Life cycle assessment needs predictive spatial modelling for biodiversity and ecosystem services

Citations Over TimeTop 10% of 2017 papers

Abstract

International corporations in an increasingly globalized economy exert a major influence on the planet's land use and resources through their product design and material sourcing decisions. Many companies use life cycle assessment (LCA) to evaluate their sustainability, yet commonly-used LCA methodologies lack the spatial resolution and predictive ecological information to reveal key impacts on climate, water and biodiversity. We present advances for LCA that integrate spatially explicit modelling of land change and ecosystem services in a Land-Use Change Improved (LUCI)-LCA. Comparing increased demand for bioplastics derived from two alternative feedstock-location scenarios for maize and sugarcane, we find that the LUCI-LCA approach yields results opposite to those of standard LCA for greenhouse gas emissions and water consumption, and of different magnitudes for soil erosion and biodiversity. This approach highlights the importance of including information about where and how land-use change and related impacts will occur in supply chain and innovation decisions.

Related Papers

• → The effect of forest owner decision-making, climatic change and societal demands on land-use change and ecosystem service provision in Sweden(2017)46 cited
• → Ecosystem services under future oil palm expansion scenarios in West Kalimantan, Indonesia(2019)34 cited
• Analysis on the Development Trends and Influence Factors of Ecological Footprint in Lanzhou City(2008)
• Dynamic Calculation and Analysis of the Ecological Footprint in China between 1949 and 2008(2011)
• → Evaluation on Ecological Sustainability in Gansu Province Based on a Three-Dimensional Ecological Footprint Model(2022)