Life-cycle impact assessment methods for physical energy scarcity: considerations and suggestions

Adeniyi OM(2018)Algae biofuel: current status and future applications Renew Sust Energ Rev 90 316-335

Azimov U(2020)A crustal scarcity indicator for long-term global elemental resource assessment in LCA Int J Life Cycle Assess 25 1805-1817

Burluka A(2016)A framework for energy use indicators and their reporting in life cycle assessment Integr Environ Assess Manag 12 429-436

Arvidsson R(2016)Integrated method to assess resource efficiency – ESSENZ J Cleaner Prod 137 118-130

Söderman ML(2002)Mineral resources in life cycle impact assessment: part II – recommendations on application-dependent use of existing methods and on future method development needs TRACI J Ind Ecol 6 49-78

Sandén BA(2020)Bioenergy and water: risks and opportunities Int J Life Cycle Assess 25 798-813

Nordelöf A(2010)Applying cumulative exergy demand (CExD) indicators to the ecoinvent database Biofuel Bioprod Biorefin 4 473-474

André H(2006)Aquaculture: global status and trends Int J Life Cycle Assess 12 181-2912

Tillman A-M(2010)Raw material criticality assessment as a complement to environmental life cycle assessment: Examining methods for product-level supply risk assessment Philos Trans R Soc Lond, B, Biol Sci 365 2897-1236

Arvidsson R(2019)Natural biotic resources in LCA: towards an impact assessment model for sustainable supply chain management J Ind Ecol 23 1226-3684

Adeniyi OM(2018)Algae biofuel: current status and future applications Renew Sust Energ Rev 90 316-335

Azimov U(2020)A crustal scarcity indicator for long-term global elemental resource assessment in LCA Int J Life Cycle Assess 25 1805-1817

Burluka A(2016)A framework for energy use indicators and their reporting in life cycle assessment Integr Environ Assess Manag 12 429-436

Arvidsson R(2016)Integrated method to assess resource efficiency – ESSENZ J Cleaner Prod 137 118-130

Söderman ML(2002)Mineral resources in life cycle impact assessment: part II – recommendations on application-dependent use of existing methods and on future method development needs TRACI J Ind Ecol 6 49-78

Sandén BA(2020)Bioenergy and water: risks and opportunities Int J Life Cycle Assess 25 798-813

Nordelöf A(2010)Applying cumulative exergy demand (CExD) indicators to the ecoinvent database Biofuel Bioprod Biorefin 4 473-474

André H(2006)Aquaculture: global status and trends Int J Life Cycle Assess 12 181-2912

Tillman A-M(2010)Raw material criticality assessment as a complement to environmental life cycle assessment: Examining methods for product-level supply risk assessment Philos Trans R Soc Lond, B, Biol Sci 365 2897-1236

Arvidsson R(2019)Natural biotic resources in LCA: towards an impact assessment model for sustainable supply chain management J Ind Ecol 23 1226-3684