Different pollutants in soil, water, and other parts of the environment are so important in portraying environmental pollution, and could come from different source of pollutions including industrial activities. Entering metals into the soil by human activities is an important process in the geochemical cycling of heavy metals. Among the potentially toxic metals, mercury, lead, cadmium, nickel, arsenic, selenium and chromium could be named as the most toxic. Each of these elements is used in industrial activities and most of them are considered as by-products of mining, refining and similar industrial activities. Although the establishment of cement factories is usually associated with job creation and other economic aspects, the purpose of economic interests, is inevitable environmental damage caused by cement factories. Therefore, research on pollution originated from factories appears to be necessary. In order to determine the effect of cement production on farmland around Shahrood cement factory, soil samples were taken from surface soils from depth of 0-30 cm. The samples were analyzed using atomic absorption spectrometer instrument after samples preparation using standard frequently used methods. Soil magnetic susceptibility of the samples was also measured using Saskopto meters MFK1-FA. The results showed that among the parameters studied, the element of Zinc has shown the lowest mean value equal to 0.31 mg·kg-1 and iron has shown the highest mean value equal to 6.36 mg·kg-1.
 Sterckeman, T., Douay, F., Proix, N. and Fourrier, H. (2000) Vertical distribution of Cd, Pb and Zn in soils near smelters in the North of France. Environmental Pollution, 107, 377-389.
 Heller, F., Strzyszcz, Z. and Magiera, T. (1998) Magnetic record of industrial pollution in forest soils of Upper Silesia, Poland. Journal of Geophysical Research, 103, 17767-17774. http://dx.doi.org/10.1029/98JB01667
 Coppola, R., Caggiano, R., D’Emilio, M. and Ragosta, M. (2005) Comparison between in situ soil magnetic susceptibility measurements and heavy metal concentration. Geophysical Research Abstracts, 7, Article ID: 09077.
 Asubiojo, O.I., Aina, P.O. and Oluwole, A.F. (1991) Effect of cement production on the elemental composition of soils in the neighborhood of two cement factories. Water, Air, and Soil Pollution, 57, 819-828.
 Fukuzaki, N., Tamura, R., Hirano, Y. and Mizushima, Y. (1986) Mercury emission from a cement factory and its influence on the environment. Atmospheric Environment, 20, 2291-2299.
 Dearing, J.A., Hannam, J.A., Anderson, A.S. and Wellington, E.M.H. (2001) Magnetic, geochemical and DNA properties of highlymagnetic soils in England. Geophysical Journal International, 144, 183-196.
 Jordanova, N.V., Jordanova, D.V., Veneva, L., Yorova, K. and Petrovsky, E. (2003) Magnetic response of soils and vegetation to heavy metal pollution—A case study. Environmental Science & Technology, 37, 4417-4424.
 Lu, S.G. and Bai, S.Q. (2006) Study on the correlation of magnetic properties and heavy metals content in urban soils of Hangzhou City, China. Journal of Applied Geophysics, 60, 1-12.
 Strzyszcz, Z. and Magiera, T. (1998) Magnetic susceptibility and heavy metals contamination in soils of southern Poland. Physics and Chemistry of the Earth, 23, 1127-1131. http://dx.doi.org/10.1016/S0079-1946(98)00140-2
 Schmidt, A., Yarnold, R., Hill, M. and Ashmore, M. (2005) Magnetic susceptibility as proxy for heavy metal pollution: A site study. Journal of Geochemical Exploration, 85, 109-117.
 Hoffmann, V., Knab, M. and Appel, E. (1999) Magnetic susceptibility mapping of roadside pollution. Journal of Geochemical Exploration, 66, 313-326.
 Magiera, T., Strzyszcz, Z., Kapicka, A., Petrovsky, E. and Magprox Team (2006) Discrimination of lithogenic and anthropogenic influences on topsoil magnetic susceptibility in Central Europe. Geoderma, 130, 299-311.
 Caggiano, R., Coppola, R., D’Emilio, M., Di Leo, S., Macchiato, M. and Ragosta, M. (2005) Comparison between in situ soil magnetic susceptibility measurements and heavy metals concentration: The case study of the agri valley, Basilicata Italy. Geophysical Research Abstracts, 7, Article ID: 09077.