Abstract
The rising cost of fossil fuel is a recognized phenomenon, but its impact at the household level is still widely unknown. Understanding how the socioeconomic impacts of rising fuel prices might be distributed across urban areas is a critical issue that is necessary for sustainable urban transportation planning. This study has refined the vulnerability index for petrol expense rises (VIPER) framework [previously proposed by Dodson and Sipe Urban Stud 44(1):37–62, (2007)] by incorporating travel survey data to better represent households’ car dependence. Through this modified VIPER framework, we seek to understand how the socioeconomic impact of rising fuel costs will be distributed across the greater toronto area. The findings of this research reveal a pattern in the distribution of oil vulnerability that depicts a three-ring configuration: expanding outwards from the lowest oil vulnerability in the urban core (1st ring), followed by the highest oil vulnerability in the city’s inner suburbs (2nd ring), and a transition to a lower oil vulnerability in the suburban areas (3rd ring). Such results reveal the need for transportation and land use policy measures that tackle the transportation-related social and economic disadvantages due to high fuel prices in the future. The transportation and land use policy measures referred to in this paper focus on the reduction in private automobile use. Therefore, those measures aimed at mitigating oil vulnerability may also have the environmental benefits of reducing greenhouse gas emissions and preserving greenfields.
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References
Abbaspour M, Soltaninejad A (2004) Design of an environmental assessment model on the effect of vehicle emissions in greater Tehran on air pollution with economic sensitivity. Int J Environ Sci Technol 1:27–38
American Public Transportation Association (2008) Public transportation reduces greenhouse gases and conserves energy: the benefits of public transportation. http://www.apta.com/resources/reportsandpublications/Documents/greenhouse_brochure.pdf
Asche F et al (2012) Gas versus oil prices the impact of shale gas. Energy Policy 44:117–124
Barton H (1992) City transport: strategies for sustainability. In: Breheny MJ (ed) Sustainable development and urban form, European research in regional science 2. Pion, London, pp 197–216
BP (2012) BP statistical review of world energy, June 2012. BP p.l.c. http://www.bp.com/assets/bp_internet/globalbp/globalbp_uk_english/reports_and_publications/statistical_energy_review_2011/STAGING/local_assets/pdf/statistical_review_of_world_energy_full_report_2012.pdf
Campbell C (2002) Oil depletion-updated through 2001. http://www.oilcrisis.com/campbell/
Canada Revenue Agency (2007) Imposition of excise tax on fuel-inefficient vehicles: notice to all licensed manufacturers and wholesalers, and importers of automobiles. The Canada revenue agency website: http://www.cra-arc.gc.ca/E/pub/et/etsl64/etsl64-e.html
Cooper J, Donegan K, Ryley T, Smyth A, Granzow E (2002) Densification and urban compaction: reinforcing the drive for sustainability. Transp Res Rec 1817:102–109
Data Management Group (2008) Transportation tomorrow survey (TTS), 2006. Department of Civil Engineering, University of Toronto
Dodson J, Sipe N (2007) Oil vulnerability in the Australian city: assessing socioeconomic risks from higher urban fuel prices. Urban Stud 44(1):37–62
Dodson J, Sipe N (2008) Planned household risk: mortgage and oil vulnerability in Australian cities. Aust Plan 45(1):38–47
Energy and Climate Change Committee (2009) Fuel poverty: fifth Report 2009–10, Vol. 2, Oral and written evidence. Great Britain, Parliament: House of Commons Stationary Office
Energy Information Administration (2013) NYMEX future prices, crude oil (light–sweet, cushing, Oklahoma–contract 1). Series history data, release date: 11/14/2013. http://www.eia.gov/dnav/pet/pet_pri_fut_s1_d.htm
Frankel E, Menzies T (2012) Reducing oil use in transportation. Issues Sci Technol Winter 2012:51–56
Gillham O (2002) The limitless city: a primer on the urban sprawl debate. Island Press, Washington
Gjelten T (2012) The dash for gas: the golden age on an energy game-changer. World Aff January February 2012:43–52
Gusdorf F, Hallegatte S (2007) Compact or spread-out cities: urban planning, taxation, and the vulnerability to transportation shocks. Energy Policy 35:4826–4838
Hirsch RL, Bezdek R, Wending R (2005) Peaking of world oil production: impacts, mitigation, & risk management. http://www.mnforsustain.org/oil_peaking_of_world_oil_production_parts1&2.htm
Kenworthy J (2003) Transport energy use and greenhouse gases in urban passenger transport systems: a study of 84 global cities. In: International sustainability conference, Sep 17–19, Fremantle, Western Australia
Krumdiek S (2007) Feedback control model of regional energy systems. IPENZ Engineering TreNz, 2007–002
Krumdiek S, Page S, Dantas A (2010) Urban form and long-term fuel supply decline: a method to investigate the peak oil risks to essential activities. Transp Res 44:306–322
Mees P (2000) A very public solution: transport in the dispersed city. Melbourne University Press, Melbourne
Mees P (2010) Transport for suburbia: beyond the automobile age. Earthscan, London
Ministry of Infrastructure (2006) Places to grow: growth plan for the greater golden horseshow. Ministry of Infrastructure, Province of Ontario
Neilson AC (2006) Consumer insights into fuel prices. AC Neilson Company. www.acneilson.com
Newman N (2008) The high price of oil. Engineering and technology, 10 May–23 May, 46–49
Newman P, Kenworthy J (1989a) Cities and automobile dependence: an international sourcebook. Gower, Aldershot
Newman P, Kenworthy J (1989) Cities and automobile dependence: a sourcebook. Aldershot, Hants., England
Railsback L (2012) Depth and nature of giant petroleum discoveries through time as an indicator of resource depletion. J Ind Ecol. doi:10.1111/j.1530-9290.2012.00524.x
Rasaafi AA, Vaziri M, Azadani AN (2006) Strategies for utilizing alternative fuels by Iranian passenger cars. Int J Environ Sci Technol 3:59–68
Statistics Canada (2006) 2006 census dictionary (Catalogue Number 95-566-X). Retrieved March 17, 2013 from statistics Canada: http://www12.statcan.gc.ca/census-recensement/2006/ref/dict/pdf/92-566-eng.pdf
Statistics Canada (2012a) Canada year book, energy, data tables for energy-Table 11.3 gasoline prices, selected cities, 1997 to 2011 (Catalogue Number 11-402-XWE). http://www.statcan.gc.ca/pub/11-402-x/2012000/chap/ener/tbl-eng.htm
Statistics Canada (2012b) The consumer price index, October 2012. Minister of Industry: Ottawa
Williams K (1999) Urban intensification policies in England: problems and contradictions. Land Use Policy 16(3):167–178
Acknowledgments
The authors would like to acknowledge the work completed by Dodson and Sipe (2007) on the VIPER index for Australia’s urban regions. This paper discusses a modified version of the original VIPER index which is then used to assess the spatial distribution of oil vulnerability in the Greater Toronto Area. The authors are thankful to the University of Toronto and especially the Department of Civil Engineering.
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Akbari, S., Nurul Habib, K. Oil vulnerability in the greater Toronto area: impacts of high fuel prices on urban form and environment. Int. J. Environ. Sci. Technol. 11, 2347–2358 (2014). https://doi.org/10.1007/s13762-014-0641-9
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DOI: https://doi.org/10.1007/s13762-014-0641-9