Environmental assessment of urban mobility: combining life cycle assessment with land-use and transport interaction modelling – application to Lyon (France)
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Abstract
In France, greenhouse gas (GHG) emissions from transport have grown steadily since 1950 and transport
is now the main source of emissions. Despite technological improvements, urban sprawl increases the
environmental stress due to car use. This study evaluates urban mobility through assessments of the
transport system and travel habits, by applying life cycle assessment methods to the results of mobility
simulations that were produced by a Land Use and Transport Interactions (LUTI) model. The environmental
impacts of four life cycle phases of urban mobility in the Lyon area (exhausts, fuel processing,
infrastructure and vehicle life cycle) were estimated through nine indicators (global warming potential,
particulate matter emissions, photochemical oxidant emissions, terrestrial acidification, fossil resource
depletion, metal depletion, non-renewable energy use, renewable energy use and land occupancy). GHG
emissions were estimated to be 3.02 kg CO2-eq inhabitant−1 day−1 , strongly linked to car use, and indirect
impacts represented 21% of GHG emissions, which is consistent with previous studies. Combining life
cycle assessment (LCA) with a LUTI model allows changes in the vehicle mix and fuel sources combined
with demographic shifts to be assessed, and provides environmental perspectives for transport policy
makers and urban planners. It can also provide detailed analysis, by allowing levels of emissions that
are generated by different categories of households to be differentiated, according to their revenue and
location. Public policies can then focus more accurately on the emitters and be assessed from both an
environmental and social point of view.