The flux of radon and thoron from Australian soils

Schery, Stephen D.; Whittlestone, S.; Hart, K. P.; Hill, S. E.

doi:10.1029/jd094id06p08567

Cited by 111 publications

(66 citation statements)

References 12 publications

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“…This instrument was used to collect all of the data listed in Table 1 with the exception of the mainland survey which used a different device, but following the same principle (Schery et al, 1989). In a comparison with eight others at a field site, the radon flux density measured with our instrument was within one standard deviation of the mean and higher by 31% (Hutter and Knutson, 1998).…”

Section: Accumulation Chamber Measurementsmentioning

confidence: 99%

A map of radon flux at the Australian land surface

et al. 2010

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Abstract.A time-dependent map of radon-222 flux density at the Australian land surface has been constructed with a spatial resolution of 0.05 • and temporal resolution of one month. Radon flux density was calculated from a simple model utilising data from national gamma-ray aerial surveys; modelled soil moisture, available from 1900 in near realtime; and maps of soil properties. The model was calibrated against a data set of accumulation chamber measurements, thereby constraining it with experimental data. A notable application of the map is in atmospheric mixing and transport studies which use radon as a tracer, where it is a clear improvement on the common assumption of uniform radon flux density.

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Section: Accumulation Chamber Measurementsmentioning

confidence: 99%

A map of radon flux at the Australian land surface

et al. 2010

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“…In this paper, we turned our attention to the relation between the exhalation rates and soil moisture content. For example, Schery et al 10) and Koarashi et al 3) reported on the relationship between the radon exhalation rate and the soil moisture content, using the accumulation method for in situ measurement. Megumi and Mamuro 9) and Iimoto 4) reported on the relationship between the thoron exhalation rate and the soil moisture content by way of an indoor experiment and in situ measurement, respectively.…”

Section: Introductionmentioning

confidence: 99%

“…The results of these studies suggest that regional variation in exhalation rates is mainly controlled by soil characteristics. [5][6][7][8] Much research has been conducted concerning the relationship between the exhalation rates and the soil moisture content, 3,4,9,10) pressure difference in soil air, 11) and effect of rainfall, 12) etc. In this paper, we turned our attention to the relation between the exhalation rates and soil moisture content.…”

Section: Introductionmentioning

confidence: 99%

Effect of Soil Moisture Content on Radon and Thoron Exhalation

Hosoda

Shimo

Sugino

et al. 2007

Journal of Nuclear Science and Technology

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ÃÃIn this study, the authors considered the effect of soil moisture in the emanation process of radon and thoron gases. Weathered granite soil was selected as the test soil and it was packed in a polypropylene container (275 Â 210 mm 2 and 100 mm in height), up to 50 mm in depth from the bottom. The container was covered with the exhalation rate measuring instrument adopting the accumulation method and -particles were counted at 30 s intervals for 30 min to estimate the exhalation rates. A sporadic increase in the radon and thoron exhalation rates was caused by the increase in the moisture content up to 8%. However, the exhalation rates showed a decreasing tendency with the increase in moisture content over 8%. Although the measured radon exhalation rate was about 25% of the calculated one, both measured and calculated radon exhalation rates had similar trends with an increase in the moisture content in the soil. The measured thoron exhalation rate agreed well with the calculated one. When the moisture content was in the range of 3.5-18%, it was considered that applying the correlation between the moisture content and the measured thoron exhalation rate is useful for estimating the thoron effective diffusion coefficient.

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“…The flow of radon and thoron impedes into the interior of cemented houses due to the coating of ground surface and walls with the layers of cement in the cemented house. As the soil is an important source of indoor radon 13 , the emanation of radon is also higher from the ground surface of the house.…”

Section: Inhalation Dosementioning

confidence: 99%

Estimation of inhalation dose due to exposure to radon, thoron and their progeny in the indoor environment of Shahjahanpur, Uttar Pradesh, India

Kumar¹,

Kumar²,

Kumar³

et al. 2018

jusps-A

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Radon and thoron is a radioactive gas that emanates from rocks and soils and tends to concentrate in an indoor environment. Soil gas infiltration is identified as the most important source of residential radon. Other sources, including building materials and water extracted from wells, are also important in some circumstances. Radon is one of the major contributors to the ionizing radiation dose received by the general population. The dose due to radon and thoron are mainly delivered by their decay products which tend to get deposited in the respiratory organs of humans during breathing. In this study the measurement of radon, thoron and their daughter products concentration were carried out in the residential houses of Shahjahanpur, Uttar Pradesh, India using solid state nuclear track detector (SSNTD). The measurements were made in residential houses in the indoor environment of Shahjahanpur, using a twin chamber radon dosimeter. In the present study, it is found that the average value of radon and thoron concentration varies from 18.

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The flux of radon and thoron from Australian soils

Cited by 111 publications

References 12 publications

A map of radon flux at the Australian land surface

A map of radon flux at the Australian land surface

Effect of Soil Moisture Content on Radon and Thoron Exhalation

Estimation of inhalation dose due to exposure to radon, thoron and their progeny in the indoor environment of Shahjahanpur, Uttar Pradesh, India

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