Litcius/Paper detail

National-level consumption-based and production-based utilisation of the land-system change planetary boundary: patterns and trends

M. Abdullah Shaikh, Michalis Hadjikakou, Brett A. Bryan

2020Ecological Indicators30 citationsDOIOpen Access PDF

Abstract

To achieve responsible consumption and production under UN Sustainable Development Goal (SDG) 12, national agri-food consumption and production need to be assessed against environmental limits. We downscaled the land-system change planetary boundary and allocated national-scale cropland environmental limits for agri-food consumption via fair-share allocation based on population, and for agri-food production via biophysical allocation based on available arable land. We assessed country-level utilisation of the land-system change planetary boundary via quantifying national cropland footprints (including imports/exports) using an environmentally extended multi-regional input–output model. Consumption-based footprints were assessed against fair-share cropland limits and production-based footprints were assessed against biophysical cropland limits. Most countries’ agri-food consumption footprints exceeded their fair-share cropland limit while production utilisation of biophysical limits was less pronounced. Conversely, China and India’s cropland consumption footprints were safely within their fair-share environmental limits (utilisation percentages of 80% and 74%, respectively), while their cropland production footprints exceeded biophysical limits (utilisation percentages of 132% and 165%, respectively). Assessing country-level utilisation of the environmental limit for cropland can provide a basis for countries to act as individual entities, or collectively, to develop policies that mitigate their global cropland demand and minimise the risks associated with the exceedance of the land-system change planetary boundary.

Topics & Concepts

Production (economics)Consumption (sociology)Boundary (topology)Land use, land-use change and forestryEnvironmental scienceLand useEnvironmental resource managementPhysical geographyGeographyEcologyBiologyMathematicsEconomicsMathematical analysisSociologyMacroeconomicsSocial scienceEnvironmental Impact and SustainabilityGlobal Energy and Sustainability ResearchClimate Change Policy and Economics