Kirkuk University Journal for Agricultural Sciences (KUJAS)

Application of Contamination Indices for Soil Pollution Assessment by Heavy Metals in Southern Erbil City

https://doi.org/10.58928/ku26.17218
Volume 17, Issue 2
Spring 2026
Page 163-169
Kirkuk University Journal for Agricultural Sciences (KUJAS)

Document Type : Research Paper

Authors

Rafal Hussein Ali 1
Ismaeel Tahir Ahmad 2

1 University of Salahaddin, Erbil, Kurdistan Region, Iraq, College of Agriculture, Engineering Sciences

2 Department of Soil and Water, College of Agriculture Engineering Sciences, University of Salahaddin, Erbil, Iraq

Abstract
The search was carried out in August and September 2024, in two different polluted location in Erbil city. To investigate the impact of sources of pollution on the environment. In order of this, 23 samples of soil were taken from around the cement factory and oil refinery 0-30 cm depth and then concentration of some heavy metals including Cu, Cd and Ni was measured. Then indices such as Geo-accumulation (Igeo), Contamination Factor (CF), pollution load (PLI) and Potential ecological risk index (PERI) were used to determine the effects of heavy metals on the level of pollution in topsoil. This comprehensive multi-index technique provides an in-depth evaluation of the environmental health and potential hazards associated with these industrial activities. According to the results, for the first location cement factory the range of concentration for Cu (91.43 - 377.42), Cd (1.91 - 15.46) and Ni (59.79 - 835.98) mg.kg-1 respectively, and for the second location oil refinery the range of concentration for Cu (122.13 - 409.46), Cd (1.20 - 19.378 ) and Ni (99.42 - 558.39) mg.kg-1 respectively, this mean the cement factory average of HMs (Cu, Cd and Ni) more than average of the heavy metals of the oil refinery. Depending on the indices used under the study, both of the locations are polluted but depending on the class of each indices the cement factory was more polluted than the oil refinery, mainly because the local soil samples had greater levels of heavy metals and particle matter. This increases the negative impacts on the local ecosystem.

Keywords

Contamination Indices
Heavy Metals
Polluted Sites
Cement Factories
and Oil Refineries
Subjects
[1].   Fujioka, M., Otomo, Y., & Ahsan, C. R. (2013). A novel single-step multiplex polymerase chain reaction assay for the detection of diarrheagenic Escherichia coli. Journal of microbiological methods, 92(3), 289-292.
[2].   Fei, X., Lou, Z., Xiao, R., Ren, Z., & Lv, X. (2020). Contamination assessment and source apportionment of heavy metals in agricultural soil through the synthesis of PMF and GeogDetector models. Science of the Total Environment, 747, 141293.
[3].   Ceccatelli, S., Daré, E., & Moors, M. (2010). Methylmercury-induced neurotoxicity and apoptosis. Chemico-biological interactions188(2), 301-308.
[4].   Olawusi-Peters, O. O. (2017). Assessment of Heavy Metal Pollution in Water, Shrimps and Sediments of Some Selected Water Bodies in Ondo State. Journal of Researches in Agricultural Sciences, 5(2), 12-12.
[5].   Apiratikul, R. (2020). Application of analytical solution of advection-dispersion-reaction model to predict the breakthrough curve and mass transfer zone for the biosorption of heavy metal ion in a fixed bed column. Process Safety and Environmental Protection, 137, 58-65.
[6].   Adejoh, I. P. (2016). Assessment of heavy metal contamination of soil and cassava plants within the vicinity of a cement factory in north central, Nigeria. Advances in Applied Science Research, 7(3), 20-27.
[7].   Addo, M. A., Darko, E. O., Gordon, C., Nyarko, B. J. B., Gbadago, J. K., Nyarko, E., ... & Botwe, B. O. (2012). Evaluation of heavy metals contamination of soil and vegetation in the vicinity of a cement factory in the Volta Region, Ghana.
[8].   Soto-Onate, D., & Caballero, G. (2017). Oil spills, governance and institutional performance: The 1992 regime of liability and compensation for oil pollution damage. Journal of Cleaner Production, 166, 299-311.
[9].   Wu, G. Z., Wang, Y., Qi, H. B., Zhou, Y. M., & Li, D. (2014). The analysis of crude oil nature’s impact on oil pipeline underground divulging pollutant migration. Applied Mechanics and Materials, 675, 332-335.
[10].  Estefan, G., Sommer, R., & Ryan, J. (2013). Methods of soil, plant, and water analysis: a manual for the West Asia and North Africa region.
[11].  Maanan, M., Saddik, M., Maanan, M., Chaibi, M., Assobhei, O., & Zourarah, B. (2015). Environmental and ecological risk assessment of heavy metals in sediments of Nador lagoon, Morocco. Ecological Indicators, 48, 616-626.
[12].  Muller, G. M. M. G. M. G. M. G. P. (1969). Index of geoaccumulation in sediments of the Rhine River..
[13].  Kowalska, J. B., Mazurek, R., Gąsiorek, M., & Zaleski, T. (2018). Pollution indices as useful tools for the comprehensive evaluation of the degree of soil contamination–A review. Environmental geochemistry and health, 40(6), 2395-2420.
[14].  Steindor, K. A., Franiel, I. J., Bierza, W. M., Pawlak, B., & Palowski, B. F. (2016). Assessment of heavy metal pollution in surface soils and plant material in the post-industrial city of Katowice, Poland. Journal of Environmental Science and Health, Part A, 51(5), 371-379.
[15].  Hakanson, L. (1980). An ecological risk index for aquatic pollution control. A sedimentological approach. Water research, 14(8), 975-1001.
[16].  Sadhu, K., Adhikari, K., & Gangopadhyay, A. (2012). Assessment of heavy metal contamination of soils in and around open cast mines of Raniganj area, India. International Journal of Environmental Engineering Research, 1(2), 77-85.
[17].  Tomlinson, D. L., Wilson, J. G., Harris, C. R., & Jeffrey, D. W. (1980). Problems in the assessment of heavy-metal levels in estuaries and the formation of a pollution index. Helgoländer meeresuntersuchungen, 33(1), 566-575.
[18].  Jorfi, S., Maleki, R., Jaafarzadeh, N., & Ahmadi, M. (2017). Pollution load index for heavy metals in Mian-Ab plain soil, Khuzestan, Iran. Data in brief, 15, 584-590.
[19].  Hakanson, L. (1980). An ecological risk index for aquatic pollution control. A sedimentological approach. Water research, 14(8), 975-1001.
[20].  SAS, I. (2012). SAS 9.3 for Windows. SAS Institute.
[21].  Kabata-Pendias, A. (2011). Trace elements in soils and plants/fourth editions. Crc taylor and francis group, boca raton, 505.
[22].  Takeda, A., Kimura, K., & Yamasaki, S. I. (2004). Analysis of 57 elements in Japanese soils, with special reference to soil group and agricultural use. Geoderma, 119(3-4), 291-307.
[23].  De Vos, W., Gregorauskiene, V., Marsina, K., Salminen, R., Salpeteur, I., Tarvainen, T., ... & Slaninka, I. (2006). Distribution of elements in subsoil and topsoil. Geochemical Atlas of Europe, 21-29.
[24].  Jafari, A., Ghaderpoori, M., Kamarehi, B., & Abdipour, H. (2019). Soil pollution evaluation and health risk assessment of heavy metals around Douroud cement factory, Iran. Environmental Earth Sciences, 78(8), 250.
[25].  Amiri, H., Daneshvar, E., Azadi, S., & Azadi, S. (2022). Contamination level and risk assessment of heavy metals in the topsoil around cement factory: A case study. Environmental Engineering Research, 27(5).
[26].  Olatunde, K. A., Sosanya, P. A., Bada, B. S., Ojekunle, Z. O., & Abdussalaam, S. A. (2020). Distribution and ecological risk assessment of heavy metals in soils around a major cement factory, Ibese, Nigeria. Scientific African9, e00496.  
[27].  El-Sherbiny, M. M., Ismail, A. I., & El-Hefnawy, M. E. (2019). A preliminary assessment of potential ecological risk and soil contamination by heavy metals around a cement factory, western Saudi Arabia. Open Chemistry17(1), 671-684.
[28].  Al-Halfy, A., Al-Qurnawi, W. S., & Al-Hawash, A. B. (2021). Evaluation of oil spills in sandy soil of Rumaila oil field area in Basra, Southern Iraq. Marsh Bull16, 47-66.
[29].  Nwosu, F. O., Olulegan, Y. O., Olayinka, O. D., & Fabiyi, S. F. (2021). Investigation of pollution levels of soils within Petroleum Depots in Nigeria. Journal of Chemical Society of Nigeria, 46(4).

Home

Submit Manuscript

Editorial Board

Aims and Scope

Animal and Ethical Approval

Publication Ethics

Guide for Authors

Guide for Reviewer

Indexing and Abstracting

DOI Use

Generative AI (GenAI) Policy

Data Availability and Reproducibility Policy

Peer Review Process

Copyright Policies

Self Archiving Policy

The Time Period of Reviewing Process

Privacy Statement

Plagiarism Policy

Article Processing Charges (APC)

Reviewers

Contact Us