1. Abdelkarim, A., Gaber, A. F., Alkadi, I. I., & Alogayell, H. M. (2019). Integrating remote sensing and hydrologic modeling to assess the impact of land-use changes on the increase of flood risk: A case study of the Riyadh-Dammam train track, Saudi Arabia. Sustainability, 11(21), 6003.
2. Azedou, A., Lahssini, S., Khattabi, A., Meliho, M., & Rifai, N. (2021). A methodological comparison of three models for gully erosion susceptibility mapping in the rural municipality of El faid (Morocco). Sustainability, 13(2), 682.
3. Ballerine, C. (2017). Topographic wetness index urban flooding awareness act action support, contract report, will and DuPage counties, illinois; illinois state water survey prairie research institute university of illinois at urbana-champaign, 1.
4. Bannari, A., Mohammed, G., Battay, El., & Ali & Mohamed, Nadir & Rouai, M. (2017). Detection of areas associated with flash floods and erosion caused by rainfall storm using topographic attributes. Hydrologic Indices and GIS. https://doi.org/10.1007/978-3-319-51844-2_13
5. Barker, D. M., Lawler, D. M., Knight, D. W., Morris, D. G., Davies, H. N., & Stewart, E. J. (2009). Longitudinal distributions of river flood power: The combined automated flood, elevation and stream power (CAFES) methodology. Earth Surface Processes and Landforms, 34(2), 280–290.