Authors: Abdulmajeed Bashir Mlitan, Ethan Hack

Abstract:

Soil samples were collected from and around Alkomos cement factory, Alkomos town, Libya. Soil physiochemical properties were determined. In addition, olive leaves were scanned for their fungal content. This work can conclude that the results obtained for the examined physiochemical characteristics of soil in the area studied prove that cement dust from the Alkomos cement factory in Libya has had a significant impact on the soil. The affected soil properties are pH and total calcium content. These characteristics were found to be higher than those in similar soils from the same area. The increment of soil pH in the same area may be a result of precipitation of cement dust over the years. Different responses were found in each season and each site. For instance, the dominance of fungi of soil and leaves was lowest at 100 m from the factory and the evenness and diversity increased at this site compared to the control area and 250 m from the factory.

Keywords: Pollution, Soil Microbial, Alkomos, Libya.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1126245

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References:

[1] K. A. Mosbah. “Study the effect of dust of cement from Bengazi cement factory on Olea europaea L. in Hwaer zone,” Unpublished work, MSC Thesis, Omar Almoktar university-Libya, Agriculture department. Omar Almoktar University, Albaida-Libya, 2007. p. 145.
[2] M. El- Soul and A. Mlitan. “Cement manufacturing impact on the Prunus and Ficus trees in Margeb region of Libya” The third international conference for development and environment in the Arab world The centre of environment researches in Egypt Assiut-Egypt. 2006
[3] G. D. Nanos and I. F. Ilias. “Effects of inert dust on olive (Olea europaea L.) leaf physiological parameters” Environmental Science and Pollution Research V.14, 2007. pp. 212-214.
[4] K. H. Sheikh, M. A. Ozturk, and O. Y. Vardar “Field studies of the effects of cement dust on the growth and yield of olive trees in Turkey”. Environmental Conservation V. 3, 1976. pp. 117-122.
[5] V. C. Saralabai and M. Vivekanandan “Effects of application of cement kiln-exhaust on selected soil physico-chemical and biological properties”. Fertilizer Research V.40, 1995. pp.193-196.
[6] I. J. Ibanga, N. B. Umoh and O. B Iren. “Effects of cement dust on soil chemical properties in the Calabar environment, southeastern Nigeria”. Communications in Soil Science and Plant Analysis V.39, 2008. pp. 551-558.
[7] M. R. Khan and M. W Khan, “The effect of fly ash on plant growth and yield of tomato”. Environmental Pollution V.92, 1996. pp. 105-111.
[8] R. K. Chaturvedi and K. Sanka, Laboratory Manual for the Physico-Chemical Analysis of Soil, Water and Plant, Wildlife Institute of India, Dehradun, 2006.
[9] D. C. Washington “Soil survey laboratory metods and procedures for collecting soil samples”. Soil Conservation Service, Department of Agriculture, Washington - U.S.A., 1972.p. 23.
[10] H. Biyik, A. Imali, E. Atalan, S. Tufenkci, and E. Ogun. “Diversity of microfungi in soil polluted by cement factory,” Fresenius Environmental Bulletin, V. 14, pp. 130-137, 2005.
[11] B. Rai and K. Pathak, “Studies on phylloplane microflora of potato in relation to air pollutants”. Environmental Pollution Series A: Ecological and Biological V.26, 1981. pp.153-166.
[12] H. M. Platt, K. M. Shaw and P. J. D Lambshead,. “Nematode species abundance patterns and their use in the detection of environmental perturbations”. Hydrobiologia V.118, 1984. pp.59-66.
[13] A. E. Magurran, “Ecological Diversity and its measurement”. Princeton Univ. Press.1988.
[14] E. H. Simpson, “Measurement of diversity”, Nature, Lond.1949.
[15] Y. A. Youssef, “On the fungal flora of Libyan soils”. Archives of Microbiology V.99. 1974.pp.167-171.
[16] A. B. Mlitan, “Some physical and environment studies for the effect of pollution with the dust of cement on fungi” Unpublished work, MSC Thesis, Biology Department. Misurata University, Misurata - Libya, 2000. p. 148.
[17] J. Facelli and S. Pickett, “Plant litter: Its dynamics and effects on plant community structure”. The Botanical Review V.57, 1991. pp.1-32.
[18] L.L. Shishov, “Soil Studies in the Western Zone of the Socialist People's Libyan Arab Jamahiriya” Secretariat for Agricultural Reclamation and Land Development, Tripoli. 1980.
[19] O. I. Asubiojo, P. O. Aina, A. F. Oluwole, W. Arshed, O. A. Akanle and N. M. Spyrou. “Effects of cement production on the elemental composition of soils in the neighborhood of two cement factories”. Water, Air, and Soil Pollution. V.57-58, 1991. pp.819-828.
[20] İ. Ocak, Y. Sülün and İ. Hasenekoğlu, “The effect of cement dust emitted from Gaziantep cement plant on microfungus flora of surroundings soils”. Trakya Univ J Sci, V.5, 2004.pp.107-115.
[21] M. M. Bagy, “Saprophytic and keratinophilic fungi isolated from desert and cultivated soils continuously exposed to cement dust particles in Egypt. Zentralbl,” Mikrobiolo. V. 147, pp. 418-426, 1992.
[22] S. K. Hemida, “Fungal and Bacterial Populations in Cement-Incorporated Soil”. International Journal of Agriculture & Biology. V.2, 2005.pp.158–161.
[23] A. M. Salama, T. M. A. Abdel-Rahman, M. I. Ali and A. H. Abo-Ellil, “Effect of cement dust as a pollutant on the phylloplane fungi of Ficus-nitida at Helwan Egypt”. Egyptian Journal of Microbiology. V.23, 1988. pp.329-342.
[24] D. A. Ade-Ademilua and O. E. Obalola, “The effect of cement dust pollution on Celosia Argentea Lagos Spinach plant,” Journal of Environment Science and Technology, V. 1, pp. 47-55, 2008.