Abstract
In this study, the concentrations of radionuclides were determined for soil samples obtained from a fertilized farm soils in Abeokuta, southwestern Nigeria. On the average, seven soil samples were obtained and keptin a sealed polythene bags. Then later dried and pulverized. Two hundred grams of each of the pulverized samples was held in a standard plastic container and left for about thirty days to allow for secular equilibrium between radium and its progenies. Radionuclides activity concentrations within the collected samples were measured using a calibrated NaI-based gamma-ray spectrometer. The detected natural radioactivity of soil samples are presented and radiological attributes for effective radiological hazards detection and monitoringfor the study location are equally estimated. The results revealed that the specific activity for K-40 radionuclides at location L7 is higher than the world average concentration of 420 Bq/kg. This is not unconnected to the fertilizer within that portion of the farm. However, the estimated radiological attributes in the farmland are relatively lower that the threshold standards, which implies that the soils in the farmland are free of any radiation hazards and pose no threat to farmers and the residents of that area. It is however recommended that organic manure should be used in the farmland rather than fertilizer and routine check on environmental radioactivity of the farmland should be done regularly for adequate monitoring.
Highlights
Everybody eats food for strength required for day to day activities
The detected natural radioactivity of soil samples are presented and radiological attributes for effective radiological hazards detection and monitoringfor the study location are estimated.The results revealed that the specific activity for K-40 radionuclides at location L7 is higher than the world average concentration of 420 Bq/kg
This is not unconnected to the fertilizer within that portion of the farm.The correlation plot in Figure 3 shows the correlation coefficient of 0.9975, implying that the results of the annual external dose equivalent are majorly cause by the natural radionuclides activity concentrations.The mean value of Absorbed dose rate in air (ADRA) are less than the weighted mean dose rate of 59 nGy/haccording to the United State Scientific Committee on the Effects of Atomic Radiations (UNSCEAR) [16]
Summary
Everybody eats food for strength required for day to day activities. The food is majorly obtained from different farmlands and in order to get good yieldof farm products, fertilizers may need to be applied to these farmlands. Humans are exposed to radiation everyday by consuming these plants. The fertilizer applications in soils may increase the concentrations of these radionuclides [1,2,3]. Concentrations of radionuclides in fertilized-farm soil pose a major concern to human healthafter consuming the farm products, if their values exceed recommended limits. It is necessary to devise the means to know the yearly ingestion dose and keep this dose at a minimum. Different researches have been carried out to evaluate activity concentrations of radionuclides in farmlands and it has been established that fertilizer
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