E.C.S. Amaral scite author profile

The main source of radiation exposure in most underground mining operations is radon and radon decay products. The situation of radon exposure in underground mining in Brazil is still unknown, since there has been no national regulation regarding this exposure. A preliminary radiological survey in nonuranium mines in Brazil indicated that an underground coal mine in the south of Brazil had high radon concentration and needed to be better evaluated. This paper intends to present an assessment of radon and radon decay product exposure in the underground environment of this coal mining industry and to estimate the annual exposure to the workers. As a product of this assessment, it was found that average radon concentrations at all sampling campaign and excavation sites were above the action level range for workplaces of 500-1500 Bq m(-3) recommended by the International Commission on Radiological Protection--ICRP 65. The average effective dose estimated for the workers was almost 30 times higher than the world average dose for coal miners.

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Uptake of 226Ra and 210Pb by food crops cultivated in a region of high natural radioactivity in Brazil

Vasconcellos

Amaral

Vianna

et al. 1987

Journal of Environmental Radioactivity

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The Radiological Impact of Agricultural Activities in an Area of High Natural Radioactivity

Amaral¹,

Rochedo²,

Paretzke³

et al. 1992

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Preliminary indoor radon risk assessment at the Poços de Caldas Plateau, MG – Brazil

Veiga

Koifman

Melo

et al. 2003

Journal of Environmental Radioactivity

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A retrospective mortality study of workers exposed to radon in a Brazilian underground coal mine

Veiga

Amaral

Colin

et al. 2006

Radiat Environ Biophys

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Recently a high radon concentration was detected in the underground coal mine of Figueira, located in the south of Brazil. This coal mine has been operating since 1942 without taking cognizance of the high radon environment. In order to assess possible radon-related health effects on the workers, a retrospective (1979-2002) mortality study of 2,856 Brazilian coal miners was conducted, with 2,024 underground workers potentially exposed to radon daughters. Standard mortality ratio (SMR) analysis hints at lower mortality from all causes for both underground (SMR = 88, 95% CI = 78-98) and surface workers (SMR = 96, 95% CI = 80-114). A high statistically significant SMR for lung cancer mortality was observed only in the underground miners (SMR = 173, 95% CI = 102-292), with a statistically significant trend reflecting the duration of underground work. High statistically significant SMRs were observed for pneumonia as a cause of death between both surface (SMR = 304, 95% CI = 126-730) and underground miners (SMR = 253, 95% CI = 140-457). Because mortality from smoking-related cancers other than lung cancer was not found elevated in underground workers and because diesel equipments were not used in this mine, it can be concluded that the enhanced lung cancer mortality observed for underground miners is associated with exposure to radon and radon daughters, rather than other confounding risk factors.

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Transfer of 226Ra and 210Pb to Forage and Milk in a Brazilian High Natural Radioactivity Region

Amaral¹,

Carvalho²,

Godoy³

1988

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The Pocos de Caldas plateau, where the Brazilian uranium mine and mill facilities are located, is a natural high radioactivity region. A study has been carried out in order to assess the environmental transport of the natural radionuclides in the region. The present work is concerned with the transfer of 226Ra and 210Pb to forage and milk. Similar concentrations for both radionuclides were found in soil samples. In forage 210Pb concentrations are one order of magnitude higher than those of 226Ra, however, the milk samples presented higher values for 226Ra concentrations. The average forage to milk concentration factors are of the order of 10-4 d.l-1 for 226Ra and 10-5 d.l-1 for 210Pb. Regarding transfer mechanisms, the results suggest the foliar deposition as the main pathway for 210Pb uptake by the forage. In contrast, for 226Ra the root uptake appears as the main transfer pathway.

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E.C.S. Amaral

Radon-222 in Brazil: an outline of indoor and outdoor measurements

Daily ingestion of , , , and in vegetables by inhabitants of Rio de Janeiro City

High radon exposure in a Brazilian underground coal mine

Uptake of 226Ra and 210Pb by food crops cultivated in a region of high natural radioactivity in Brazil

The Radiological Impact of Agricultural Activities in an Area of High Natural Radioactivity

Preliminary indoor radon risk assessment at the Poços de Caldas Plateau, MG – Brazil

A retrospective mortality study of workers exposed to radon in a Brazilian underground coal mine

Transfer of 226Ra and 210Pb to Forage and Milk in a Brazilian High Natural Radioactivity Region

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