Abstract
The sources of atmospheric radioactivity are discussed and compared. Radon isotopes and their daughters' dominate the natural background of beta activity in the surface air. The man-made radionuclides, much of them beta emitters, started to contaminate regionally and globally the environment after 1940's due to the atmospheric nuclear bomb tests. Additional significant sources of technogenic radionuclides in the atmosphere were nuclear accidents with pronounced examples of Chernobyl and Fukushima. The Bulgarian network for atmospheric radioactivity monitoring has been developing since 1959 in the frame of the state Hydro-meteorological service, now National Institute of Meteorology and Hydrology. It includes daily measurements of aerosol beta activity and deposition immediately and 120h after the sampling. The time and space variations of deposited beta activity, based on long term data records are presented and impact assessment of the different sources is given. The role of precipitation in deposition of radionuclides is evaluated. (author)
Veleva, B.
[1]
- National Institute of Meteorology and Hydrology, Bulgarian Academy of Sciences, Sofia (Bulgaria)
Citation Formats
Veleva, B.
Atmospheric deposition of long-lived Beta radionuclides over the territory of Bulgaria during the last decades.
Bulgaria: N. p.,
2013.
Web.
Veleva, B.
Atmospheric deposition of long-lived Beta radionuclides over the territory of Bulgaria during the last decades.
Bulgaria.
Veleva, B.
2013.
"Atmospheric deposition of long-lived Beta radionuclides over the territory of Bulgaria during the last decades."
Bulgaria.
@misc{etde_22257359,
title = {Atmospheric deposition of long-lived Beta radionuclides over the territory of Bulgaria during the last decades}
author = {Veleva, B.}
abstractNote = {The sources of atmospheric radioactivity are discussed and compared. Radon isotopes and their daughters' dominate the natural background of beta activity in the surface air. The man-made radionuclides, much of them beta emitters, started to contaminate regionally and globally the environment after 1940's due to the atmospheric nuclear bomb tests. Additional significant sources of technogenic radionuclides in the atmosphere were nuclear accidents with pronounced examples of Chernobyl and Fukushima. The Bulgarian network for atmospheric radioactivity monitoring has been developing since 1959 in the frame of the state Hydro-meteorological service, now National Institute of Meteorology and Hydrology. It includes daily measurements of aerosol beta activity and deposition immediately and 120h after the sampling. The time and space variations of deposited beta activity, based on long term data records are presented and impact assessment of the different sources is given. The role of precipitation in deposition of radionuclides is evaluated. (author)}
journal = []
issue = {1}
volume = {7}
journal type = {AC}
place = {Bulgaria}
year = {2013}
month = {Jul}
}
title = {Atmospheric deposition of long-lived Beta radionuclides over the territory of Bulgaria during the last decades}
author = {Veleva, B.}
abstractNote = {The sources of atmospheric radioactivity are discussed and compared. Radon isotopes and their daughters' dominate the natural background of beta activity in the surface air. The man-made radionuclides, much of them beta emitters, started to contaminate regionally and globally the environment after 1940's due to the atmospheric nuclear bomb tests. Additional significant sources of technogenic radionuclides in the atmosphere were nuclear accidents with pronounced examples of Chernobyl and Fukushima. The Bulgarian network for atmospheric radioactivity monitoring has been developing since 1959 in the frame of the state Hydro-meteorological service, now National Institute of Meteorology and Hydrology. It includes daily measurements of aerosol beta activity and deposition immediately and 120h after the sampling. The time and space variations of deposited beta activity, based on long term data records are presented and impact assessment of the different sources is given. The role of precipitation in deposition of radionuclides is evaluated. (author)}
journal = []
issue = {1}
volume = {7}
journal type = {AC}
place = {Bulgaria}
year = {2013}
month = {Jul}
}