1. Stipanovic Oslakovic, I., Hartmann, A., & Dewulf, G. (2013). Risk assessment of climate change impacts on railway infrastructure. In Proceedings of engineering project organization conference, Devil’s Thumb Ranch, Colorado.

2. Dobney, K., Baker, C. J., Quinn, A. D., & 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. https://doi.org/10.1002/met.114

3. Dobney, K., Baker, C. J., Chapman, L., & Quinn, A. D. (2010). The future cost to the United Kingdom’s railway network of heat-related delays and buckles caused by the predicted increase in high summer temperatures owing to climate change. Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, 224(1), 25–34. https://doi.org/10.1243/09544097JRRT292

4. Sanchis, I. V., Franco, R. I., Fernández, P. M., Zuriaga, P. S., & Torres, J. B. F. (2020). Risk of increasing temperature due to climate change on high-speed rail network in Spain. Transportation Research Part D: Transport and Environment, 82, 102312.

5. Thompson, W. C. (1991). Union pacific’s approach to preserving lateral track stability. Transportation Research Record, 1289, 64–70.