Assessing the Radiological Risks Associated with High Natural Radioactivity of Microgranitic Rocks: A Case Study in a Northeastern Desert of Egypt

Int J Environ Res Public Health. 2022 Jan 1;19(1):473. doi: 10.3390/ijerph19010473.

Abstract

This study aimed to evaluate the radiological hazards of uranium (238U), thorium (232Th), and potassium (40K) in microgranitic rocks from the southeastern part of Wadi Baroud, a northeastern desert of Egypt. The activity concentrations of the measured radionuclides were determined by using a gamma-ray spectrometer (NaI-Tl-activated detector). The mean (238U), (232Th), and (40K) concentrations in the studied rocks were found to be 3680.3, 3635.2, and 822.76 Bq/kg, respectively. The contents in these rocks were elevated, reaching up to 6.3 wt%. This indicated the alkaline nature of these rocks. The high ratios of Th/U in the mineralized rocks could be related to late magmatic mineralization, suggesting the ascent of late magmatic fluids through weak planes such as faults and the contact of these rocks with older granites. The present data were higher than those of the United Nations Scientific Committee on the Effects of Atomic Radiation (UNSCEAR) guideline limits. All the radiological hazard results indicated high human health risks. This confirmed that this area is not radiologically safe, and care must be taken when working in this area. This study showed that the area under investigation had high U content suitable for uranium extraction that could be used in the nuclear fuel cycle.

Keywords: Egypt; Wadi Al-Baroud; high activity concentration; microgranite; radiological impacts.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Egypt
  • Humans
  • Potassium Radioisotopes / analysis
  • Radiation Monitoring*
  • Radioactivity*
  • Radioisotopes / analysis
  • Soil Pollutants, Radioactive* / analysis
  • Spectrometry, Gamma
  • Thorium / analysis
  • Uranium* / analysis

Substances

  • Potassium Radioisotopes
  • Radioisotopes
  • Soil Pollutants, Radioactive
  • Uranium
  • Thorium