Bagnold, R.A 1954. Experiments on a gravity-free dispersion of large solid spheres in a Newtonian fluid under shear. Proc. Royal Soc. Of London, Series A, 225, 49–63.

Bingham, E.C., 1922. Fluidity and plasticity, McGraw-Hill, New York, 439.

Bird, R.B., Stewart, W.E., and Lightfoot, E.N. 1960 Transport phenomena, John Wiley, New York, 780 pp.

Bozhinskiy, A.N., and Nazarov, A.N. 2000. Two-phase model of debris flow, in: Proc. 2nd Int. Conf. on Debris-Flow Hazards Mitigation: Mechanics, Prediction, and Assessment, Taipei, Taiwan, edited by: Wieczorek, G. F. and Naeser, N. D., Balkema, Rotterdam, 263–269.

Chien, N., and Ma, H. 1958. Properties of slurry flow. J. Sediment Res. 3(3), Beijing, China (in Chinese).

Dai, Z., Huang, Y., Cheng, H., and Xu, Q., 2014. 3D numerical modeling using smoothed particle hydrodynamics of flow-like landslide propagation triggered by the 2008 Wenchuan earthquake. Eng. Geol. 180, 21–33.

Govier, G.W. and Aziz, K. 1982. The flow of complex mixtures in pipes. Krieger Publishing Co. Melbourne, FL.

Guazzelli, E., and Pouliquen, O. 2018. Rheology of dense granular suspensions, J. Fluid Mech. 852.

Hergarten, S., and Robl, J. 2015. Modelling rapid mass movements using the shallow water equations in Cartesian coordinates. Nat. Hazards Earth Syst. Sci. 15 671–685.

Huang, Y., and Dai, Z. 2014. Large deformation and failure simulations for geo-disasters using smoothed particle hydrodynamics method. Eng. Geol. 168 (1), 86–97.

Hunger, O., and McDougall, S. 2009. Two numerical models for landslide dynamic analysis. Computers & Geosciences, 35, 978–992.

Hussin, H.Y., Luna, B.Q., van Westen, C.J., Christen, M., Malet, J.-P., and van Asch, Th.W.J, 2012. Nat. Hazards Earth Syst. Sci., 12, 3075–3090.

Iverson, R.M., and Denlinger, R.P. 2001. Flow of variably fluidized granular masses across three-dimensional terrain 1. Coulomb mixture theory. J. Geophys. Res., 106(B1), 537–552.

Jeffrey, D.P., Kelin, X.W., Alessandro, S., 2001. Experimental study of the grain-flow, fluid-mud transition in debris flows. J. Geol., 109, 427–447.

Julien, P.Y. 1995. Erosion and Sedimentation, Cambridge University Press, 280 p.

Julien, P.Y., and Lan, Y.Q. 1991. On the rheology of hyperconcentrations, J. Hydr. Eng. ASCE, 117(3), 346–353.

Julien, P.Y., and Leon, 2000. Mudfloods, mudflows, and debris flow: classification, rheology and structural design, International Seminar on the Debris Flow Disaster of December 1999. Caracas, Venezuela.

Körner, H.J., 1976. Reichweite und Geschwindigkeitvon Bergstürzen und Flieβschneelawinen. (Reach and velocity of rockslides and powder snow avalanches). Rock Mechanics, 8, 225–256.

Li, S. 2004. A generalized mixture rule for estimating the viscosity of solid-liquid suspensions and mechanical properties of polyphase rocks and composite materials. J. Geophys. Res. 109(B10207), 1–18.

Lin, P.-S., Lee, J.-H., and Chang, C.-W. 2011. An application of the Flo-2D model to debris-flow simulation – A case study of Song-Her District in Taiwan. Italian Journal of Engineering Geology and Environment, 947–956.

Major, J.J., and Pierson, T.C., 1992. Debris flow rheology: experimental analysis of fine grained slurries. Water Resour. Res. 28(3), 841–857.

Maron, S.H., and Pierce, P.E. 1956. Application of Ree-Eyring generalized flow theory to suspensions of spherical particles, J. Colloid Sci., 11, 80–90.

O'Brien, J.S., and Julien, P.Y 1988. Physical properties and mechanics of Hyperconcentrated sediment flows, Proc. ASCE Hyd. Deiv. Spec. Conf. Delineation of Landslides, Flash Flood, and Debris Flow Hazards, Logan Utah, June 1984, 260–279.

Perla, R., Cheng, T.T., McClung, D.M. 1980. A two-parameter model of snow-avalanche motion. Journal of Glaciology, 26, 197–207.

Rickenmann, D., and Koch, T. 1997. Comparison of debris flow modelling approaches. In: Chen, C.L. (Ed.) ,Proceedings of the 1stInternational Conference on Debris-flow Hazards Mitigation: Mechanics, Prediction and Assessment. American Society of Civil Engineers, New York, NY, 576–585 pp.

Takahashi, T. 1980. Debris flow on prismatic open channel. J. Hydr. Div., ASCE, 106(3), 381–396.

Venard, J.K., and Street, R.L. 1975. Elementary Fluid Mechanics, 5th ed., Wiley, New York.

Voellmy, A. 1955. Uber die Zerstörungskraft von Lawinen. Schweiz. Bauztg, 73, 212–217.
Wooster, J.K., Dusterhoff, S.R., Cui, Y., Sklar, L.S., Dietrich, W.E., and Malko, M. 2008. Sediment supply and relative size distribution effects on fine sediment infiltration into immobile gravels, Water Resources Research, 44, W03424.