Effect of Open Dump on Geotechnical Properties and Heavy Metal Concentrations of Soil in North of Hilla City, Babylon Governorate, Iraq

Al-Rubaiee, Abdul-Kareem; Al-Owaidi, Mohanad R. A.

doi:10.22059/poll.2023.353885.1758

Effect of Open Dump on Geotechnical Properties and Heavy Metal Concentrations of Soil in North of Hilla City, Babylon Governorate, Iraq

Document Type : Review Paper

Authors

Department of Applied Geology, College of Science, University of Babylon, Babylon, Iraq

10.22059/poll.2023.353885.1758

Abstract

Random and unscientific disposal of municipal waste is an important factor affecting the geotechnical characteristics and concentrations of heavy metals in the soil. Unconfined compressive strength, Atterberg limit, and maximum dry density tests were included. These tests were designed to determine the effects of open waste dumps on geotechnical properties and the concentration of heavy metals in the underlying open dump soil. Soil samples collected from the landfill at Al-Sayyahia Village, Babylon Governorate, showed changes in the rates of geotechnical properties evaluation, as the value of the confined compressive strength decreased by high rates from 54 to 22 kN/m2. As well, when comparing the maximum values of dry density of samples from the control site, neighboring the landfill, the average value decreased from 1.91 to 1.74 gm/cm3. Chemical tests revealed that the pH and organic matter percentages in the open dump soil samples were significantly higher than in the control site. These percentages ranged from 9.67% and 2.542% to 7.4% and 0.215%, respectively. In addition, the average value of electrical conductivity was 5.6 mS/cm in the open dump soil, whereas in the control site was 3.6 mS/cm. Iron, lead, Copper, Nickel, Chrome, Zinc, Cadmium, and Arsenic have average concentrations of 4.64%, 14.02, 44.86, 236.36, 278.36, 95.26, 2.034, and 13.84 ppm, respectively. They are higher at open landfill sites than in control site samples.

Keywords

Main Subjects

heavy metals

References

Agbeshie, A. A., Adjei, R., Anokye, L. & Banunle, A. (2020). Municipal waste dumpsite: Impact on soil properties & heavy metal concentrations, Sunyani, Ghana. Sci. Afri., 8; e00390. https://doi.org/10.1016/j.sciaf.2020.e00390
Ajibade, F. O., Adelodun, B., Ajibade, T. F., Lasisi, K. H., Abiola, C., Adewumi, J. R. & Akinbile, C. O. (2021). The threatening effects of open dumping on soil at waste disposal sites of Akure City, Nigeria. International Journal of Environment & Waste Management, 27(2); 127-146. https://www.researchgate.net/publication/343218193
Al-Ansari, A. C. N., Hussein, H. M., Kamaleddin, S., Knutsson, S., Pusch, R., & Laue, J. (2017). Soil Characteristics in Selected L&fill Sites in the Babylon Governorate, Iraq. Journal of Civil Engineering & Architecture, 11(4); 348-363.
Ali, S. M., Pervaiz, A., Afzal, B., Hamid, N. & Yasmin, A. (2014). Open dumping of municipal solid waste & its hazardous impacts on soil & vegetation diversity at waste dumping sites of Islamabad city. J. King Saud Univ. Sci., 26(1); 59-65. https://doi.org/10.1016/j.jksus.2013.08.003
Al-Rubaiee, A. H. & Al-Owaidi, M. R. (2022). Assessment of Heavy Metal Contamination in Urban Soils of selected areas in Hilla City, Babylon, Iraq. Iraqi Journal of Science, 63(4); 1627-1641. https://doi.org/10.24996/ijs.2022.63.4.21
Asres, M. B., Haddis, A. & Ousman, Z. W. (2020). Assessment of the effect of solid waste dump site on surrounding soil & river water quality in Tepi town, Southwest Ethiopia. J. Environ. Health, (7); 1-9. https://doi.org/10.1155/2020/5157046
ASTM D-2166-82 (1986). St&ard Test Method For, Unconfined Compressive Strength of Cohesive Soil, Annual Book of ASTM St&ards Vol, 04. 08.
ASTM D-2487 (2011). St&ard practice for classification of soils for engineering purposes (unified soil classification system). American society for testing materials, West Conshohocken, Pennsylvania, pa19428.
ASTM D-422 (2007). St&ard test methods for particle-size analysis of soils. Annual book of ASTM standards, ASTM International, West Conshohocken, Pennsylvania, pa19428, USA, 2007.
ASTM D-698 (2012). St&ard test methods for laboratory compaction characteristics of soil using standard effort (600knm/m3), reprinted from the annual book of ASTM standards. Copyright ASTM, Vol. 4, No.8.
ASTM D-854 (2010). St&ard test methods for specific gravity of soil solids by water pycnometer. Annual book of ASTM standards, Vol. 04.08, Philadelphia, ASTM, USA. Copyright, ASTM international, 10&0 bar harbor drive, PO box c700, West Conshohocken.
ASTM D-854 (2010). St&ard test methods for specific gravity of soil solids by water pycnometer. Annual book of ASTM standards, Vol. 04.08, Philadelphia, p&a, ASTM, USA. Copyright, ASTM international, Barr harbor drive, PO box c700, West Conshohocken.
ASTM, D-2216 (2005). St&ard test methods for laboratory determination of water (moisture) content of soil & rock by mass. West Conshohocken: American society for testing & materials.
Brevik, E. C. (2014). Soil health & productivity. In W. Verheye (Eds.), Soils, Plant Growth & Crop Production (pp. 106-137). EOLSS, UNESCO.
Breza-Boruta, B., Lemanowicz, J. & Bartkowiak, A. (2016). Variation in biological & physicochemical parameters of the soil affected by uncontrolled landfill sites. Environ. Earth Sci., 75(3); 201–213. https://doi.org/10.1007/s12665-015-4955-9
Dominquez, M., Nunez, P. R., Pineiro, J. & Barral, M. T (2019). Physicochemical & biochemical properties of an acid soil under potato culture amended with municipal solid waste compost. Int. J. Recycl. Org. Waste Agric., 8; 171–178. https://doi.org/10.1007/s40093-019-0246-x
Essienubong, I. A., Okechukwu, E. P. & Ejuvwedia, S. G. (2019). Effects of waste dumpsites on geotechnical properties of the underlying soils in wet season. Environmental Engineering Research, 24(2); 289-297. https://doi.org/1 0.4491/eer.2018.162
Fazeli, G., Karbassi, A., Khoramnejadian, S. & Nasrabadi, T. (2019). Evaluation of Urban Soil Pollution: A Combined Approach of Toxic Metals & Polycyclic Aromatic Hydrocarbons (PAHs). International Journal of Environmental Research, 13; 801–811.
Indoria, A. K., Sharma, K. L., Reddy K. S. & Rao, C. S. (2017). Role of soil physical properties in soil health management & crop productivity in rainfed systems I: soil physical constraints & scope. Curr. Sci., 112(12); 2405-2414.
Jassim, S. Z. & Goff, J. C. (Eds.) (2006). Geology of Iraq. Dolin, Prague.
Jonasi, V., Matina, K., Guyou, U. (2017). Removal of Pb (II) & Cd (II) from aqueous solution using alkaline-modified pumice stone powder (PSP): equilibrium, kinetic, & thermodynamic studies. Turkish Journal of Chemistry, 41(5); 748-759. https://doi.org/10.3906/kim-1701-40
Karbassi, S., Nasrabadi, T. & Shahriari, T. (2016). Metallic pollution of soil in the vicinity of National Iranian Lead & Zinc (NILZ) Company. Environmental Earth Sciences, 75(22); 1433. https://doi.org/10.1007/s12665-016-6244-7
Kebede, G. E., Mekonnen, E. & Manikandan, R. (2018). Composition & characterization of municipal solid waste in landfill site: in case of Dilla city, Ethiopia. Environmental Science: An Indian Journal, 14(1); 170-177.
Lagerkvist, A. & Dahlen, L. (2019). Solid Waste Generation & Characterization. In: N. J., Themelis, & A. C., Bourtsalas (Eds.), Recovery of Materials & Energy from Urban Waste: A Volume in the Encyclopedia of Sustainability Science & Technology, 2nd ed. (pp. 7-20). Springer, New York.
Montgomery, C. W. (2011). Environmental Geology, (9th Ed.). McGraw-Hill Companies, New York.
Nasrabadi T. & Maedeh P. A. (2014). Groundwater quality assessment in southern parts of Tehran plain, Iran. Enviro. Earth Sci., 71; 2077–2086. https://doi.org/10.1007/s12665-013-2610-x
Okonkwo, C. I., Arinzechukwu, P. & Njoku, C. (2013). Changes in physical & chemical properties of soil in timber sawmill dumpsite in Abakaliki, Abakaliki Southeastern, Nigeria. Int. J. Environ. Clim. Chang., 3(2); 215–228. https://doi.org/10.9734/BJECC/2013/2038
Oladipo, A. A., Ahaka, E. O. & Gazi, M. (2019). High adsorptive potential of calcined magnetic biochar derived from banana peels for Cu2+, Hg2+, & Zn2+ ions removal in single & ternary systems. Environmental Science & Pollution Research, 26; 31887–31899. https://doi.org/10.1007/s11356-019-06321-5
Pattnaik, S. & Reddy, M. V. (2010). Assessment of municipal solid waste management in Puducherry (Pondicherry), India. Resources, Conservation & Recycling, 54(8); 512–520. https://doi.org/10.1016/j.resconrec.2009.10.008
Saravanakumar, K., Senthilkumar, R., Prasad, D. M., Reddy, P., Balakrishna, S. N., Manickam, S. & Gajendiran, V. (2020). Batch & Column Arsenate Sorption Using Turbinaria ornata Seaweed Derived Biochar: Experimental Studies & Mathematical Modeling. Chemistry Select, 5(12); 3661–3668. https://doi.org/10.1002/slct.202000548
Sozubek, B., Belliturk, K. & Saglam, M. T. (2015). Effect of Zinc Application on Cadmium Uptake of Maize Grown in Alkaline Soil. Commun Soil Sci Plant Anal, 46(10); 1244-1248. https://doi.org/10.1080/00103624.2015.1033534
Taylor, S. & McLennan, S.M. (1985). The continental crust: Its composition & evolution. an examination of the geochemical record preserved in sedimentary rocks. Blackwell Scientific Publication, Oxford University.

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Effect of Open Dump on Geotechnical Properties and Heavy Metal Concentrations of Soil in North of Hilla City, Babylon Governorate, Iraq

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Volume 9, Issue 3
July 2023
Pages 1015-1027

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Effect of Open Dump on Geotechnical Properties and Heavy Metal Concentrations of Soil in North of Hilla City, Babylon Governorate, Iraq

References

Volume 9, Issue 3July 2023Pages 1015-1027

Files

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How to cite

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Volume 9, Issue 3
July 2023
Pages 1015-1027