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Impacts of climate change on operation of the US rail network

Author

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  • Chinowsky, Paul
  • Helman, Jacob
  • Gulati, Sahil
  • Neumann, James
  • Martinich, Jeremy

Abstract

The rail network in the US is the largest network within any single country at 140,000 miles of Class 1 tracks. The network is predominantly focused on freight traffic with the exception of key passenger corridors along the eastern seaboard and in the upper Midwest. This extensive rail network enhances connectivity, but also raises the question of potential vulnerability to climate changes over the next century. Specifically, projected changes in temperature highlight the vulnerability of tracks to temperature increases and the accompanying issue of track expansion, which under current operating policies can lead to train delays, and in the most extreme cases can lead to derailments. In this study, the issue of potential impacts to the rail network are analyzed in terms of the cost of potential increases in delays that will occur due to responses of train network operators to temperature increases. Impacts analyzed using a range of climate models indicate that the rail network may incur an increase in delay-minute costs over typical historic costs of between $25 and $45 billion cumulatively through 2100 under a low greenhouse gas emissions future, and between $35 and $60 billion under a high emission scenario. However, these costs could be reduced by up to an order of magnitude if current sensor technologies are incorporated into tracks, coupled with refinements to current speed reduction policies that better leverage temperature monitoring capabilities.

Suggested Citation

  • Chinowsky, Paul & Helman, Jacob & Gulati, Sahil & Neumann, James & Martinich, Jeremy, 2019. "Impacts of climate change on operation of the US rail network," Transport Policy, Elsevier, vol. 75(C), pages 183-191.
    • Handle: RePEc:eee:trapol:v:75:y:2019:i:c:p:183-191
    DOI: 10.1016/j.tranpol.2017.05.007
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    References listed on IDEAS

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    1. Paul Chinowsky & Channing Arndt, 2012. "Climate Change and Roads: A Dynamic Stressor–Response Model," Review of Development Economics, Wiley Blackwell, vol. 16(3), pages 448-462, August.
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    5. Espinet, Xavier & Schweikert, Amy & van den Heever, Nicola & Chinowsky, Paul, 2016. "Planning resilient roads for the future environment and climate change: Quantifying the vulnerability of the primary transport infrastructure system in Mexico," Transport Policy, Elsevier, vol. 50(C), pages 78-86.
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    Cited by:

    1. Yvonne Andersson-Sköld & Lina Nordin & Erik Nyberg & Mikael Johannesson, 2021. "A Framework for Identification, Assessment and Prioritization of Climate Change Adaptation Measures for Roads and Railways," IJERPH, MDPI, vol. 18(23), pages 1-26, November.
    2. Paul Chinowsky & Jacob Helman, 2021. "Protecting Infrastructure and Public Buildings against Sea Level Rise and Storm Surge," Sustainability, MDPI, vol. 13(19), pages 1-15, September.
    3. Mohsen Momenitabar & Zhila Dehdari Ebrahimi & Mohammad Arani, 2020. "A Systematic and Analytical Review of the Socioeconomic and Environmental Impact of the Deployed High-Speed Rail (HSR) Systems on the World," Papers 2003.04452, arXiv.org, revised Mar 2020.
    4. Mohsen Momenitabar & Raj Bridgelall & Zhila Dehdari Ebrahimi & Mohammad Arani, 2021. "Literature Review of Socioeconomic and Environmental Impacts of High-Speed Rail in the World," Sustainability, MDPI, vol. 13(21), pages 1-27, November.
    5. A. H. S. Garmabaki & Adithya Thaduri & Stephen Famurewa & Uday Kumar, 2021. "Adapting Railway Maintenance to Climate Change," Sustainability, MDPI, vol. 13(24), pages 1-27, December.
    6. Hong, Wei-Ting & Clifton, Geoffrey & Nelson, John D., 2022. "Rail transport system vulnerability analysis and policy implementation: Past progress and future directions," Transport Policy, Elsevier, vol. 128(C), pages 299-308.

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