Weathering and landslide occurrences in parts of Western Ghats, Kerala

Anbazhagan, S., Sajinkumar, S.K. and Singh, T.N. (2011) Remote sensing and geotechnical Studies for slope failure assessment in part of Ernakulam and Idukki District, Kerala, India. In: T.N. Singh and Y.C. Sharma (Eds.), Slope Stability (Natural and Man Made Slope). Vayu Education of India, New Delhi, pp.255–281.

Buma, J. and Dehn, M. (1998) A method for predicting the impact of climate change on slope stability. Environ. Geol., v.35(2–3), pp.190–196.

Deepthy, R. and Balakrishnan, S. (2005) Climatic control on clay mineral formation: Evidence from weathering profiles developed on either side of the Western Ghats. Jour. Earth System Sci., v.114, pp.545–556.

Derose, R.C., Trustrum, N.A. and Blaschke, P.M. (2006) Postdeforestation soil loss from steepland hillslopes in Taranaki, New Zealand. Earth Surface Process and Landform, v.11(2), pp 131–144.

Dokuz, A. and Tanyolu, E. (2004) Geochemical Constraints on the Provenance, Mineral Sorting and Subaerial Weathering of Lower Jurassic and Upper Cretaceous Clastic Rocks of the Eastern Pontides, Yusufeli (Artvin), NE Turkey. Turkish Jour. Earth Sci., v.15, pp.181–209.

Fluente, J.D.L., Elder, D. and Miller, A. (2002) Does deforestation influence the activity of deep-seated landslides? Observations from the flood of 1997 in the Central Klamath Mountains, Northern California. The evolving Pacific Northwest Landscape: Geomorphic and Ecologic controls, constrains, and conundrums in the Quaternary. May 13–15, 98th Annual meeting Abstracts.

Jenny, H. (1941) Factors in soil formation. McGraw Hill, New York, 271p.

Jha, C.S., Dutt, C.B.S. and Bawa, K.S. (2000) Deforestation and land use changes in Western Ghats, India. Curr. Sci., v.79(2), pp.231–237.

Koshimoto, S., Tsunogae, T. and Santosh, M. (2004) Sapphire and Corundum bearing ultra-high temperature rock from the Palghat-Cauvery shear system, Southern India. Jour. Mineral. Petrol. Sci., v.99, pp.298–310.

Lindsay, P., Campbell, R.N., Fergusson, D.A., Gillard, G.R. and Moore, T.A. (2001) Slope stability probability classification, Waikato Coal Measures, New Zealand. Internat. Jour. Coal Geol., v. 45, nos.2–3, pp.127–145.

Nesbitt and Young (1984) Prediction of some weathering trends of plutonic and volcanic rocks based on thermodynamic and kinetic consideration. Goechim. Cosmochim. Acta, v.54, pp.1523–1534.

Oldham, R.D. (1894) The evolution of Indian Geography. The Geographical Jour., v.III(3), pp.169–179.

Pascoe, E.H. (2001) Physical Geography of the Western Ghats. In: Y. Gunnell and B.P. Radhakrishna, (Eds.), Sahyadri: The great escarpment of the Indian subcontinent. Mem. Geol. Soc. India, no.47(1), pp.67–69.

Pasuto, A. and Silvano, S. (1998) Rainfall as a trigger of shallow mass movements. A case study in the dolomites, Italy. Environ. Geol., v.35(2–3), pp.184–189.

Price, J.R. and Velbel, M.A. (2003) Chemical weathering indices applied to weathering profiles developed on heterogeneous felsic metamorphic parent rocks. Chemical Geol., v. 202, pp.397–416.

Rajan, P.K., Santosh, M. and Ramachandran, K.K. (1984) Geochemistry and petrogenetic evolution of the diatexites of Central Kerala, India. Proc. Indian Acad. Sci. (Earth Planet. Sci.), v.93(1), pp.57–69.

Ranger, J. (2002) Le cycle biogeochimique des elements nutritifs dans les ecosystems forest. INRA, Nancy, 168p.

Rastogi, B.K., Chanda, R.K., Kumar, N., Satymurthy, C., Sarma, C.S.P. and Raju, I.P. (1989) Report on the Idukki earthquake of magnitude 4.5 on June 7 1988 as an example of reactivation of a NW-SE wrench fault in Peninsular India. NGRI Tech. report. No. ENVIRON 61,78.

Sajinkumar, K.S. (2005) Geoinformatics in landslide risk assessment and management in parts of Western Ghats, Central Kerala, South India. PhD Thesis (Unpublished). Indian Institute of Technology Bombay, 197p.

Santosh, M., Iyer, S.S. and Vasconcellos, M.B.A. (1987) Rare earth element geochemistry of the Munnar carbonatite, Central Kerala. Jour. Geol. Soc. India, v.29, pp.335–343.

Smyth, C.G. and Royle, S.A. (2000) Urban landslide hazards: incidence and causative factors in Niterói, Rio de Janerio State, Brazil. Applied Geography, v.20, pp.95–117.

Soreghan, M.J., Soreghan, G.S. and Hamilton, M.J. (2002) Geochemistry and Detrital Zircon Geochronology of Upper Paleozoic Loessite within the Ancestral Rocky Mountains: Implications for Paleoclimate. AAPG Hedberg Conference “Late Paleozoic Tectonics and Hydrocarbon Systems of Western North America, The Greater Ancestral Rocky Mountains” July 21–26 Colorado.

Subramanya, K.R. (2001) Origin and evolution of the Western Ghats and the west coast of India. In: Y. Gunnell and B.P. Radhakrishna (Eds.), Sahyadri: The great escarpment of the Indian subcontinent. Mem. Geol. Soc. India, no.47(1), pp.463–473.

Terlien, M.T.J. (1998) The determination of statistical and deterministic hydrological landslide-triggering thresholds. Environ. Geol., v.35(2–3), pp.124–130.

Trefthen, J.M. (1950) Classification of sediments. Amer. Jour. Sci., v.248, pp.55–62.

Van Asch, Th.W.J., DE Brum Ferreira, A. and Rodrigues, M.L. (1999) The role of conditioning and triggering factors in the occurrence of landslides: A case study in the area north of Lisbon (Portugal). Geomorphology, v30, pp.133–146.

Wilson, R.C. and Wieczorek, G.F. (1995) Rainfall thresholds for the initiation of debris flows at La Honda, California. Environ. Engg. Geoscience, v.1, pp.11–27.

Zhou, C.H., Lee, C.F., Li, J. and Xu, Z.W. (2002) On the spatial relationship between landslides and causative factors on Latau Island, Hong Kong. Geomorphology, v.43, pp.197–207.