Assessment of Gamma Dose Rate in Indoor Environments in Selected Districts of Ardabil Province, Northwestern Iran
Abstract
Gamma rays pose enough energy to remove electrons from atoms of absorbing material including human body and adversely affect human health. The external exposure of human beings to natural environmental gamma radiation normally exceeds that from all man-made sources combined. Therefore, we monitored gamma dose rate in indoor environments and estimated corresponding annual effective dose in selected districts of Ardabil Province, Iran. Indoor environmental gamma dose rates were measured using an Ion Chamber Survey Meter, FLuke-451b, in 88 selected dwellings (One in city center and the remaining in cardinal and ordinal directions with an appropriate distance from each other) in Ardabil, Sar Ein, Germy and Kosar. The measurements of gamma radiation dose rate were performed at 20 and 100 cm above the ground for a period of one hour. Average absorbed dose rate (i.e. arithmetic average of dose rate at 20 and 100 cm above the ground) inside buildings for Ardabil, Sar-Ein, Germy, and Kosar were 238, 221, 402, and 361 nSvh-1, respectively. The respective corresponding values for annual affective absorbed dose rate due to indoor environments for the studied area were 1.17, 1.08, 1.97, and 1.77 mSv, respectively. Calculated annual effective doses for selected districts of Ardabil Province were appreciably higher than the population weighted average exposure to environmental gamma radiation worldwide as well as the average estimated value for Iran.
ATSDR. Toxicological profile for ionizing radiation. Agency for Toxic Substances and Disease Registry Atlanta GUSDoHaHS. 1999.
UNSCEAR. Exposures from Natural Radiation Sources. United Nations Scientific Committee on the Effects of Atomic Radiation Report to the General Assembly wSABNYU. Annexes B. 2000.
UNSCEAR. Dose assessment methodologies. United Nations Scientific Committee on the Effects of Atomic Radiation Report to the General Assembly wSAANYUN, Annexes A. 2000.
Selvasekarapandiana S, Lakshmib K S, Brahmanandhan G M, Meenakshisundaram V. Indoor gamma dose measurement along the East coast of Tamilnadu, India using TLD. International Congress Series 2005; 1276: 327– 328.
Al-Saleh FS. Measurements of indoor gamma radiation and radon concentrations in dwellings of Riyadh city, Saudi Arabia. Appl Radiat Isot 2007; 65(7): 843-8.
Miah MI. Environmental gamma radiation measurements in Bangladeshi houses. Radiation Measurements 2004; 38(3): 277-80.
Harrad S, Hazrati S, Ibarra C. Concentrations of polychlorinated biphenyls in indoor air and polybrominated diphenyl ethers in indoor air and dust in Birmingham, United Kingdom: implications for human exposure. Environ Sci Technol 2006; 40(15): 4633-8.
Saghatchi F, Salouti M, Eslami A. Assessment of annual effective dose due to natural gamma radiation in Zanjan (Iran). Radiat Prot Dosimetry 2008; 132(3): 346-9.
Ghiassi-nejad M, Mortazavi SM, Cameron JR, Niroomand-rad A, Karam PA. Very high background radiation areas of Ramsar, Iran: preliminary biological studies. Health Phys 2002; 82(1): 87-93.
Sohrabi M, Ahmed JU, Durrani SA, High levels of natural radiation. 3rd international conference on high levels of natural radiation, 3-7 November 1990; Ramsar, Iran.
Hadad K, Doulatdar R, Mehdizadeh S. Indoor radon monitoring in Northern Iran using passive and active measurements. J Environ Radioact 2007; 95(1): 39-52.
Hadad K, Doulatdar R. U-series concentration in surface and ground water resources of Ardabil province. Radiat Prot Dosimetry 2008; 130(3):309-18.
Malekzadeh R, Sotoudeh M, Derakhshan MH, Mikaeli J, Yazdanbod A, Merat S, et al. Prevalence of gastric precancerous lesions in Ardabil, a high incidence province for gastric adenocarcinoma in the northwest of Iran. J Clin Pathol 2004; 57(1): 37-42.
Yazdanbod A, Nasseri-Moghaddam S, Malekzadeh R. Upper gastrointestinal cancer in Ardabil, North-West of Iran: A review. Archives of Iranian Medicine 2004; 7(3):173-7.
Malathi J, Andal Vanmathi AK, Paramesvaran A, Vijayshankar R, Selvasekarapandian S. Study of indoor gamma radiation in Coimbatore City, Tamilnadu, India. International Congress Series 2005; 1276: 344–345.
Bouzarjomehri F, Ehrampoush MH. Gamma background radiation in Yazd province; a preliminary report. Iranian Journal of Radiation Research. 2005; 3(1):17-20.
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Issue | Vol 2 No 1 (2010) | |
Section | Articles | |
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Keywords | ||
Gamma radiation Ionizing radiation |
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