TTE150

Modelamiento de lahares para la determinación de las zonas de inundación …

8 REFERENCIAS

Álvarez, N. (2020). Evaluación del peligro de inundación por lahares en los volcanes Callaqui, llaima, lonquimay, mocho-choshuenco, tolhuaca y villarrica, chile . Concepción: Universidad de concepción . Andrew, Hall, D. K., & Riggs, G. A. (1998). Global snow cover monitoring using MODIS. Ponencia en el 27º Simposio Internacional de Teledetección del Medio Ambiente de Tromso , 8-12 de junio, pp. 363-366. Bouchut, F., & Westdickenberg, M. (2004). Gravity driven shallow water models for arbitrary topography. Communications in Mathematical Sciences , 2(3), 359–389. Caballero, L., & Capra, L. (2014). The use of FLO2D numerical code in lahar hazard evaluation at Popocatépetl volcano: a 2001 lahar scenario. Natural Hazards and Earth System Science, , 14(12), 3345–3355. Cao, Z., Pender, G., & Carling, P. (2006). Shallow water hydrodynamic models for hyperconcentrated sediment-laden floods over erodible bed. Advances in Water Resources , 29(4), 546–557. Castro-Orgaz, O., Hutter, K., Giraldez, J. V., & Hager, W. H. (2015). Nonhydrostatic granular flow over 3-D terrain: New Boussinesq-type gravity waves? Journal of , 120(1), 1–28. Castruccio, A., & Clavero, J. (2015). Lahar simulation at active volcanoes of the Southern Andes: implications for hazard assessment. Natural Hazards , 77(2), 693- 716. Cembrano, J., & Lara, L. (2009). The link between volcanism and tectonics in the southern volcanic zone of the Chilean Andes: A review. Tectonophysics. 471(1–2), 96–113. Charbonnier, S. J., Connor, C. B., Connor, L. J., Sheridan, M. F., Oliva Hernández, J. P., & Richardson, J. A. (2017). Modeling the October 2005 lahars at Panabaj (Guatemala). Bulletin of Volcanology, , 80(1), 4. Córdoba, G., Villarosa, G., Sheridan, M. F., Viramonte, J. G., Beigt, D., & Salmuni, G. (2015). Secondary lahar hazard assessment for Villa la Angostura, Argentina, using

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