Litcius/Paper detail

Considering habitat conversion and fragmentation in characterisation factors for land-use impacts on vertebrate species richness

Koen Kuipers, Roel May, Francesca Verones

2021The Science of The Total Environment46 citationsDOIOpen Access PDF

Abstract

Human land use is one of the primary threats to terrestrial species richness and is considered a priority for meeting global sustainability and biodiversity targets. Decision-support tools, such as life cycle assessment (LCA), are widely used for developing strategies to achieve such objectives. Currently available life cycle impact assessment (LCIA) methods apply the countryside species-area relationship (c-SAR) to quantify habitat conversion impacts on species richness. However, additional effects of habitat fragmentation are yet ignored in these assessments. We use the species-habitat relationship (SHR), an adaptation of the c-SAR that considers both habitat conversion and fragmentation effects, to develop a new set of land-use characterisation factors for 702 terrestrial ecoregions (in 238 countries), four land-use types (urban, cropland, pasture, and forestry), and four taxonomic groups (amphibians, birds, mammals, and reptiles; plus the aggregate of these vertebrate groups). The SHR generally predicts higher per-area impacts of land-use than the impacts estimated by the c-SAR (a median relative difference of +9%), indicating that land-use impacts may be systematically underestimated when ignoring fragmentation effects. Whereas per-area impacts of land-use on regional species richness are highest in temperate regions, reflecting the diminished extent of natural habitat, per-area impacts of land-use on global species richness are highest in the subtropics, reflecting the importance of tropical regions and islands to global vertebrate species diversity. The large variety in magnitude of land-use impacts across the world's regions emphasizes the importance of regionalised assessments. The set of characterisation factors proposed here can be readily used in environmental decision-making.

Topics & Concepts

Species richnessHabitatBiodiversityEcologyFragmentation (computing)Land useHabitat destructionHabitat fragmentationGeographyLand use, land-use change and forestrySubtropicsTemperate climateTropicsAgroforestryEnvironmental scienceBiologyLand Use and Ecosystem ServicesEconomic and Environmental ValuationWildlife Ecology and Conservation