1. bookVolume 24 (2023): Edizione 2 (April 2023)
Dettagli della rivista
Prima pubblicazione
20 Mar 2000
Frequenza di pubblicazione
4 volte all'anno
Accesso libero

Railway Transport Adaptation Strategies to Climate Change at High Latitudes: A Review of Experience from Canada, Sweden and China

Pubblicato online: 15 Apr 2023
Volume & Edizione: Volume 24 (2023) - Edizione 2 (April 2023)
Pagine: 180 - 194
Dettagli della rivista
Prima pubblicazione
20 Mar 2000
Frequenza di pubblicazione
4 volte all'anno

Alfieri, L., Bisselink, B., Dottori, F., Naumann, G., de Roo, A., Salamon, P., Wyser, K. and Feyen, L. (2017) Global projections of river flood risk in a warmer world. Earth's Future, 5(2), 171-182. Search in Google Scholar

Andersson-Sköld, Y., Nordin, L., Nyberg, E. and Johannesson, M. (2021) A framework for identification, assessment and prioritization of climate change adaptation measures for roads and railways. International journal of environmental research and public health, 18(23), 12314. Search in Google Scholar

Andrey, J. and Mills, B. (2003). Climate change and the Canadian transportation system: Vulnerabilities and adaptations. In J. Andrey and C. Knapper (Eds.), Weather and transportation in Canada (235-279.) Publication series number 55, Department of Geography, University of Waterloo. Search in Google Scholar

Andrey, J., Mills, B., Leahy, M., and Suggett, J. (2003) Weather as a chronic hazard for road transportation in Canadian cities. Natural Hazards, 28(2), 319-343. Search in Google Scholar

Baker, C.J., Chapman, L., Quinn, A. and Dobney, K. (2010) Climate change and the railway industry: a review. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 224(3), 519-528. Search in Google Scholar

Blackwood, L., Renaud, F.G. and Gillespie, S. (2022) Nature-based solutions as climate change adaptation measures for rail infrastructure. Nature-Based Solutions, p. 100013. Search in Google Scholar

Bowyer, P., Hänsel, S., Smalley, E., Velegrakis, A., Dagan, M., Wyrowski, L. (2020) Climate Change Impacts and Adaptation for Transport Networks and Nodes; (No. ECE/TRANS/283); United Nations Publications: Geneva, Switzerland. Search in Google Scholar

Briggs, K.M., Loveridge, F.A., Glendinning, S. (2017) Failures in transport infrastructure embankments. Engineering Geology, 219, 107-117, https://doi.org/10.1016/j.enggeo.2016.07.016. Search in Google Scholar

Bubeck, P., Dillenardt, L., Alfieri, L., Feyen, L., Thieken, A.H. and Kellermann, P. (2019) Global warming to increase flood risk on European railways. Climatic Change, 155(1), 19-36. Search in Google Scholar

Canosa, I.V., Ford, J.D., McDowell, G., Jones, J. and Pearce, T. (2020) Progress in climate change adaptation in the Arctic. Environmental Research Letters, 15(9), 093009. Search in Google Scholar

Chan, S.C., Kendon, E.J., Berthou, S., Fosser, G., Lewis, E. and Fowler, H.J. (2020) Europe-wide precipitation projections at convection permitting scale with the Unified Model. Climate Dynamics, 55(3), 409-428. Search in Google Scholar

Cohen-Shacham, E., Walters, G., Janzen, C. and Maginnis, S. (2016) Nature-based solutions to address global societal challenges. IUCN: Gland, Switzerland, 97, 2016-2036. Search in Google Scholar

Dawson, D., Shaw, J., & Gehrels, W.R. (2016) Sea-level rise impacts on transport infrastructure: The notorious case of the coastal railway line at Dawlish, England. Journal of Transport Geography, 51, 97-109. Search in Google Scholar

Diakakis, M., Boufidis, N., Grau, J.M.S., Andreadakis, E. and Stamos, I. (2020) A systematic assessment of the effects of extreme flash floods on transportation infrastructure and circulation: The example of the 2017 Mandra flood. International journal of disaster risk reduction, 47, 101542. Search in Google Scholar

Dobney, K., Baker, C.J., Quinn, A.D. and Chapman, L. (2009) Quantifying the effects of high summer temperatures due to climate change on buckling and rail related delays in south east United Kingdom. Meteorological Applications: A journal of forecasting, practical applications, training techniques and modelling, 16(2), 245-251. Search in Google Scholar

Ferranti, E., Chapman, L., Lee, S., Jaroszweski, D., Lowe, C., McCulloch, S., and Quinn, A. (2018) The hottest July day on the railway network: insights and thoughts for the future. Meteorological Applications, 25(2), 195-208. Search in Google Scholar

Ford, J.D., McDowell, G. and Jones, J. (2014) The state of climate change adaptation in the Arctic. Environmental Research Letters, 9(10), 104005. Search in Google Scholar

Forzieri, G., Bianchi, A., Silva, F.B.E., Herrera, M.M.M., Leblois, A., Lavalle, C., Aerts, J. and Feyen, L. (2018) Escalating impacts of climate extremes on critical infrastructures in Europe. Global environmental change, 48, 97-107. Search in Google Scholar

Gädeke, A., Langer, M., Boike, J., Burke, E.J., Chang, J., Head, M., Reyer, C.P.O., Schaphoff, S., Thiery, W., and Thonicke, K. (2021) Climate change reduces winter overland travel across the Pan-Arctic even under low-end global warming scenarios. Environ. Res. Lett., 16(2), 24049, doi:10.1088/1748-9326/abdcf2. Apri DOISearch in Google Scholar

Garmabaki, A.H.S., Odelius, J., Thaduri, A., Famurewa, S.M., Kumar, U., Strandberg, G. and Barabady, J. (2022) Climate change impact assessment on railway maintenance. In: Proc. 31st European Safety and Reliability Conference, 19-23 September 2021, Angers, France. https://www.rpsonline.com.sg/proceedings/esrel2022/html/toc.Html [Accessed on 20 November 2022]. Search in Google Scholar

Garmabaki, A.H.S., Thaduri, A., Famurewa, S. and Kumar, U. (2021) Adapting Railway Maintenance to Climate Change. Sustainability, 13(24), 13856. Search in Google Scholar

Global Climate Change Impacts in the United States (2009a) Thomas R. Karl, Jerry M. Melillo, and Thomas C. Peterson, (eds.). Cambridge University Press, 196. https://www.nrc.gov/docs/ML1006/ML100601201.pdf [Accessed on 20 November 2022]. Search in Google Scholar

Global Climate Change Impacts in the United States (2009b) US Global Change Research Program. 2009 Report, Transportation, p. 61-70, https://nca2009.globalchange.gov/transportation/index.html [Accessed on 20 November 2022]. Search in Google Scholar

Grimwood, B., Cuerrier, A., and Doubleday, N. (2012) Arctic community engagement during the 2007-2008 International Polar Year. Polar Geography, 35(3-4), 189-193. Search in Google Scholar

Hallegatte, S., Rentschler, J., and Rozenberg, J. (2019) Lifelines: The Resilient Infrastructure Opportunity (Sustainable Infrastructure). World Bank Group Publications. https://elibrary.worldbank.org/doi/abs/10.1596/978-1-4648-1430-3. [Accessed on 1 October 2021]. Search in Google Scholar

IPCC (2021) Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield O. Yelekçi, R. Yu, and B. Zhou (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 2391 p. doi:10.1017/9781009157896. Apri DOISearch in Google Scholar

IPCC (2022) Climate Change 2022: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [H.-O. Pörtner, D.C. Roberts, M. Tignor, E.S. Poloczanska, K. Mintenbeck, A. Alegría, M. Craig, S. Langsdorf, S. Löschke, V. Möller, A. Okem, B. Rama (eds.)]. Cambridge University Press. Cambridge University Press, Cambridge, UK and New York, NY, USA, 3056 p., doi:10.1017/9781009325844. Apri DOISearch in Google Scholar

Jones, H.P., Hole, D.G. and Zavaleta, E.S. (2012) Harnessing nature to help people adapt to climate change. Nature climate change, 2(7), 504-509. Search in Google Scholar

Kattsov, V.M. and Semenov, S.M. (Eds.) (2014) Second Roshydromet Assessment Report on Climate Change and its consequences in Russian Federation. Roshydromet, Obninsk, Russia, 1004 p. http://downloads.igce.ru/publications/OD_2_2014/v2014/htm/1.htm [Accessed on 20 November 2022]. Search in Google Scholar

Koetse, M.J. and Rietveld, P. (2009) The impact of climate change and weather on transport: An overview of empirical findings. Transportation Research Part D: Transport and Environment, 14(3), 205-221. Search in Google Scholar

Koetse, M., and Rietveld, P. (2012) Adaptation to climate change in the transport sector. Transport Reviews, 32(3), 267-286. Search in Google Scholar

Koks, E.E., Rozenberg, J., Zorn, C., Tariverdi, M., Vousdoukas, M., Fraser, S.A., Hall, J.W., Hallegatte, S. (2019) A global multi-hazard risk analysis of road and railway infrastructure assets. Nat Commun, 10(1), 2677, DOI:10.1038/s41467-019-10442-3. Apri DOISearch in Google Scholar

Kostianaia E.A., Kostianoy A.G., Scheglov M.A., Karelov A.I., Vasileisky A.S. (2021) Impact of regional climate change on the infrastructure and operability of railway transport. Transport and Telecommunication, 22(2): 183-195. DOI 10.2478/ttj-2021-0014. Apri DOISearch in Google Scholar

Li, D. and Kaewunruen, S. (2019) Effect of extreme climate on topology of railway prestressed concrete sleepers. Climate, 7(1), 17. Search in Google Scholar

Lindgren, J., Jonsson, D.K. and Carlsson-Kanyama, A. (2009) Climate adaptation of railways: lessons from Sweden. European Journal of Transport and Infrastructure Research, 9(2). Search in Google Scholar

Lorentzen, T. (2020) Climate change and winter road maintenance. Climatic Change, 161(1), 225-242. Search in Google Scholar

Matulla, C., Hollósi, B., Andre, K., Gringinger, J., Chimani, B., Namyslo, J., Fuchs, T., Auerbach, M., Herrmann, C., Sladek, B. and Berghold, H. (2018) Climate Change driven evolution of hazards to Europe’s transport infrastructure throughout the twenty-first century. Theoretical and Applied Climatology, 133(1), 227-242. Search in Google Scholar

Nemry, F. and Demirel, H. (2012) Impacts of Climate Change on Transport: A focus on road and rail transport infrastructures. European Commission, Joint Research Centre (JRC), Institute for Prospective Technological Studies (IPTS), EUR 25553 EN. Luxembourg (Luxembourg): Publications Office of the European Union; JRC72217, DOI: 10.2791/15504. Apri DOISearch in Google Scholar

Nilsen, I.B., Hanssen Bauer, I., Tveito, O.E. and Wong, W.K. (2021) Projected changes in days with zero crossings for Norway. International Journal of Climatology, 41(4), 2173-2188. Search in Google Scholar

Ochsner, M. and Palmqvist, C.W. (2022) Weather and Train Disruptions in Sweden 2011-2019. In: Proc. 18th International Conference on Railway Engineering Design & Operation, 21-23 September 2022, Valencia, Spain. Search in Google Scholar

Office of the Federal Coordinator for Meteorology (OFCM) (2002) Weather information for surface transportation: National needs assessment. Retrieved from http://www.ofcm.gov/wist_report/wist-report.htm [Accessed on 20 October 2022]. Search in Google Scholar

Olefeldt, D., Goswami, S., Grosse, G., Hayes, D., Hugelius, G., Kuhry, P., McGuire, A.D., Romanovsky, V.E., Sannel, A.B.K., Schuur, E.A.G. and Turetsky, M.R. (2016) Circumpolar distribution and carbon storage of thermokarst landscapes. Nature communications, 7(1), 1-11. Search in Google Scholar

Oslakovic, I.S., ter Maat, H.W., Hartmann, A. and Dewulf, G. (2013) Risk assessment of climate change impacts on railway infrastructure [online]. Available at: https://core.ac.uk/download/pdf/29215286.pdf [Accessed on 08 May 2020]. Search in Google Scholar

Palin, E.J., Thornton, H.E., Mathison, C.T., McCarthy, R.E., Clark, R.T. and Dora, J. (2013) Future projections of temperature-related climate change impacts on the railway network of Great Britain. Climatic Change, 120(1), 71-93. Search in Google Scholar

Palin, E.J., Stipanovic Oslakovic, I., Gavin, K. and Quinn, A. (2021) Implications of climate change for railway infrastructure. Wiley Interdisciplinary Reviews: Climate Change, 12(5), e728. Search in Google Scholar

Palko, K. (2017) Synthesis. In: K. Palko and D.S. Lemmen (Eds.), Climate risks and adaptation practices for the Canadian transportation sector 2016 (pp. 12-25). Ottawa, ON: Government of Canada. Search in Google Scholar

Palko, K., and Lemmen, D.S. (Eds.). (2017) Climate Risks and Adaptation Practices for the Canadian Transportation Sector. Ottawa, ON: Government of Canada. Available at: http://www.nrcan.gc.ca/environment/impacts-adaptation10761 [Accessed on 20 September 2022]. Search in Google Scholar

Pk, S., R. Bashir and R. Beddoe (2018) Effect of climate change on earthen embankments in Southern Ontario, Canada. Environ. Geotech., 8(2), 148–169. Search in Google Scholar

Powrie, W. and Smethurst, J. (2018) Climate and vegetation impacts on infrastructure cuttings and embankments. In: The International Congress on Environmental Geotechnics [Zhan, L., Y. Chen and A. Bouazza (eds.)]. Springer, Singapore, 128–144. Search in Google Scholar

Pregnolato, M., Ford, A., Robson, C., Glenis, V., Barr, S., Dawson, R. (2016) Assessing urban strategies for reducing the impacts of extreme weather on infrastructure networks. R. Soc. Open Sci., 3(5), 160023. http://dx.doi.org/10.1098/rsos.160023. Search in Google Scholar

Province of Nova Scotia. (2014, July 11). Train derailment cause determined [News release]. Retrieved from http://novascotia.ca/news/release/?id=20140711004 [Accessed on 12 October 2022]. Search in Google Scholar

Rail Safety and Standards Board (2016). Tomorrow's Railway and Climate Change Adaptation: Executive Report. Available at: https://www.adaptationscotland.org.uk/download_file/view_inline/390 [Accessed on 20 September 2022]. Search in Google Scholar

Rianna, G., Reder, A., Pagano L., and Mercogliano, P. (2020) Assessing future variations in landslide occurrence due to climate changes: insights from an Italian test case, In: Geotechnical Research for Land Protection and Development. [Calvetti, F., Cotecchia F., Galli A., Jommi C. (eds) ] Springer, Cham, Switzerland, 255–264. doi:10.1007/978-3-030-21359-6_27, Apri DOISearch in Google Scholar

Rotter, M., Hoffmann, E., Pechan, A. and Stecker, R. (2016) Competing priorities: how actors and institutions influence adaptation of the German railway system. Climatic change, 137(3), 609-623. Search in Google Scholar

Samson, G., Gérin-Lajoie, J., Lévesque, E., Gagnon, F., Gauthier, Y., and Cuerrier, A. (2013) Les savoirs traditionnels au service des savoirs scientifiques: Limites et défis - Le rôle des Inuits aînes du nord québécois. Esprit Critique, 17, 94-109. Search in Google Scholar

Savonis, M., Burkett, V., and Potter, J. (2008) Impacts of climate variability and change on transportation systems and infrastructure: Gulf coast study. United States Climate Change Science Program, Synthesis and Assessment Product 4.7. Washington, DC: United States Department of Transportation. Search in Google Scholar

Schlögl, M. and Matulla, C. (2018) Potential future exposure of European land transport infrastructure to rainfall-induced landslides throughout the 21st century. Natural Hazards and Earth System Sciences, 18(4), 1121-1132. Search in Google Scholar

Schweikert, A., Chinowsky, P., Espinet, X. and Tarbert, M. (2014) Climate change and infrastructure impacts: Comparing the impact on roads in ten countries through 2100. Procedia Engineering, 78, 306-316. Search in Google Scholar

Tang, A.M., Hughes, P.N., Dijkstra, T.A., Askarinejad, A., Brenčič, M., Cui, Y.J., Diez, J.J., Firgi, T., Gajewska, B., Gentile, F. and Grossi, G. (2018) Atmosphere–vegetation–soil interactions in a climate change context; impact of changing conditions on engineered transport infrastructure slopes in Europe. Quarterly Journal of Engineering Geology and Hydrogeology, 51(2), 156-168. Search in Google Scholar

Thaduri, A., Garmabaki, A. and Kumar, U. (2021) Impact of climate change on railway operation and maintenance in Sweden: A State-of-the-art review. Maintenance, Reliability and Condition Monitoring (MRCM). Search in Google Scholar

UIC (2017). Rail Adapt: Adapting the railway for the future. Available at: https://uic.org/IMG/pdf/railadapt_final_report.pdf [Accessed on 08 May 2020]. Search in Google Scholar

UNECE (2020) Climate Change Impacts and Adaptation for Transport Networks and Nodes. United Nations, Geneva, 216 pp, https://unece.org/sites/default/files/2021-01/ECE-TRANS-283e_web.pdf [Accessed on 20 November 2022]. Search in Google Scholar

Vogel, M.M., Zscheischler, J., Wartenburger, R., Dee, D. and Seneviratne, S.I. (2019) Concurrent 2018 hot extremes across Northern Hemisphere due to human induced climate change. Earth's future, 7(7), 692-703. Search in Google Scholar

Wang, T., Qu, Z., Yang, Z., Nichol, T., Dimitriu, D., Clarke, G., Bowden, D. and Lee, P.T. (2020) Impact analysis of climate change on rail systems for adaptation planning: A UK case. Transportation Research Part D: Transport and Environment, 83, 102324. Search in Google Scholar

Winsemius, H.C., Aerts, J.C., Van Beek, L.P., Bierkens, M.F., Bouwman, A., Jongman, B., Kwadijk, J.C., Ligtvoet, W., Lucas, P.L., Van Vuuren, D.P. and Ward, P.J. (2016) Global drivers of future river flood risk. Nature Climate Change, 6(4), 381-385. Search in Google Scholar

World experience on construction, maintenance and repair of objects of railway infrastructure under conditions of permafrost soil. Center for Scientific-Technical Information and Libraries, Russian Railways, 2017, 126 p. (in Russian). Search in Google Scholar

Woudsma, C., Kanaragolou, P., Maoh, H., and Marshall, S. (2007) Climate change and Canadian road transport: Assessing impacts and adaptation. Ottawa, ON: Natural Resources Canada. Search in Google Scholar

Yakubovich, A.N. and Yakubovich, I.A. (2018) Analysis of the multidimensional impact of climate change on the operation safety of the road network of the permafrost zone of Russia. Intell. Innov. Invest., 3, 77–83 (in Russian). Search in Google Scholar

Articoli consigliati da Trend MD