Litcius/Paper detail

Transfer factors of <SUP align=right>226</SUP>Ra, <SUP align=right>232</SUP>Th and <SUP align=right>40</SUP>K from fertilised soil to different types of field crops in Tikrit city, Iraq

Laith Ahmed Najam, I. Ahmed, Rabee B. Alkhayat, Taha Yaseen Wais

2022International Journal of Nuclear Energy Science and Technology17 citationsDOI

Abstract

Natural radionuclide activity concentrations in fertilised soil and field crops, as well as the transfer factor from fertilised soil to field crops, were measured. The measurements were carried out using gamma ray spectroscopy with a Nal(TI) detector. The geometric mean (geometric standard deviation) for soil-to-crop transfer factors for each study site were 0.57(1.37), 0.41(1.53) and 0.41(1.51) for 226Ra, 232Th and 40K, respectively. The geometric mean transfer factor of 232Th in the present study is 19 times higher than the world mean value, whereas the geometric mean transfer factors of 226Ra and 40K are less. The results show that the fertilised soil samples and field crops pose no radioactive risk and that there are no immediate health risks associated with the use of these samples in the areas under investigation. Furthermore, there was no correlation between 232Th and 226Ra concentrations, possibly because these radionuclides are transported differently in soil.

Topics & Concepts

RadionuclideTransfer factorGeometric meanGeometric standard deviationConversion factorSoil testStandard deviationEnvironmental sciencePhysicsAnimal scienceSoil scienceSoil waterMathematicsStatisticsNuclear physicsBiologyQuantum mechanicsImmunologyRadioactivity and Radon MeasurementsGraphite, nuclear technology, radiation studiesNuclear and radioactivity studies