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What determines demand for freight transport?

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  • Bennathan, Esra*Fraser, Julie*Thompson, Louis S.

Abstract

Decisions about investments in the long-lived assets of transport infrastructure require some assumptions about prospective long-term demand from services using that infrastructure. To improve the basis for such predictions, the authors estimated the long-run determinants of domestic freight transport, using single-equation regressions on a cross-section of data from developed (high-income), developing (low-income) and former socialist economies. They also sought answers to two related questions. First, since statistics on national ton-kilometers of freight transport are much scarcer for developing than for developed countries, what is the scope for generalizing from data on high-income countries? Second, within what limits may one apply results obtained from data on market economies to the prospective evolution of freight transport demand in the socialist transitional economies? They report the following finds, subject to caveats related to the simple methodology used. For the sample of developed countries, and the merged samples of developed plus developing countries, total ton-kilometers of freight transport (excluding transit) are adequately explained by two variables: a country's area and total GDP. Ton-kilometers by road are chiefly explained by GDP; ton-kilometers by rail are explained by country area. Road freight in developed and developing market economies shows very similar response (in additional ton-kilometers) to variations in GDP. But the elasticity of demand for road ton-kilometers with regard to GDP should be about or above 1.25 for developing countries, compared with close to unity for the high-income countries. Demand for rail freight transport appears to be determined in closely similar ways in both groups of countries. Elasticity with GDP appears to be close to unity. Judging from the narrow basis of evidence on socialist economies (China and the former USSR were excluded for technical reasons), transport demand was determined very differently in their systems than in the market economies. The contrasts are almost entirely explained by the differences in the role of, and demand for, rail transport in the different economic systems. The road sector of freight transport, on the other hand, conforms closely to norms in the market economies; the marginal response (additional ton-kilometer for additional GDP) and elasticity with respect to GDP, appear - on the available evidence - to be close to what is found for developed market economies. In short, structural change in the socialist economies is likely to bring about far greater changes in rail freight activity than in road transport.

Suggested Citation

  • Bennathan, Esra*Fraser, Julie*Thompson, Louis S., 1992. "What determines demand for freight transport?," Policy Research Working Paper Series 998, The World Bank.
    • Handle: RePEc:wbk:wbrwps:998
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    Citations

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    Cited by:

    1. Jean-Paul Rodrigue, 2006. "Challenging the Derived Transport-Demand Thesis: Geographical Issues in Freight Distribution," Environment and Planning A, , vol. 38(8), pages 1449-1462, August.
    2. Greening, Lorna A. & Ting, Mike & Davis, William B., 1999. "Decomposition of aggregate carbon intensity for freight: trends from 10 OECD countries for the period 1971-1993," Energy Economics, Elsevier, vol. 21(4), pages 331-361, August.
    3. Eduardo A. Haddad & Renato S. Vieira & Inácio F. Araújo & Silvio M. Ichihara & Fernando S. Perobelli & Karina S. S. Bugarin, 2022. "COVID-19 crisis monitor: assessing the effectiveness of exit strategies in the State of São Paulo, Brazil," The Annals of Regional Science, Springer;Western Regional Science Association, vol. 68(2), pages 501-525, April.
    4. Goulden, Murray & Ryley, Tim & Dingwall, Robert, 2014. "Beyond ‘predict and provide’: UK transport, the growth paradigm and climate change," Transport Policy, Elsevier, vol. 32(C), pages 139-147.
    5. Alises, Ana & Vassallo, Jose Manuel & Guzmán, Andrés Felipe, 2014. "Road freight transport decoupling: A comparative analysis between the United Kingdom and Spain," Transport Policy, Elsevier, vol. 32(C), pages 186-193.
    6. Galina Ševčenko-Kozlovska & Kristina Čižiūnienė, 2022. "The Impact of Economic Sustainability in the Transport Sector on GDP of Neighbouring Countries: Following the Example of the Baltic States," Sustainability, MDPI, vol. 14(6), pages 1-26, March.
    7. Muhammad Shafique & Anam Azam & Muhammad Rafiq & Xiaowei Luo, 2020. "Evaluating the Relationship between Freight Transport, Economic Prosperity, Urbanization, and CO 2 Emissions: Evidence from Hong Kong, Singapore, and South Korea," Sustainability, MDPI, vol. 12(24), pages 1-14, December.
    8. Ingram, Gregory K. & Zhi Liu, 1997. "Motorization and the provision of roads in countries and cities," Policy Research Working Paper Series 1842, The World Bank.
    9. Wohlgemuth, Norbert, 1997. "World transport energy demand modelling : Methodology and elasticities," Energy Policy, Elsevier, vol. 25(14-15), pages 1109-1119, December.
    10. Ni, Linglin & Wang, Xiaokun (Cara) & Zhang, Dapeng, 2016. "Impacts of information technology and urbanization on less-than-truckload freight flows in China: An analysis considering spatial effects," Transportation Research Part A: Policy and Practice, Elsevier, vol. 92(C), pages 12-25.
    11. Eom, Jiyong & Schipper, Lee & Thompson, Lou, 2012. "We keep on truckin': Trends in freight energy use and carbon emissions in 11 IEA countries," Energy Policy, Elsevier, vol. 45(C), pages 327-341.
    12. Lynn Price & Laurie Michaelis & Ernst Worrell & Marta Khrushch, 1998. "Sectoral Trends and Driving Forces of Global Energy Use and Greenhouse Gas Emissions," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 3(2), pages 263-319, December.
    13. Ingram, Gregory K. & Zhi Liu, 1999. "Determinants of motorization and road provision," Policy Research Working Paper Series 2042, The World Bank.

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