Water Quality and Radionuclides Content Assessment of the Al-Najaf Sea: Case Study

Zwain, Haider M.; Almurshedi, Kareem Radhi; Vakili, Mohammadtaghi; Dahlan, Irvan; Naje, Ahmed Samir

doi:10.12911/22998993/131183

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Tytuł artykułu

Water Quality and Radionuclides Content Assessment of the Al-Najaf Sea: Case Study

Autorzy

Zwain Haider M. , Almurshedi Kareem Radhi , Vakili Mohammadtaghi , Dahlan Irvan , Naje Ahmed Samir

Treść / Zawartość

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DOI

10.12911/22998993/131183

Warianty tytułu

Języki publikacji

Abstrakty

The Al-Najaf state is witnessing an increased economic development and attracting more investments that require the development of new areas and exploring new water resources. This study evaluates the quality of 12 surface water samples and groundwater from 12 wells for irrigation according to the salinity and sodicity hazards based on electrical conductivity (EC) and sodium adsorption ratio (SAR). In addition, the concentrations of radionuclides, which include Thorium (²³²Th), Uranium (²³⁸U), Potassium (⁴⁰K) and Cesium (¹³⁷Cs) were tested in four soil samples in the study area. It was found that the average values of pH, total hardness, Na, Ca, Mg, K, Cl, SO₄, NO₃ for groundwater and surface water were 8 and 6, 2287 and 4006 mg/L, 1140 and 1232 mg/L, 378 and 637 mg/L, 327 and 587 mg/L, 2 and 2 mg/L, 989 and 2007 mg/L, 1149 and 1325 mg/L, as well as 2 and 2 mg/L, respectively. From salinity and sodicity hazards analysis, the groundwater had EC of 5242 µS/cm and SAR of 61, whereas surface water had EC of 6253 µS/cm and SAR of 50. Furthermore, the concentrations of radionuclides, i.e. ²³²Th, ²³⁸U, ⁴⁰K and ¹³⁷Cs in the soil samples were found to be 11.02, 34.12, 544.45, and 1.6 Bq/kg, respectively. The concentrations of radionuclides were within the worldwide baseline, expect for ⁴⁰K. The study concluded that both water sources are classified as very high salinity and sodium water (class C4-S4), and it cannot be used for irrigation, only suitable for the salt tolerant crops.

Słowa kluczowe

irrigation water water quality assessment salinity sodicity radionuclide Al-Najaf Sea

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2021

Tom

Vol. 22, nr 2

Strony

262--271

Opis fizyczny

Bibliogr. 20 poz., rys., tab.

Twórcy

autor

Zwain Haider M.

haider.zwain@wrec.uoqasim.edu.iq

College of Water Recourses Engineering, Al-Qasim Green University, Al-Qasim Province, Babylon, Iraq
Department of Civil and Architectural Engineering, College of Engineering, Sultan Qaboos University, P.O. Box 33, Al-Khodh, 123 Muscat, Oman

https://orcid.org/0000-0003-4995-2697

autor

Almurshedi Kareem Radhi

College of Water Recourses Engineering, Al-Qasim Green University, Al-Qasim Province, Babylon, Iraq

autor

Vakili Mohammadtaghi

Green Intelligence Environmental School, Yangtze Normal University, Chongqing 408100, China

autor

Dahlan Irvan

School of Chemical Engineering, Universiti Sains Malaysia, Engineering Campus, Seri Ampangan, 14300 Nibong Tebal, Penang, Malaysia
Solid Waste Management Cluster, Science and Engineering Research Centre, Universiti Sains Malaysia, Engineering Campus, Seri Ampangan, 14300 Nibong Tebal, Penang, Malaysia

autor

Naje Ahmed Samir

College of Water Recourses Engineering, Al-Qasim Green University, Al-Qasim Province, Babylon, Iraq

Bibliografia

1. Abojassim, A.A. & Mohammed, H.A.-U. 2017. Comparing of the uranium concentration in tap water samples at Al-Manathera and Al-Herra Regions of Al-Najaf, Iraq. Karbala International Journal of Modern Science, 3(3), 111–118.
2. Abojassim, A.A., Mohammed, H.A.-U., Najam, L.A. & El-Taher, A. 2019. Uranium isotopes concentrations in surface water samples for Al-Manathera and Al-Heerra regions of An-Najaf, Iraq. Environmental Earth Sciences, 78(5), 132.
3. Ahmed, R.S., Mohammed, R.S. & Abdaljalil, R.O. 2018. The Activity Concentrations and Radium Equivalent Activity in Soil Samples Collected from the Eastern Part of Basrah Governorate in Southern Iraq. International Journal of Analytical Chemistry, 2018, 2541020.
4. Al-Gazaly, H.H., Al-Ulum, M.A.B., Al-Hamidawi, A.A. & Al-Abbasi, A.M. 2014. Natural radioactivity in soil at regions around the uranium mine in AbuSkhair Najaf Province, Iraq. Advances in Applied Science Research, 5(1), 13–17.
5. Ayers, R.S. & Westcot, D.W. 1985. Water quality for agriculture. Food and Agriculture Organization of the United Nations Rome.
6. Bauder, T.A., Waskom, R., Sutherland, P., Davis, J., Follett, R. & Soltanpour, P. 2011. Irrigation water quality criteria. Service in action; no. 0.506.
7. Bouaroudj, S., Menad, A., Bounamous, A., AliKhodja, H., Gherib, A., Weigel, D.E. & Chenchouni, H. 2019. Assessment of water quality at the largest dam in Algeria (Beni Haroun Dam) and effects of irrigation on soil characteristics of agricultural lands. Chemosphere, 219, 76–88.
8. Etteieb, S., Cherif, S. & Tarhouni, J. 2017. Hydrochemical assessment of water quality for irrigation: a case study of the Medjerda River in Tunisia. Applied Water Science, 7(1), 469–480.
9. Ghalib, H.B., Al-Hawash, A.B., Al-Qurnaw, W.S., Sultan, B.H. & Al-enzy, A.W. 2019. Marshes waters sources hydrochemistryof the Bahr Al-Najaf at Najaf Province, Iraq. Journal of Physics: Conference Series. IOP Publishing. pp. 012059.
10. Jadiyappa, S. 2018. Radioisotope: Applications, Effects, and Occupational Protection. in: Principles and Applications in Nuclear Engineering, IntechOpen. London, the UK, pp. 19.
11. Rhoades, J. 1992. The use of saline waters for crop production. FAO.
12. Shahabi, A., Malakouti, M.J. & Fallahi, E. 2005. Effects of Bicarbonate Content of Irrigation Water on Nutritional Disorders of Some Apple Varieties. Journal of Plant Nutrition, 28(9), 1663–1678.
13. Shahid SA & Mahmoudi H. 2014. National strategy to improve plant and animal production in the United Arab Emirates. Soil and water resources Annexes.
14. Shaker M. Al-Jobori, Ali A. Fahad Al-Taii, Farid M. Mohammed & Abass, M.R. 2013. Natural and Contaminated Radioactive Isotopes in Soils of Salah Aldeen, Iraq. Dirasat, 39(1), 98–107.
15. UNSCEAR. 2000. ANNEX B: Exposures from Natural Radiation Sources. United Nations Publications. 9211422388.
16. US Environmental Protection Agency (US EPA). 1986. Quality criteria for water 1986. US Environmental Protection Agency.
17. US Salinity Laboratory Staff. 1954. Diagnosis and Improvement of Saline and Alkali Soils. US Department of Agriculture, Washington, USA.
18. Zaman, M., Shahid, S.A. & Heng, L. 2018a. Guideline for salinity assessment, mitigation and adaptation using nuclear and related techniques. Springer, Switzerland.
19. Zaman, M., Shahid, S.A. & Heng, L. 2018b. Irrigation Water Quality. in: Guideline for Salinity Assessment, Mitigation and Adaptation Using Nuclear and Related Techniques, (Eds.) M. Zaman, S.A. Shahid, L. Heng, Springer. Switzerland, pp. 113–131.
20. Zhao, D., Hao, Z., Wang, J. & Tao, J. 2013. Effects of pH in irrigation water on plant growth and flower quality in herbaceous peony (Paeonia lactiflora Pall.). Scientia Horticulturae, 154, 45–53.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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