Abstract
All biota is exposed to natural radiation, the soil being the major source of radionuclides. Phosphogypsum is classified as a NORM residue of the phosphate fertilizer industry, often used in agriculture, as a soil conditioner. This residue is stored in stacks by the phosphate industries, potentially posing environmental risks. The aim of this study is to compare the risk for the terrestrial and aquatic biota arising from the storage of PG residue in the environment with that arising from its reuse as soil amendment. For this purpose, typical Brazilian soils amended with PG and PG itself were leached with distilled water. The concentration of natural radionuclides in the soil samples were used to evaluate the risk for terrestrial and aquatic biota, using the ERICA Tool. The results for terrestrial biota exposed to soils amended with phosphogypsum showed a risk reduction of about 85%, when compared to the exposure arising from phosphogypsum stacks. Considering the aquatic biota, the results showed a risk reduction of about 46% when comparing to radionuclide concentrations in leachates from phosphogypsum and from the soils amended with phosphogypsum. A new risk reduction assessment was performed to determine exclusively the contribution of the application of PG to the soil using the soil without PG, the risk reduction for terrestrial biota was of 99% and aquatic biota was a 74% reduction. Finally, it can be concluded that the addition of phosphogypsum in soils reduces the risk quotient related to the exposure of terrestrial and aquatic biota, showing that this is a safe practice.
Highlights
Phosphogypsum (PG) is classified as a Naturally Occurring Radioactive Material (NORM) residue of the phosphate fertilizer industry
Considering the aquatic biota, the results showed a risk reduction of about 46% when comparing the radionuclides concentration in the leachates from phosphogypsum and from the soils amended with phosphogypsum
This work proposed to apply the ERICA Tool to compare the risk for the terrestrial and aquatic biota arising from the storage of PG residue in the environment with that arising from its reuse as soil amendment
Summary
Phosphogypsum (PG) is classified as a Naturally Occurring Radioactive Material (NORM) residue of the phosphate fertilizer industry. Some possible application of this residue is as soil conditioner, resulting in an increase of agriculture productivity, or as building material [1,2,3]. The main phosphate industries in Brazil are responsible for the annual production of 12 million tons of PG, which is stored in open stacks beside phosphate fertilizer industry, posing environmental risks [4,5,6]. According to Rutherford et al [7] and Hull and Burnett [8] the main routes of environmental risks resulting from this open storage in stacks are: atmospheric contamination, pollution of groundwater, trace elements and radionuclides, radon emanation, inhalation of dust and direct exposure to gamma radiation. The solubility of PG in water is 150 times higher than that of calcareous rock [11]
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