Effect of Soil Moisture Content on Radon and Thoron Exhalation

Hosoda, Masahiro; Shimo, Michikuni; Sugino, Masato; Furukawa, Mutsuhisa; Fukushi, Masahiro

doi:10.1080/18811248.2007.9711855

Cited by 79 publications

(27 citation statements)

References 17 publications

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“…The saturation value was reached at humidity greater than 5% with one sample, but only at humidity >30 to 40% with the other sample. High humidity close to 100% (moisture content of the samples of about 5%) did not lead to reduced exhalation rates, which is different from the results found for thoron from granitic soil by Hosoda et al (2007).…”

Section: Resultscontrasting

confidence: 93%

Thoron in indoor air: modeling for a better exposure estimate

Meisenberg

Tschiersch

2010

Indoor Air

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The radioactive noble gas radon with its decay products is well known as a health risk. After increased concentrations of the isotope (220)Rn (thoron) have been found in traditional Chinese mud-walled cave dwellings, the need for a model that describes the occurrence of thoron and its decay products indoors has arisen. This work presents such a model from the emergence of thoron in the building material until the decay to the stable (208)Pb and discusses the various influences on the occurrence of these nuclides. The model makes possible to predict the exposure of people staying in a room to thoron and its decay products and--combined with a dose model--to calculate their inhalation doses from easily measurable data.

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Section: Resultscontrasting

confidence: 93%

Thoron in indoor air: modeling for a better exposure estimate

Meisenberg

Tschiersch

2010

Indoor Air

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“…In this regard, it should be noted that the natural moisture content of soil in Gorny Altai is significantly less than in Tomsk. The maximum RFD values on the soil surface are observed at moisture content from 4% to 7% [8,11]. These moisture values coincide with the natural soil moisture in the Altai Mountains.…”

Section: Resultssupporting

confidence: 64%

“…2. Studies [8][9][10][11] show that soil moisture has a profound effect on RFD measurement results. Therefore, to determine soil natural moisture soil sampling was also carried out by means of the cutting ring method at the selected sites.…”

Section: Figure 1 Layout Of the Radon Flux Density Measurement Sitesmentioning

confidence: 99%

Comparative analysis of the measuring results of the radon flux density and Ra-226 specific activity for different soils types

Stavitskaya

Ryzhakova

Удалов

et al. 2019

AIP Conference Proceedings

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High concentration of radon in the premises leads to a risk of oncological diseases in the population living on the lower floors of buildings. In this regard, an assessment of the potential hazard of radon is made in the construction sites under the production of design and construction works. In the Russian Federation radon flux density measured on the earth's surface is used to estimate the potential radon hazard of the building site. The research of the relationship between the radon flux density values and the amount of radium in the soil from which radon is formed is topic of interest. The article demonstrates the comparative analysis of the measuring results of radon flux density and specific activity of Ra-226 obtained on the surface of the different soil types. EXPERIMENTAL PART Radon flux density measurements were carried out in the spring-summer period of 2018 at three testing sites in Tomsk (terrace of the Tom River in the Lagerny Garden, Russia) and seven sites of Gorny Altai (Russia), characterized by different types of soil.

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“…On the other hand, moisture content tended to decrease with a distance from the natural radon source, similar to radon concentration. It was reported that the moisture content induced the increasing the radon exhalation rates [21], however when the soil pores were saturated by water, the exhalation rate was decreased due to adsorption of radon onto the solid mineral phase or liquid phase [22]. In this study, the moisture content with very broad range from 20% to 60% was relatively higher than other previous studies because the sampling was conducted after rainy spell.…”

Section: Radon Concentration and Physicochemical Properties Of Soil Smentioning

confidence: 73%

Effects of radon on soil microbial community and their growth

Lee

Park

Kim

2019

Environmental Engineering Research

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The aim of this study was to estimate the microbial metabolic activity of indigenous soil microbes under the radon exposure with different intensity and times in the secured laboratory radon chamber. For this purpose, the soil microbes were collected from radon-contaminated site located in the G county, Korea. Thereafter, their metabolic activity was determined after the radon exposure of varying radon concentrations of 185, 1,400 and 14,000 Bq/m 3 . The average depth variable concentrations of soil radon in the radon-contaminated site were 707, 860 and 1,185 Bq/m 3 from 0, 15, and 30 cm in deep, respectively. Simultaneously, the soil microbial culture was mainly composed of Bacillus sp., Brevibacillus sp., Lysinibacillus sp., and Paenibacillus sp. From the radon exposure test, higher or lower radiation intensities compared to the threshold level attributed the metabolic activity of mixed microbial consortium to be reduced, whereas the moderate radiation intensity (i.e. threshold level) induced it to the pinnacle point. It was decided that radon radiation could instigate the microbial metabolic activity depending on the radon levels while they were exposed, which could consequently address that the certain extent of threshold concentration present in the ecosystem relevant to microbial diversity and population density to be more proliferated.

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Effect of Soil Moisture Content on Radon and Thoron Exhalation

Cited by 79 publications

References 17 publications

Thoron in indoor air: modeling for a better exposure estimate

Thoron in indoor air: modeling for a better exposure estimate

Comparative analysis of the measuring results of the radon flux density and Ra-226 specific activity for different soils types

Effects of radon on soil microbial community and their growth

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