Abdi, E. (2009). An investigation of the effect of tree roots in slope stability in order to use in practical Forest Road Construction and Bioengineering. Ph.D dissertation, University of Tehran, Faculty of Natural Resources, Department of Forestry. (In Farsi)
Abernethy, B., and Rutherfurd, I.D., 2001, The distribution and strength of riparian tree roots in relation to riverbank reinforcement, Hydrological Processes, 15: 63–79
Bischetti, G.B., Chiaradia, E.A., Simonato,T., Speziali, B., Vitali, B., Vullo, P., and Zocco, A., (2005), Root strength and root area ratio of forest species in Lombardy (Northern Italy), Plant and Soil, 278:11–22.
Bischeti, G, B., (2009), Root cohesion of forest species in the Italian ALPS, Plant soil, 324:71-89.
Chiatante, D. Scippa, G. S., Di Dorio, A., Sarnataro, M., (2003), The influence of steep slope on root system development, Journal of Plant Growth Regulation, 21: 247–260.
Cofie, P. and Koolen, A. J., (2001), Test speed and other factors affecting the measurements of tree root properties used in soil reinforcement models, Soil and Tillage Research, 63: 51-56.
Davoudi, M.H.and Fatemi Aqda, M., (2008), Effect of Diameter and Density of Willow Roots on Shear Resistance of Soils, Journal of Geosciences, Vol. 18, No. 71.(In Farsi)
De Baets, S., Poesen, J., Reubens, B., Wemans, K., De Baerdemaeker, J., and Muys, B., (2008), Root tensile strength and root distribution of typical Mediterranean plant species and their contribution to soil shear strength, Plant Soil, 305: 207–226.
Docker, B. B. and Hubble, T. C. T., (2008), Quantifying root-reinforcement of river bank soils by four Australian tree species, Geomorphology, 100: 401–418.
Di Iorio, A. Lasserre. B., Scippa, G. S., and Chiatante, D., (2005), Root System Architecture of Quercus pubescens Trees Growing on Different Sloping Conditions, Annals of Botany, 95: 351–361.
Hubble, T. C. T., Docker, B. B., and Rutherfurd, I. D., (2010), The role of riparian trees in maintaining riverbank stability: A review of Australian experience and practice, Ecological Engineering, 36: 292–304.
Hosseini, A.R., M. Shafai-Bajestan and Musavi, S.H. (2014). Investigation of Root System of Tamarix Trees on Slope of SAIMERH Riverbanks. Journal of Irrigation Sciences and Engineering, 36(4), 98 -100. (In Farsi)
Hosseini, A.R. (2013). Investigation of the effects of riparian tree roots on riverbanks stability (SAIMERH RIVER). Ph.D dissertation, University of Shahid Chamran University of Ahwaz, Water Science Faculty, Department of Hydraulic Structures Engineering. (In Farsi)
Iran water Resource management company, (2009). Systematic study of waterched karkheh river.
Julien, Pierre Y. (1955).River Mechanics, Colorado State University
Mattia, C., Bischetti, G. B., and Gentile, F., (2005), Biotechnical characteristics of root system of typical Mediterranean species, Plant and Soil, 278: 23-32.
Nicoll, B.C., and Ray, D., (1996), Adaptive growth of tree root systems in response to wind action and site conditions, Tree Physiology, 16: 891–898.
Shafai-Bejestan, M., Salimi-Golsheikhi, M., (2002). Investigation of the effects of Tamaricaceae and Popoluse Roots on the Stability of Karoon Banks by Root Geometry, The Scientific Journal of Agricultre, 25(1), sep. 2002. In Farsi
Simon, A., and Collison, A. J. C., (2002), Quantifying the mechanical and hydrologic effects of riparian vegetation on stream bank stability, Earth Surf. Process. Landforms 27: 527–546.