Bouhsane N., and Bouhlassa S. (2018). Assessing Magnetic Susceptibility Profiles of Topsoils under Different Occupations. International Journal of Geophysics. 2018,1-8.
Canbay M. 2010 Investigation of the relation between heavy metal contamination of soil and its magnetic susceptibility International Journal of Physical sciences 5 393–400
Chaturvedi, R. K., and Raghubanshi, A. S. (2015). Assessment of carbon density and accumulation in mono-and multi-specific stands in Teak and Sal forests of a tropical dry region in India. Forest Ecology and Management. 339, 11–21.
Dearing J. A., Dann R. J. L, Hay K. (1996). “Frequency-dependent susceptibility measurements of environmental materials,” Geophysical Journal International, 124(1) 228–240.
Dearing J.A., 1999, Environmental Magnetic Susceptibility, Using the Bartington MS2 System. Second edition, England: Chi Publishing.
DSH, (District Statistical Handbook) (2018-2019). Department of Economics and Statistics, Tiruvannamalai, Government of Tamil Nadu; released by the District Collectorate, Tiruvannamalai District, Tamil Nadu.
Durai Ganesh, Eswaran, P, Senthilkukmar, G, Bramha, S.N., Chandrasekaran, S, Ravisankar. R, (2020) A Quantitative study of Natural Uranium Present in Ground Water of Tiruvannamalai district of India Iranian Journal of Science and Technology, Transactions A: Science. 45,545-555.
Geological Survey of India’s Website, Government of India, http://bukosh.gsi.gov.in/Bhukosh
Fuller MA., Feamebough W., Mitchel D., Trueman IC. (1995). Desert reclamation using Yellow River irrigation water in Ningxia, China. Soil Use Manage. 11, 77-83.
Harikrishnan, N., Chandrasekaran, A., Ravisankar, R., & Alagarsamy, R. (2018). Statistical assessment to magnetic susceptibility and heavy metal data for characterizing the coastal sediment of East coast of Tamilnadu, India. Applied Radiation and Isotopes, 135, 177–183.
HuXF., Su Y., Ye R., LiXQ and ZhangGL. (2007). Magnetic properties of the urban soils in Shanghai and their environmental implications Catena. 70, 428–36.
Jordanova NV., Jordanova DV., Veneva L., Yorova K and Petrovsky E. (2003). Magnetic response of soils and vegetation to heavy metal pollution. A case study Environ SciTechnol . 37, 4417–24.
Lal R., Shukla M.K. (2004), Principles of Soil Physics. Marcel Dekker, New York.
Liu Q., Torrent J., Maher B. A. (2005). “Quantifying grain size distribution of pedogenic magnetic particles in Chinese loess and its significance for pedogenesis,” Journal of Geophysical Research: Solid Earth, 110, B11102,1-7.
Maher B. A. (1986). Characterisation of soils by mineral magnetic measurements. Physics of the Earth and Planetary Interiors. 42(1-2), 76–92.
Newson M. Environmental magnetism by Roy _ompson and Frank Oldfield, vol. 13, Allen and Unwin, London, UK, 1988.
Osakwe SA., Okolie LP. (2015). Physicochemical characteristics and heavy metals contents in soils and cassava plants from farmlands along a major highway in Delta State, Nigeria. J. Appl. Sci. Environ. Manage. 19(4), 695-704.
Otto, M. (1998). Multivariate methods. In R. Kellner, J. M. Mermet, M. Otto, & H. M.Widmer (Eds.), Analytical chemistry. Weinheim: WileyeVCH.
Ramasamy V, Paramasivam K, Suresh G, Jose MT (2014) Role of sediment characteristics on natural radiation level of the Vaigai river sediment, Tamilnadu, India. J Environ Radioact 127:64–74
Ravisankar, R., Sivakumar, S., Chandrasekaran,A., Kanagasabapathy, K.V., Prasad, M.V.R., Satapathy, K.K. 2015. Statistical assessment of heavy metal pollution in sediments of east coast of Tamilnadu using Energy Dispersive X-ray Fluorescence Spectroscopy (EDXRF), Applied Radiation and Isotopes, 102, 42–47.
Ravisankar R, Tholkappain M, Chandrasekaran A, Eswaran, P., Atef El-Taher (2019) Effects of Physico chemical properties on heavy metal, magnetic susceptibility and natural radionuclides in Chennai coastal sediment of East Coast of Tamilnadu, Applied Water Science, 9: 151.
Report No ESSO/IMD/HS/R.F. REPORT/02 (2014)/18, Rainfall statistics of India 2013, IndiaMeteorological Department (Ministry of Earth Sciences) by Dr. (Mrs.) Surinder Kaur and M.K. Purohit.
Sadiki A., Faleh A., Navas A., andBouhlassa S. (2009). Usingmagnetic susceptibility to assess soil degradation in the Eastern Rif, Morocco. Earth Surface Processes and Landforms., 34(15), 2057–2069.
Senthil Kumar C. K., Chandrasekaran A. (2020) Multivariate statistical tool to analyse the environmental magnetic data in Ponnai River Sand, Tamil Nadu Environmental Earth Sciences. 79,497. DOI: 10.1007/s12665-020-09241-7.
Shivanna AM, Nagendrappa G (2014) Chemical analysis of soil samples to evaluate the soil fertility status of selected command areas of three tanks in Tiptur Taluk of Karnataka, India. IOSR J Appl Chem 7(11):01–05.
Sonaye SY, Baxi RN (2012) Particle size measurement and analysis of flour. Int J Eng Res Appl 2(3):1839–1842
Yang T., Liu Q., Chan L and Cao G. (2007). Magnetic investigation of heavy metals contamination in urban topsoils around the East Lake, Wuhan, China Geophys. J. Int. 171 603–12.
Zhang C., Qiao Q., Piper J.D.A., Huang B. (2011): Assessment of heavy metal pollution from a Fe-smelting plant in urban river sediments using environmental magnetic and geochemical methods. Environmental Pollution, 159: 3057–3070.