Abstract
Radionuclide {sup 13}1I strongly accumulates in the thyroid gland and leads to disruption of thyroid function and formation of tumors not only in the thyroid gland, but also in other endocrine glands and organs functionally associated with the thyroid gland. Highly sensitive measurements of volume activity of radioactive aerosols in the atmosphere detected radioactive substances from nuclear power plant accident in Fukushima in the atmosphere and also within in Slovakia. Nuclear power plant accident in Fukushima resulted in the release of significant radionuclides {sup 131}I, {sup 134}Cs, {sup 137}Cs. Identified activities fissile radionuclides in Europe after the accident in Fukushima were 3- to 4-time lower than activities that were after the accident at Chernobyl. (authors)
Horvathova, B.;
Dulanska, S.
[1]
- Univerzita Komenskeho, Prirodovedecka fakulta, Katedra jadrovej chemie, 84215 Bratislava (Slovakia)
Citation Formats
Horvathova, B., and Dulanska, S.
Determination of {sup 129}I using x-ray spectrometry; Stanovenie {sup 129}I pomocou x-ray spektrometrie.
Slovakia: N. p.,
2013.
Web.
Horvathova, B., & Dulanska, S.
Determination of {sup 129}I using x-ray spectrometry; Stanovenie {sup 129}I pomocou x-ray spektrometrie.
Slovakia.
Horvathova, B., and Dulanska, S.
2013.
"Determination of {sup 129}I using x-ray spectrometry; Stanovenie {sup 129}I pomocou x-ray spektrometrie."
Slovakia.
@misc{etde_22122200,
title = {Determination of {sup 129}I using x-ray spectrometry; Stanovenie {sup 129}I pomocou x-ray spektrometrie}
author = {Horvathova, B., and Dulanska, S.}
abstractNote = {Radionuclide {sup 13}1I strongly accumulates in the thyroid gland and leads to disruption of thyroid function and formation of tumors not only in the thyroid gland, but also in other endocrine glands and organs functionally associated with the thyroid gland. Highly sensitive measurements of volume activity of radioactive aerosols in the atmosphere detected radioactive substances from nuclear power plant accident in Fukushima in the atmosphere and also within in Slovakia. Nuclear power plant accident in Fukushima resulted in the release of significant radionuclides {sup 131}I, {sup 134}Cs, {sup 137}Cs. Identified activities fissile radionuclides in Europe after the accident in Fukushima were 3- to 4-time lower than activities that were after the accident at Chernobyl. (authors)}
place = {Slovakia}
year = {2013}
month = {Apr}
}
title = {Determination of {sup 129}I using x-ray spectrometry; Stanovenie {sup 129}I pomocou x-ray spektrometrie}
author = {Horvathova, B., and Dulanska, S.}
abstractNote = {Radionuclide {sup 13}1I strongly accumulates in the thyroid gland and leads to disruption of thyroid function and formation of tumors not only in the thyroid gland, but also in other endocrine glands and organs functionally associated with the thyroid gland. Highly sensitive measurements of volume activity of radioactive aerosols in the atmosphere detected radioactive substances from nuclear power plant accident in Fukushima in the atmosphere and also within in Slovakia. Nuclear power plant accident in Fukushima resulted in the release of significant radionuclides {sup 131}I, {sup 134}Cs, {sup 137}Cs. Identified activities fissile radionuclides in Europe after the accident in Fukushima were 3- to 4-time lower than activities that were after the accident at Chernobyl. (authors)}
place = {Slovakia}
year = {2013}
month = {Apr}
}