Page 143 - AJWEP-v22i2
P. 143
Radioactive levels in Ali Al-Sharqi and Kumait soils
and ELCR , and AGDE were calculated. The mean zone of India. J Environ Earth Sci. 2012;65:2103-2110.
tot
values for radiological risk parameters in the study doi: 10.1007/s12665-011-1191-9
areas were below the globally recommended safety 3. Otansev P, Karahan G, Kam E, Barut I, Taskin H.
values reported by UNSCEAR in 2,000. Assessment of natural radioactivity concentrations and
Consequently, natural radioactivity measurements gamma dose rate levels in Kayseri, Turkey. Radiat Prot
indicate that Ali Al-Sharqi and Kumait soils are Dosimetry. 2012;148(2):227-236.
doi: 10.1093/rpd/ncr023
considered radiologically safe and do not pose any 4. Rahman S, Matiullah MF, Rafique M, Anwar J,
health risks to the public. Furthermore, the findings Ziafat M. Measurement of naturally occurring/fallout
of this study provide valuable baseline data that radioactive elements and assessment of annual effective
can support the development of maps for naturally dose in soil samples collected from four districts of the
occurring radioactivity, aiding in future soil radiological Punjab province, Pakistan. J Radioanal Nucl Chem.
environmental monitoring effects. 2011;287(2):647-655.
doi: 10.1007/s10967-010-0819-7
Acknowledgments 5. Kassa MK, Deressu TT. Measurement of natural
radioactivity levels and evaluation of radiological
The authors would like to thank the Iraqi Ministry of hazard risks in areas of eastern coastline sediments of
Environment for their continuous support. Lake Hawassa in Ethiopia’s Sidama Region. J Phys.
2023;9(4):1819-1837.
Funding doi: 10.22059/poll.2023.357027.1843
6. Hameed PS, Pillai GS, Satheeshkumar G, Mathiyarasu R.
None. Measurement of gamma radiation from rocks used as
building material in Tiruchirappalli District, Tamil Nadu,
Conflict of interest India. J Radiat Nucl Chem. 2014;300:1081-1088.
doi: 10.1007/s10967-014-3033-1
7. Ramasamy V, Suresh G, Meenakshisundaram V,
The authors declare that they have no competing Ponnusamy V. Horizontal and vertical characterization
interests. of radionuclides and minerals in river sediments. Appl
Radiat Isot. 2011;69(1):184-195.
Author contributions doi: 10.1016/j.apradiso.2010.07.020
8. Rani A, Singh S. Natural radioactivity levels in soil
Conceptualization: Zahraa A. Ismail AL-Sudani samples from some areas of Himachal Pradesh,
Formal analysis: All authors India using γ-ray spectrometry. Atmos Environ.
Investigation: Zahraa A. Ismail AL-Sudani, Sawsan 2005;39(34):6306-6314.
Sherif doi: 10.1016/j.atmosenv.2005.07.050
Methodology: All authors 9. Al-Jundi J, Al-Bataina B, Abu-Rukah Y, Shehadeh HM.
Writing – original draft: Zahraa A. Ismail AL-Sudani, Natural radioactivity concentrations in soil samples
Sawsan Sherif along the Amman Aqaba Highway, Jordan. Radiol Meas.
Writing – review & editing: Zahraa A. Ismail AL-Sudani 2003;36(1-6):555-560.
doi: 10.1016/S1350-4487(03)00202-6
10. Kurnaz A, Küçükömeroğlu B, Keser R, et al.
Availability of data Determination of radioactivity levels and hazards of soil
and sediment samples in Fırtına Valley (Rize, Turkey).
The datasets used and analyzed during the current Appl Radiat Isot. 2007;65(11):1281-1289.
study are available from the corresponding author upon doi: 10.1016/j.apradiso.2007.06.001
reasonable request. 11. Harb SRM, Din KS, Abbady AE, Mohamed AEE,
Michel R. Measurements of natural radionuclides in
References soil samples from Upper Egypt. Nucl Sci Technol.
2008;19(5):302-307.
1. UNSCEAR. Effects of Ionizing Radiation. New York: doi: 10.1016/S1001-8042(09)60008-7
United Nations; 2000. p. 453-487. 12. Ajayi OS. Measurement of activity concentrations of
2. Banerjee KS, Guin R, Gutierrez-Villanueva JL, 40 K, Ra and Th for assessment of radiation hazards
226
232
Charro ME, Sengupta D. Variation in u-238 and th-232 from soils of the SouthWestern region of Nigeria. Radiat
enrichment in u-mineralized zone and geological Environ Biophys. 2009;48:323-332.
controls on their spatial distribution, Singhbhum shear doi: 10.1007/s00411-009-0225-0
Volume 22 Issue 2 (2025) 137 doi: 10.36922/AJWEP025060032
