Assessing the sustainability of bioenergy pathways through a land-water-energy nexus approach

Bioenergy can significantly contribute to facilitating the transition to a self-sufficient low-carbon energy sector in Europe. The establishment of sustainable bioenergy systems needs ex-ante analysis that considers specific contexts and potential trade-offs, including competing uses of natural resources such as land, water and energy. The use of marginal and underutilized lands has been emphasized as a valuable strategy to overcome the food vs fuel paradigm and the direct and indirect land use change that can derive from the cultivation of bioenergy crops. Nevertheless, the fragmentation of these lands can significantly affect the energy efficiency of the systems, due to increased energy needs for inputs and transport, with trade-offs on the carbon footprint of the pathway. This study performs an ex-ante assessment of the sustainability of a short bioenergy pathway through the Land-WaterEnergy nexus approach, by the iterative use of a web geographic information systems platform, developed on the methodology of the Global Bioenergy Partnership. The simulations show that the production of bioenergy from oilseed crops is expected to reduce greenhouse gas emissions by 73% compared to the reference emission value for fossil fuels in transport. The platform proofs to be effective and user-friendly for assessing and optimizing the intricate interlinkages among the various nexus domains that coexist within the bioenergy system based on the cultivation of underutilized land. Its use can facilitate the nexus operationalization serving as a timesaving decision-support tool for the development of sustainable bioenergy systems that contribute to the transition towards a low-carbon energy sector in Europe.

Automated summary

Bioenergy can play a significant role in Europe's transition towards a self-sufficient low-carbon energy sector. Assessing the sustainability of bioenergy systems requires considering specific contexts and potential trade-offs, such as competing uses of land, water, and energy. This study uses a web GIS platform to evaluate the sustainability of a short bioenergy pathway, showing that bioenergy from oilseed crops can reduce greenhouse gas emissions by 73% compared to fossil fuels. The platform proves to be effective in optimizing interlinkages within the bioenergy system and can serve as a decision-support tool for developing sustainable bioenergy systems in Europe.