Ahmadi, M., And Eslami, M. (2011). A new approach to plane failure of rock slope stability based on the water flow velocity in discontinuities for the Latian dam reservoir landslide. J. Mt. Sci. 8:124–130.
Ahmed, M. F., Kang, X. And Khan, M. S. (2016). Impact of rainwater infiltration on the stability of Earth slopes. Int. J. Econ. Environ. Geol. 7(2):20–25.
Alexander, D. E. (1999). Landslide; natural disasters. pp 242-266. Kluwer academic publishers, The Netherlands.
Ali, D., Majeed, Y., Shahzad, M., Iqbal, M. M., Liaqat, S., Gill, M. A., and Ali, M. A. (2015). Detailed slope stability analysis of selected slope sites situated along Katas-Choa Saiden shah road. international journal of engineering inventions, 5(1), 32–43.
Anbalagan, R. (1992). Landslide hazard evaluation and zonation mapping in mountainous terrain. Eng. Geol. 32: 269-277.
Asmare, Dawit. and, Hailemariam, Trufat. (2021). Assessment of rock slope stability using slope stability probability classification ( SSPC ) system, around AlemKetema, Scientific African, 12, e00730. https://doi.org/10.1016/j.sciaf.2021.e00730
Asmelash A. and Barbieri G. (2012). Landslide susceptibility and causative factors evaluation of the landslide area of Debresina, in the southwestern afar escarpment, Ethiopia. journal of earth science and engineering 2: 133-144.
Braathen, A., Grenne, T., Selassie, M.G., and Worku, T. (2001). The juxtaposition of Neoproterozoic units along the Barbuda-Tulu Dimtu shear belt in the East African
Orogen of western Ethiopia. Precamb. Res. 107: 215–234.
Birhanu Ermias, Raghuvanshi, T. K., and Bekele Abebe. (2017). Landslide hazard zonation (LHZ) around Alemketema town, North Showa Zone, Central Ethiopia - a GIS-based expert evaluation approach. international journal of earth sciences and engineering, 10(1), 33–44.
Bommer, J.J., Rodrı´guez, C.E. (2002). Earthquake-induced landslides in Central America.
Eng. Geol. 63, 189–220.
Carrara, A. Cardinali, M., Guzzetti, F. (1992). Uncertainty in assessing landslide hazard and risk, ITC J. 2, PP. 172–183.
Chen, H., Lee, C. F. And Law, K. T. (2004). Causative mechanisms of rainfall-induced fill slope failures. J. Geotech. Geoenviron. Eng. 130:593–602.
Chen, X., Guo, H., And Song, E. (2008). Analysis method for slope stability under rainfall action. Landslides and Eng. Slopes 1507–1515.
Collison, A., Wade, S., Griffiths, J., and Dehn, M. (2000). Modeling the impact of predicted climate change on landslide frequency and magnitude in SE England. Eng. Geol. 55:205-218.
Dahal, R.K., Hasegawa, S., Masuda, T., Yamanaka, M. (2006). Roadside slope failures in
Nepal during torrential rainfall and their mitigation. disaster mitigation of debris
flows, slope failures and landslides, pp. 503–514
Dai, F. C., and Lee, C. F. (2011). Terrain-based mapping of landslide susceptibility using a geographical information system: a case study. Canadian Geot. Journal, 38(5), 911–923.
Dawit Lebenie and Bussert, R. (2009). Stratigraphy and facies architecture of Adigrat sandstone, Blue Nile Basin, Central Ethiopia. Zentral Blatt Geol. Paläont 1(3/4): 217–232.
Dawit Lebenie (2010). Adigrat sandstone in northern and central Ethiopia: Adigrat sandstone in northern and central Ethiopia: stratigraphy, facies, depositional environments, and palynology. Unpublished Ph.D. Thesis, Technische Universität Berlin, German,166 pp.
Du, G., Zhang, Y., Iqbal, J., Yang, Z. and, and Yao, X. (2017). Landslide susceptibility mapping
using an integrated model of information value method and logistic regression in the
Bailongjiang watershed, Gansu Province, China. Journal of Mountain Sci.,14(2), 249–268.
Fall, M. Azzam, R. Noubactep, C. (2006). A multi-method approach to study the stability of natural slopes and landslide susceptibility mapping. Eng. Geol. 82, PP. 241–263.
Gani, N. D., and Abdelsalam, M. G. (2006). Remote sensing analysis of the gorge of the Nile, Ethiopia with emphasis on Dejen – Gohatsion region. J. Afr. Earth Sci. 44:135–150.
Gani, N. D., M. G. Abdelsalam, S. G., and M. R. Gani. (2008). Stratigraphic and structural evolution of the Blue Nile Basin, Northwestern Ethiopian Plateau. Geo. J. 44:30–56.
Getaneh Assefa (1991). Lithostratigraphy and environment of deposition of the late Jurassic - early Cretaceous sequence of the central part of Northwestern Plateau, Ethiopia. N.Jb. Geol. Palaont. Abh. 182(3): 255–284.
Hack, R. (1998). Slope stability probability classification, SSPC. 2nd edn. Vol.43, ITC Delt Pub., Enschede, The Netherlands, 273 pp.
Hack, R. (2002). An evaluation of slope stability classification. In: ISRM EUROCK’2002, Portugal Madeira Funchal, pp. 3 – 32. Lisboa, Portugal.
Hagos Gebreslassie. (2014). Land use-land cover dynamics of Huluka watershed, Central Rift Valley, Ethiopia. Int. Soil and Water Con. Research 2(4):25–33.
Hamza, T., and Raghuvanshi, T. K. (2017). GIS based landslide hazard evaluation and zonation –a case from Jeldu District, Central Ethiopia. Journal of King Saud Univ. Sci., 29, 151-165.
Hays, W.W. (1980). Procedures for estimating earthquake ground motion. U.S. Geol. Surv. Prof. Paper. 1114, 77pp.
Hoek, E., and Bray, J.W. (1981). Rock slope engineering (revised third ed.). Ins. Of Mining and Metallurgy, London, 358Pp.
Ismail, E. H., and Abdelsalam, M. G. (2012). Morpho-tectonic analysis of the Tekeze River and the Blue Nile drainage systems on the Northwestern Plateau, Ethiopia. J. Afr. Earth Sci. 69:34–47.
Jaboyedoff, M., Baillifard, F., Bardou, E., and Girod, F. (2004). The effect of weathering on Alpine rock instability. Quarterly J. Eng. Geo. And Hydrogeo. 37:95–103.
Johnson, R.B., Degraff, J.V. (1991). Principles of Engineering Geology. John Willy and Sons, New York, pp. 497.
Kanungo, D. P., Arora, M. K., Sarkar, S., and Gupta, R. P. (2006a). Landslide susceptibility
zonation (LHZ) Mapping – A Review. Journal of South Asia Disaster Studies 2. PP1-81.
Kanungo, D.P., Arora, M.K., Sarkar, S., Gupta, R.P. (2006b). “A comparative study of conventional, ANN black box, fuzzy and combined neural and fuzzy weighting procedures for landslide susceptibility zonation in Darjeeling Himalayas”. Eng. Geol. 85, PP. 347–366.
Karaman, K., Ercikdi, B., And Kesimal, A. (2013). The assessment of slope stability and rock excavatability in a limestone quarry. Earth Sci. Res. Sj. 17(2):169–181.
Keefer, D.V. (2000). “Statistical analysis of an earthquake-induced landslide distribution – the 1989 Loma Prieta, California event”. Eng. Geol. 58, PP. 231–249.
Kifle Woldearegay. (2013). Review of the occurrences and influencing factors of landslides in the highlands of Ethiopia: with implications for infrastructural development. Momona Ethiopian Journal of Science (Mejs), 5(1996), 3–31.
Laike Mariam Asfaw (1986). Environmental hazard from fissures in the Main Ethiopian Rift. J. Affr. Earth. Sci. 27 (3/4): 481 - 490.
Lee S, Min K. (2001) Statistical analysis of landslide susceptibility at Yongin. Korean Environ Geol 40:1095–1113.
Li, X. Z. and Xu, Q. (2015). Application of the sspc method in the stability assessment of highway rock slopes in the Yunnan province of China. Bull.Eng.Geol.Env. 75(2): 551-562.
Lulseged Ayalew and Yamagishi, H. (2005). The application of GIS-based logistic regression for landslide susceptibility mapping in the Kakuda-Yahiko Mountains, Central Japan, 65, 15–31.
Lulseged Ayalew and Yamagishi, H. (2004). slope failures in the Blue Nile basin, as seen from a landscape evolution perspective, 57, 95–116.
Lulseged Ayalew, Yamagishi, H., and Ugawa, N. (2004). Landslide susceptibility mapping using GIS-based weighted linear combination, the case in Tsugawa area of Agano River, Niigata Prefecture, Japan. Landslides. 1:73–81.
Mangesha, Tefera, Tewedros Chernet, and Workneh Haro (1996). Geological map of Ethiopia (1:2,000,000), 2nd ed., Inst. Geo. Surv. Ethiopia, Addis Ababa, Ethiopia.
Mogessie, A., Krenn, K., Schaflechner, J., Koch, U., Egger, T., Goritchnig, B., and Bauernfeind, D. (2002). A geological excursion to the Mesozoic sediments of the Abay Basin (Blue Nile), recent volcanic of the Ethiopian Main Rift, And basement rocks of the Adola Rea, Ethiopia. Mitt.Österr. Miner.Ges.147:43–74.
Pantelidis, L. (2009). Rock slope stability assessment through rock mass classification systems. Int. J. Rock Mech. and Min. Sci. 46:315–325.
Parise, M., and Jibson R. W. (2000). A seismic landslide susceptibility rating of geological units based on analysis of characteristics of landslides triggered by the 17 January 1994 Northridge, California Earthquake. Engineering Geology 58. Pp 251-270.
Poppe, L., Frankl, A., Poesen, J., Teshageradmasu, Dessie, M., Adgo, E. and Nyssen, J. (2013). geomorphology of the Lake Tana Basin, Ethiopia. J. Maps 9(3):431–437.
Price, D. G. (2009). Engineering geology principles and practice. Springer-Verlag, Berlin Heidelberg, Germany, 450 PP.
Raghuvanshi, T. K., Ibrahim, J.and Ayalew, D. (2014). Slope stability susceptibility evaluation parameter (SSEP) rating scheme – an approach for landslide hazard zonation. J. Afr. Earth Sci. 99:595–612.
Russo, A., Getaneh Assefa, and Balemwal Atinafu (1994). Sedimentary evolution of the Abay River (Blue Nile) basin, Ethiopia. N.Jb.Geol.Palaont. Mh. 291–308.
Seifu Kebede, Travi, Y., Tamiru Alemayehu, and Tenalem Ayenew (2005). Groundwater recharge, circulation, and geochemical evolution in the source region of the Blue Nile River, Ethiopia. App. Geoch. 20:1658–1676.
Soeters, R., and Van Westen, C.J. (1996). Slope instability recognition analysis and zonation.
In: Turner K.T. And Schuster, R.L., Eds., landslides: investigation and mitigation, special
report no. 247, transportation research board national research council, Washington Dc.,129-177
Suradi, M., And Fourie, A. (2014). The effect of rainfall patterns on the mechanisms of shallow slope failure. Aceh Int. J. Sci. Technology 3(1):1–18.
Tenalem Ayenew and Barbieri, G. (2005). Inventory of landslides and susceptibility mapping
In the Dessie area, Northern Ethiopia. Eng. Geol.77: 1-15.
Van Westen, C.J., Rengers, N., Soeters, R. (2003). Use of Geomorphological Information in
Indirect Landslide Susceptibility Assessment. In: Natural Hazards Vol. 30. Kluwer
Academic Publishers: 330-419.
Van Westen, C.J., (1993). Remote Sensing and Geographic Information Systems for
Geologic Hazard Mitigation. In: Space Congress, Bremen, Germany, Vol.
Environmental Assessment of Geological Hazards: 63-71.
Varnes, D. J. And the international association of engineering geology commission on landslide and other mass movements on slopes (1984). Landslide hazard zonation: a review of principles and practice (ISBN 92-3-101895-7) United Nations Educational, Scientific and Cultural Organization (UNESCO), 7 places de Fontenoy, 75700 Paris, France, 60 pp.
Wang, X., Niu, R. (2009). Spatial forecast of landslides in three gorges based on spatial data mining. Sensors 9, 2035–2061.
Wolela Ahmed (2009). Sedimentation and depositional environments of the Barremian-Cenomanian Debre Libanose Sandstone, Blue Nile (Abay) basin, Ethiopia. Cretaceous Research 30(5):1133–1145.
Wolela Ahmed. (2010). Diagenetic evolution of the Ansian – Pliensbachian Adigrat sandstone, Blue Nile Basin, Ethiopia. J. Afr. Earth Sci. 56(1):29–42.
Wolela Ahmed (2008). Sedimentation of The Triassic – Jurassic Adigrat sandstone formation, Blue Nile (Abay) Basin, Ethiopia. J.Afr. Earth Sci.52:30–42.
Zare, M., Jimenez, R., Khalokakaie, R., And Jalali, S. E. (2011). A probabilistic systems methodology to analyze the importance of factors affecting the stability of rock slopes. Eng. Geo. 118(3–4):82–92.
Zhao, L., Cao, J., Zhang, Y. and Luo, Q. (2015). Effect of hydraulic distribution on the stability of a plane slide rock slope under the nonlinear Barton-Bandis failure criterion. Geomech. and Eng. 8(3):391–414.