Hostname: page-component-78c5997874-dh8gc Total loading time: 0 Render date: 2024-11-10T17:16:47.286Z Has data issue: false hasContentIssue false

Indoor radon concentration: impact of geology in the 2005Kashmir earthquake-affected Bagh area, Azad Jammu and Kashmir, Pakistan

Published online by Cambridge University Press:  15 September 2011

A. Iqbal
Affiliation:
Department of Physics, University of Azad Jammu and Kashmir, Muzaffarabad, Pakistan
M.S. Baig
Affiliation:
Institute of Geology, University of Azad Jammu and Kashmir, Muzaffarabad, Pakistan
M. Akram
Affiliation:
Physics Research Division, PINSTECH, P.O. Nilore, Islamabad, Pakistan
S. Khan
Affiliation:
Department of Physics, University of Azad Jammu and Kashmir, Muzaffarabad, Pakistan
Get access

Abstract

The early Miocene Murree Formation, late Miocene Nagri Formation and recent alluvium rockunits are exposed in the sub-Himalayas of the Bagh area, State of Azad Jammu and Kashmir,Pakistan. The Bagh area was badly affected by the Kashmir earthquake of October 8th 2005which, along the Muzaffarabad Fault, deformed both the hanging and footwall blocks. Thecracks, joints, fissures and fractures in houses and bedrocks might have affected theemission of radon to the surface. Indoor radon concentration measurements were carried outin some dwellings of the Bagh area, Azad Kashmir, Pakistan. The measurements were based onpassive integrative detection of radon using CN-85 plastic track detectors in box-typedosimeters. The radon concentration in dwellings was between 50  ±  11.6 Bq·m-3and 167.1  ±  21.4 Bq·m-3with an overall average of 95.1  ±  15.8Bq·m-3(geometric mean  =  93.4 Bq·m-3). The average radonconcentrations in pucka, semi-pucka and kucha houses were 97.6  ±  15.4 Bq·m-3,89.7  ±  15.2 Bq·m-3 and 101.9  ±  15.9 Bq·m-3, respectively. Themean values of radon concentrations in the Nagri Formation, Murree Formation and recentalluvium lithology were 99.3  ±  15.8, 90.1 and 96.2  ±  15.5 Bq·m-3,respectively. The annual effective dose to the Bagh population was calculated as 2.38  ± 0.77 (1.33  ±  0.2 to 4.7  ±  0.5) mSv. The average radon (95.1  ±  15.8Bq·m-3) concentration in dwellings for the inhabitants of the Bagh area wassafe from radon-related health hazards and was within the recommended action level (ICRPpublication 65 (1993) Protection against radon at home and at work, InternationalCommission on Radiological Protection, Ann. ICRP 23(2)).The indoor radonvalues obtained in the present study are more than the world average of 40Bq·m-3 (UNSCEAR (2000) United Nations Scientific Committee on the Effects ofAtomic radiation, Report to the General Assembly, United Nations, New York).

Type
Article
Copyright
© EDP Sciences, 2011

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abbasi H.R. (2007) Structure, active tectonics, seismotectonics and seismic geohazards microzonation of Chikarkhas and Bagh areas of Eastern Hazara Kashmir Syntaxis, Sub Himalyas, Pakistan, M S Applied Geology Thesis, Institute of Geology, University of Azad Jammu and Kashmir, Pakistan, p. 80.
Akhtar S.S., Wali-Ullah, Hussain A., Muhammad R. (2004) Geological map of the Dhirkot area Muzaffarabad and Bagh districts, AJK and parts of Rawalpindi and Abbottabad districts, Geol. Surv., Pakistan, Geol. Map Series, 5-16.
Akram, M., Khattak, N.U., Iqbal, A., Qureshi, A.A., Ullah, K., Qureshi, I.E. (2005) Measurement of radon concentration in dwellings of Skardu city Pakistan, Radiat. Meas. 40, 695-698. Google Scholar
Baig M.S. (2006) Active faulting and earthquake deformation in Hazara-Kashmir syntaxis, Azad Kashmir, northwest Himalayas, Pakistan, Int. Sci. Conf. Earthquake in Pakistan, its implications and hazard mitigations, Islamabad, pp. 20-21.
Baig, M.S., Lawrence, R.D. (1987) Precambrian to early Paleozoic orogenesis in the Himalayas, Kashmir J. Geol. 5, 1-22. Google Scholar
Barros-Dios, J.M., Ruano-Ravina, A., Gastelu-Iturri, J., Figueiras, A. (2007) Factors under laying residential radon concentration: results from Galicia, Spain, Environ. Res. 103, 185-190. Google Scholar
Choubey, V.M., Ramola, R.C. (1997) Corelation between geology and radon levels in groundwater, soil and indoor air in Bhilangana valley, Garhwal Himalayas, India, Environ. Geol. 32, 258-262. Google Scholar
Choubey, V., Sharma, K.K., Ramola, R.C. (1997) Geology of radon occurrence around Jari in Parvati valley, Himachal Pradesh, India, J. Environ. Rad. 34, 139-147. Google Scholar
Durrani, S.A. (1993) Radon as a health hazard at home: what are the facts? Nucl. Tracks Radia Meas. 22, 303-317. Google Scholar
ERRA (2007) Earthquake reconstruction and Rehabilitation Authority Islamabad, District Profile Bagh.
Fleischer R.L., Price P.B., Walker R.M. (1975) Nuclear tracks in solids: principles and Applications. University of California Press, Berkley, pp. 1-200.
ICRP publication 65 (1993) Protection against radon at home and at work, International Commission on Radiological Protection, Ann. ICRP 23(2)
Iimoto, T., Kosako, T., Sugiura, N. (2001) Measurement of summer Radon and its progeny concentrations along with environmental gamma dose rates in Taiwan, J. Environ. Rad. 57, 57-66. Google Scholar
Iqbal, A., Baig, M.S., Akram, M., Abbasi, S.A. (2010) Indoor radon concentration, outdoor Gamma dose rates and impact of geology in the Dhirkot areas, Azad Jammu and Kashmir, sub-Himalayas, Pakistan, Radioprotection 45, 523-535. Google Scholar
Iqbal, A., Baig, M.S., Akram, M., Kazmi, A., Saleem, S., Qureshi, A.A. (2008) Indoor Built Environ. 17 397-402. CrossRef
Khan M.R. (2007) Structure, active tectonics, seismotectonics and seismic geohazards microzonation of Bagh and Lasdana areas, Sub Himalyas, Pakistan. Thesis M S Applied Geology, Institute of Geology, University of Azad Jammu and Kashmir, Pakistan, p. 79.
Khan, M.S., Naqvi, A.H., Azam, A. (2008) Study of indoor radon and its progeny levels in rural areas of north India using LR-115 plastic track detectors, Radiat. Meas. 43 S385-S388 Google Scholar
Khan, S.A., Ali, S., Tufail, M., Qureshi, A.A. (2005) Radon concentration levels in Fatima Jinnah Women University Pakistan, Radioprotection 40, 11-27. Google Scholar
Rahman, S.U., Anwar, J., Matiullah, (2008) Measurement of indoor radon concentration levels in Islamabad, Pakistan, Radiat. Meas. 43, S401- S404. CrossRefGoogle Scholar
Ramola, R.C., Negi, M.S., Choubey, V.M. (2005) Radon and thoron monitoring in theEnvironment of Kumaun Himalayas: survey and outcomes, J. Environ. Radioact. 79, 85-92. Google Scholar
Reddy, M.S., Reddy, B.S., Reddy, C.G., Reddy, P., Reddy, K.R. (2003) Study of indoor radon and its progeny concentrations levels in the surrounding areas of Hyderabad, Andhra Pradesh, India, Radiat. Meas. 36 507-510. CrossRefGoogle Scholar
Singh, S., Kumar, A., Singh, B. (2005b) Passive integrating radon studies for environmental monitoring in Hamirpur district, Himachal Pradesh, India using solid state nuclear track dectectors, Radiat. Meas. 39 81-85. Google Scholar
Singh, S., Mehra, R., Singh, K. (2005a) Seasonal variation of indoor radon in dwellings of Malwa region, Punjab, Atmos. Environ. 39, 7761-7767. Google Scholar
Sundal, A.V., Henriksen, H., Soldal, O., Strand, T. (2005) The influence of geological factors on indoor radon concentrations in Norway, Sci. Total Environ. 328, 41-53S. Google ScholarPubMed
Tufail, M., Ahmad, N. (1992) Measurement of radon in some cities of Pakistan and assessment of excess lung cancer risk, Nucl. Sci. J. 29(4), 263-272. Google Scholar
Tufail, M., Khan, M.A., Ahmed, N., Khan, H.A., Zafar, M.S. (1992) Measurements of radon concentration in some cities of Pakistan, Radiat. Prot. Dosim. 40 (1), 39-44. Google Scholar
UNSCEAR (2000) United Nations Scientific Committee on the Effects of Atomic radiation, Report to the General Assembly, United Nations, New York.
US Environmental Protection Agency (2009) A citizen guide to Radon EPA 402/K-09/001
Wadia, D.N. (1931) The syntaxis of the Northwest Himalaya: its rocks, tectonics and orogeny, Mem. Geol. Surv., Indian Records 65, 185-370. Google Scholar