2005
DOI: 10.1097/01.hp.0000164519.03575.80
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Impacts of Stable Element Intake on 14c and 129i Dose Estimates

Abstract: The purpose of this study was to evaluate and provide insights related to the influence of the intake of stable isotopes of carbon and iodine on the committed doses due to the ingestion of (14)C and (129)I. This was accomplished through the application of two different computational approaches. The first was based on the assumption that ground (drinking) water was the only source of intake of (14)C and (129)I, as well as stable carbon and stable iodine. In the second, the intake of (14)C and (129)I was still a… Show more

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Cited by 9 publications
(5 citation statements)
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“…Accounting for its specific activity (1.65 ϫ 10 11 Bq g Ϫ1 ) (Table 1) the total daily mass intake of this radionuclide would be 1.19 ϫ 10 Ϫ11 g. Since this would be diluted by a daily intake of 300 g of stable carbon ( 12 C ϩ 13 C), this means that the ratio of the mass of the daily intake of stable carbon to that for 14 C [(300 g d Ϫ1 ) Ϭ (1.19 ϫ 10 Ϫ11 g d Ϫ1 )] would be 2.52 ϫ 10 13 , or 25 trillion to 1. This places an upper bound on the dose rate that the intake of 14 C can yield (Moeller et al 2005).…”
Section: Dose Rate Estimates For 14 Cmentioning
confidence: 97%
See 1 more Smart Citation
“…Accounting for its specific activity (1.65 ϫ 10 11 Bq g Ϫ1 ) (Table 1) the total daily mass intake of this radionuclide would be 1.19 ϫ 10 Ϫ11 g. Since this would be diluted by a daily intake of 300 g of stable carbon ( 12 C ϩ 13 C), this means that the ratio of the mass of the daily intake of stable carbon to that for 14 C [(300 g d Ϫ1 ) Ϭ (1.19 ϫ 10 Ϫ11 g d Ϫ1 )] would be 2.52 ϫ 10 13 , or 25 trillion to 1. This places an upper bound on the dose rate that the intake of 14 C can yield (Moeller et al 2005).…”
Section: Dose Rate Estimates For 14 Cmentioning
confidence: 97%
“…THIS PAPER is based on observations and findings that have resulted from five years of studies of various facets of the Yucca Mountain (YM) high-level radioactive waste repository Ryan 2004, 2005;Moeller et al 2005Moeller et al , 2007. As the title implies, the primary topics that will be discussed are (1) the appropriateness and applicability of the radiation protection Standards promulgated by the U.S. Environmental Protection Agency (U.S. EPA 2005), and the accompanying Regulations promulgated by the U.S. Nuclear Regulatory Commission (U.S. NRC 2005); (2) insights gained in estimating the dose rates due to postulated releases of the eight regulated radionuclides, and assessments of their compliances with the Standards; and (3) the dominating influences and impacts of the relationships between dose and risk.…”
Section: Introductionmentioning
confidence: 99%
“…Highlighting the importance of this observation is that surveys indicate that the estimated average daily intake of stable iodine in the U.S. has decreased from 300 g in the early 1970's to about 150 g today (NRC 2004). These observations make it mandatory that periodic assessments and updates be made of the dietary intakes of various stable elements in the U.S., as well as other countries of the world (Moeller and Ryan 2005). Nonetheless, because the assessment for 14 C indicated neither conservatism nor non-conservatism, and the estimate of the non-conservatism associated with the assessment for 129 I was so small, neither is currently a significant source of conservatism or non-conservatism with respect to dose estimates associated with radionuclide releases from the proposed Yucca Mountain repository.…”
Section: Influence Of Stable Element Intakementioning
confidence: 98%
“…These are 14 C, 99 Tc, 129 I, 226 Ra, 228 Ra, 237 Np, 239 Pu, and 241 Am (Garrick 2003). Topics previously addressed include a review and evaluation of the applicable regulations, with emphasis on their apparent inconsistencies; the sensitivity of the dose estimates as a function of the source of the relevant coefficients; and differences in the estimated doses to various age groups (Moeller and Ryan 2005). Supplementing these efforts were papers on the effects of the intakes of stable carbon and iodine on doses from 14 C and 129 I , and on the importance of 14 C and 228 Ra in terms of releases from the proposed repository (Moeller et al 2006).…”
Section: Introductionmentioning
confidence: 99%
“…(1) the quantity of radioactive material taken up by the agricultural commodity ingested; e.g., 1.2 percent of 137 Cs deposited on grass could be transferred to milk (Saricks, et al, 1989), (2) the chemical form and activity of ingested radioactive material in any particular organ or tissue (the ingestion dose conversion factor); for example, the bone surface dose from dissolved 137 Cs is 1.4 x 10 -8 Sv/Bq 1 (ICRP, 1996) , (3) the type and energy of ionizing radiation ingested (e.g. see ICRP, 1983), and (4) the extent to which a target organ is saturated with stable (non-radioactive) isotopes of the radionuclide in question (Moeller, et al, 2005). The ingestion dose model assumes that every radioactive atom is ingested by someone and therefore contributes to a collective, societal dose.…”
Section: The Ingestion Dose Structurementioning
confidence: 99%