available ecological literature for the notion that habitat fragmentation is a relevant factor when assessing biodiversity loss. Moreover, there are models that capture fragmentation effects on biodiversity that have the potential to be incorporated into current LCIA characterisation models. Conclusions and recommendations To enhance the credibility of LCA biodiversity assessments, we suggest that available fragmentation models are adapted, expanded and subsequently incorporated into advanced LCIA characterisation models and promote further efforts to capture the remaining fragmentation effects in LCIA characterisation models.
ISSN:0948-3349
1614-7502
DOI:10.1007/s11367-019-01647-1