Graphical abstract Display Omitted
Highlights We analyse the GHG emissions from personal travel in different urban forms. Air travel breaks the pattern where GHG emissions decrease with increasing urban density. We found a trade-off between car-owning and air travel in the middle income class. Air travel must be included in mitigation strategies targeting travel behaviour.
Abstract Numerous studies have illustrated how denser urban forms lead to smaller greenhouse gas (GHG) emissions from passenger transport. Many of these studies have excluded aviation since the association between urban structure and air travel is not as intuitive as it is the case of ground travel. However, several recent studies have concluded that air travel is a significant contributor to the GHGs from passenger transport. Furthermore, even air travel habits depend heavily on lifestyles and socio-economic factors that are related to the urban form. Here we analyse the interactions between urban structure and different transportation modes and their GHG impacts in Finland. The study utilises the data from the Finnish Transportation Agency’s passenger traffic survey from May 2010 to May 2011, which includes over 12000 people and over 35000 trips. The survey is based on one-day travel diaries and also includes additional data on long-distance trips from a longer period. Methodologically, the study takes a traveller’s perspective to assess the GHG emissions from passenger transport. We found that (1) air travel breaks the pattern where GHG emissions decrease with increasing density of urban structures, and (2) in the metropolitan region there is a clear trade-off between car-ownership and air travel in the middle income class. The main policy implication of our study is that air travel must be included in GHG assessments and mitigation strategies targeting travel behaviour. In dense urban regions, the emissions of air travel have the potential to offset the gain from reduced private driving.
Greenhouse gas emissions from flying can offset the gain from reduced driving in dense urban areas
Journal of Transport Geography ; 41 ; 1-9
2014-01-01
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Greenhouse gas emissions from flying can offset the gain from reduced driving in dense urban areas
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