Abstract
PurposeLife cycle assessment (LCA) has become one of the most widespread environmental assessment tools during the last two decades. However, there are still impacts that are not yet fully integrated, including climate impacts of land use. This study contributes to the development process by testing a selection of recently proposed climate impacts assessment methods, some more focused on the impact of land use and others more focused on a product’s carbon life cycle.MethodsSeveral assessment methods have been proposed in recent years, with their development still being in progress. Of these methods, we selected three methods that are more focused on the product’s carbon life cycle, and two methods more focused on the impact of land use. We applied the methods to an LCA study comparing biomass-based polyethylene (PE) packaging via different production routes in order to identify their methodological and practical challenges.Results and discussionWe found that including the impact of land use and carbon cycles had a profound effect on the results for global warming impact potential. It changed the ranking among the different routes for PE production, sometimes making biomass-based PE worse than the fossil alternative. Especially, the methods accounting for long time lags between carbon emissions and uptake in forestry punished the wood-based routes. Moreover, the variation in the results was considerable, showing that although assessment methods for climate impact can be applied to biomass-based products, their outcomes are not yet robust.ConclusionsWe recommend efforts to harmonize and reconcile different approaches for the assessment of climate impact of biomass-based products with regard to (1) how they consider time, (2) their applicability to both short and long rotation crops and (3) harmonization of concepts and terms used by the methods. We further recommend that all value laden methodological choices that are built into the methods, such as the choice of reference states/points, are made explicit and that the outcomes of different modelling choices are tested.
Highlights
Throughout history, biomass has been used for feed, food, material and fuel purposes and over its course, plants, Responsible editor: Yi YangInt J Life Cycle Assess (2018) 23:2110–2125Life cycle assessment (LCA) has become one of the most widespread environmental systems analysis tools and has been used for the assessment of a considerable range of biomass-based products, such as food products, biofuels and biomaterials
Following the Climate regulation potential (CRP) method, the calculated characterization factors (CFs) for land occupation is applied to the OccCRP flow; the calculated CF for land transformation is applied to the TransCRP flow and amortized over 20 years of occupation, and both are added up to calculate the global warming impact according to this method
Considering only fossil CO2 and GHGs other than CO2 released along the life cycle (see Fig. 3, GWPother (these values are based on the results reported in Liptow and Tillman (2012), Liptow et al (2013) and Liptow et al (2015)), the wood gasification route is the preferable option among the biomass and fossil routes
Summary
LCA has become one of the most widespread environmental systems analysis tools and has been used for the assessment of a considerable range of biomass-based products, such as food products, biofuels and biomaterials. The development of methods to account for impacts related to land use in LCA, global warming impacts has intensified in recent years, partly spurred by the debate about climate change. It appears that this development has taken place along different research streams, which are only partly related
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