Th-232 Radiological Aspects of Carbonate Niobium Mining Waste Use as Agricultural Amendment

Rafaella Menezes Ayllon; Marcos R. Furlan; Thammiris Mohamad El Hajj; Paulo Sergio Cardoso Silva

doi:10.15392/2319-0612.2023.2223

Authors

Rafaella Menezes Ayllon Instituto de Pesquisas Energéticas e Nucleares
Marcos R. Furlan Universidade de Taubaté
Thammiris Mohamad El Hajj Universidade Federal de Alfenas https://orcid.org/0000-0001-7678-3759
Paulo Sergio Cardoso Silva Instituto de Pesquisas Energéticas e Nucleares

DOI:

https://doi.org/10.15392/2319-0612.2023.2223

Keywords:

NORM, absorption of Th, niobium

Abstract

The use of mining residues in agriculture may be possible, as long as there be previous studies in different areas, one of them being the analysis of the involved radionuclides behavior. This study determined the concentrations of ²³²Th activity in soil, soil treated with lime, soil with carbonate residue from niobium mining, soil with the mixture of lime and carbonate, in two moments. The transfer factor of ²³²Th from the soil to the plant was analyzed, in this case, lettuce (n=20), in the different types of treatment and in two moments. The addition of carbonate to the soils did not significantly alter the levels of radioactivity for ²³²Th radionuclide in lettuce. The effective dose resulting from the lettuce ingestion varied from 0.09 to 0.3 µSv y^-1.

Downloads

Download data is not yet available.

References

DA SILVA LIMA, L.; ALVARENGA, R.A.F; SOUZA AMARAL, T.; NOLLI, P. D. T.G.; DEWULF, J. Life cycle assessment of ferroniobium and niobium oxides: Quantifying the reduction of environmental impacts as a result of production process improvements, Journal of Cleaner Production. v. 348, p. 131327, 2022.

MELFI, A. J.; MISI, A., CAMPOS, D. D. A.; CORDANI, U. G. Recursos Minerais no Brasil: problemas e desafios, 2016.

RAMOS, G.S. Caracterização mineralógica do processo de beneficamento de Nióbio da Mina Boa Vista, Catalão - GO, Brasil, Universidade de Brasília, 2021.

MARINGER, F.J.; A. BAUMGARTNER, A.; F. CARDELLINI, F.; CASSETTE, P.; CRESPO, T.; DEAN, J.; WIEDNER, H.; HULKA, J.; HULT, M.; JEROME, S.; F. KABRT, F.; KOVAR, P.; LARIJANI, C.; LUTTER,G.; MAROULI, M.; MAURING, A.; MAZANOVA, M.; B. MICHALIK, B.; MICHIELSEN, N.; PEYRES, V.; PIERRE, S.; PÖLLÄNEN, R.; POMME, S.; REIS, M.; STIETKA, M.; SZÜCS, L.; VODENIK, B. Advancements in NORM metrology – Results and impact of the European joint research project MetroNORM, Applied Radiation and Isotopes, v. 126, p. 273-278, 2017.

CNEN - Comissão Nacional de Energia Nuclear. Diretrizes Básicas de Protecção Radiológica, Com. Nac. Energ. Nucl. 05 (2011) 1–24.

CNEN - Comissão Nacional de Energia Nuclear. Gerência De Rejeitos Radioativos De Baixo E Médio Níveis De Radiação, 2014, 22p.

EL HAJJ, T. M., GANDOLLA, M. P. A.; DA SILVA, P. S. C.; TORQUATO, H.; JUNIOR, H. D. L. Long-term prediction of non-processed waste radioactivity of a niobium mine in Brazil, J. Journal of Sustainable Mining, v. 18, n. 3, p. 142-149, 2019.

A. KABATA-PENDIAS. Trace Elements in Soils and Plants, 4th ed., 2011.

SHTANGEEVA, I. Uptake of uranium and thorium by native and cultivated plants, Journal of environmental radioactivity, v. 101, n. 6, p. 458-463, 2010.

DOS REIS, R.G. NORM: Guia Prático, 1st ed., Rio de Janeiro, 2016.

SHTANGEEVA, I.; AYRAULT, S.; JAIN, J, J. Thorium uptake by wheat at different stages of plant growth, Journal of environmental radioactivity, v. 81, n. 2-3, p. 283-293, 2005.

JALALI, M.; MEYARI. Heavy metal contents, soil-to-plant transfer factors, and associated health risks in vegetables grown in western Iran, Journal of Food Composition and Analysis, v. 106, p. 104316, 2022.

ASADUZZAMAN, K.; KHANDAKER, M. U.; AMIN, Y. M.; BRADLEY, D. A.; MAHAT, R. H.; NOR, R. M. Soil-to-root vegetable transfer factors for 226Ra, 232Th, 40K, and 88Y inMalaysia, Journal of environmental radioactivity, v. 135, p. 120–127, 2014.

JOLLY, Y. N.; ISLAM, A.; AKBAR, S. Transfer of metals from soil to vegetables and possible health risk assessment, Springerplus. v. 2, n. 1, p. 1–8, 2013.

VANDENHOVE, H.; OLYSLAEGERS, G.; SANZHAROVA, N.; SHUBINA, O.; REED, E., SHANG, Z.; VELASCO, H. Proposal for new best estimates of the soil-to-plant transfer factor of U, Th, Ra, Pb and Po, Journal of Environmental Radioactivity, v. 100, n. 9, p. 721–732, 2009.

UNSCEAR. Nations Scientific Committee on the Effects of Atomic Radiation, SOURCES AND EFFECTS OF IONIZING RADIATION United Nations Scientific Committee on the Effects of Atomic Radiation UNSCEAR 2000 Report to the General Assembly, with Scientific Annexes VOLUME I: SOURCES UNITED NATIONS, n.d.

INTERNATIONAL COMMISSION ON RADIOLOGICAL PROTECTION (ICRP). Publication 72: Age-dependent Doses to the Members of the Public from Intake of Radionuclides Part 5, Compilation of Ingestion and Inhalation Coefficients., 1996.

COSTA, J. R. Técnicas Experimentais aplicadas às Ciências Agrárias, Embrapa Agrobiologia - Documentos (INFOTECA-E). (2003) 54.

E. BOSTELMANN, avaliação da concentração de metais em amostras de sedimento do reservatório billings, braço rio grande, são paulo, brasil, 2006. Tese de Doutorado Universidade de São Paulo.

MOREIRA, E.G. preparo e caracterização de um material de referência de mexilhão Perna perna ( Linnaeus , 1758 ), 2010. Tese de Doutorado Universidade de São Paulo.

KABATA-PENDIAS, A. Soil-plant transfer of trace elements - An environmental issue, Geoderma. v. 122, n. 2-4, p. 143–149, 2004.

SUSSA, F. V.; FURLAN, M. R.; VICTORINO, M.; & DA SILVA, P. S. C. Soil-to-plant transfer factor for stable elements in lemon balm (Melissa officinalis L.) and estimates of the daily intakes, Journal of Radioanalytical and Nuclear Chemistry. v. 331, p. 3107–3115, 2022.

GUO, P. ; DUAN, T. ; SONG, X. ; XU, J.; CHEN, H. Effects of soil pH and organic matter on distribution of thorium fractions in soil contaminated by rare-earth industries, Talanta. v. 77, n. 2, p. 624–627, 2008. https://doi.org/10.1016/j.talanta.2008.06.002.

PULHANI, V. A. DAFAUTI, S.; HEGDE, A. G.; SHARMA, R. M.; MISHRA, U. C. Uptake and distribution of natural radioactivity in wheat plants from soil, Journal of Environmental radioactivity. v. 79, n. 3, p. 331–346, 2005.

ABRIL, J. M.; GARCÍA-TENORIO, R.; ENAMORADO, S. M.; HURTADO, M. D.; ANDREU, L.; DELGADO, A., The cumulative effect of three decades of phosphogypsum amendments in reclaimed marsh soils from SW Spain: 226Ra, 238U and Cd contents in soils and tomato fruit, Science of the Total Environment, 403(1-3), p. 80-88, 2008.

BOLCA, M. ; SAÇ, M. M. ; COKUYSAL, B. ; KARALI, T. ; EKDAL, E. Radioactivity in soils and various foodstuffs from the Gediz River Basin of Turkey, Radiation Measurements. v. 42, n.2, p. 263–270, 2007.

JAMBHULKAR, H. P.; SHAIKH, S. M. S.; KUMAR, M. S. Fly ash toxicity, emerging issues and possible implications for its exploitation in agriculture; Indian scenario: A review, Chemosphere. v. 213, p. 333–344, 2018.

ARMELIN, M. J. A. ; ABREU JUNIOR, C. H. ; CATHARINO, M. G. M. ; SAIKI, M. ; RIBEIRO, A. C. S. ; FRANCO, A. ; FERNANDES, H. M. G. Determinação de antimônio, arsênio, cádmio e tório em amostras de caldo de cana cultivada em solo tratado com lodo de esgoto Journal of the Brazilian Society of Ecotoxicology. v. 5, p. 81–84, 2010.

GAO, L. ; KANO, N. ; SATO, Y. ; LI, C. ; ZHANG, S. ; IMAIZUMI, H. Behavior and distribution of heavy metals including rare earth elements, thorium, and uranium in sludge from industry water treatment plant and recovery method of metals by biosurfactants application, Bioinorganic chemistry and applications, v. 2012, 2012.

SZEWCZAK, K.; JEDNOROG, S.; WOLOSZCZUK, K.; SZLAZAK, R. ; PODGORSKA, Z. ; RAFALSKA‐PRZYSUCHA, A.; GLUBA, L.; ŁUKOWSKI, M. Impact of soil incorporation of biochar on environmental radioactivity, J. Environ. Qual, v. 49, n.2. p. 428–439, 2020.

COOPER, M.; CLARKE, P. ; ROBERTSON, W.; MCPHARLIN, I.; JEFFREY, R. An investigation of radionuclide uptake into food crops grown in soils treated with bauxite mining residues, Journal of Radioanalytical and Nuclear Chemistry, v. 194, n. 2, p. 379-387, 1995.

MARQUES, J. J.; SCHULZE, D. G.; CURI, N.; MERTZMAN, S. A. Trace element geochemistry in Brazilian Cerrado soils. Geoderma. v. 121, n. 1-2, p. 31-43, 2004.

El-TAHER, A., ABDELHALIM, M.A.K. Elemental analysis of soils from Toshki by using instrumental neutron activation analysis techniques, Journal of Radioanalytical and Nuclear Chemistry. 300 (1), p. 431–435, 2014.

MAZZILLI, B. P.; SAUEIA, C. H.; JACOMINO, V. M.; MELLO, J. W. Natural radionuclides and metals intake into soya, corn and lettuce grown on soil amended with phosphogypsum, International Journal of Environmental Analytical Chemistry, v. 92, n. 14, p. 1574–1586, 2012.

SOUDEK, P.; HRDINOVÁ, A.; VALSECA I.M.R.; LHOTÁKOVÁ, Z.;MIHALJEVIČ, M.; PETROVÁ, S.; KOFROŇOVÁ, M.; MOŤKOVÁ, K.; ALBRECHTOVÁ, J.; VANĚK, T. Thorium as an environment stressor for growth of Nicotiana glutinosa plants. Environmental experimental botany, v. 164 p. 84–100, 2019.

MORTON, L. S.; EVANS, C. V.; ESTES, G. O. Natural Uranium and Thorium Distributions in Podzolized Soils and Native Blueberry. Journal of environmental quality, v. 31, n. 1, p. 155–162, 2002.

SOUDEK, P.; KUFNER, D.; PETROVÁ, Š.; MIHALJEVIČ, M.; VANĚK, T. Composition of hydroponic medium affects thorium uptake by tobacco plants, Chemosphere. v. 92, n. 9 p. 1090–1098, 2013.

SATHYAPRIYA, R., NAIR, S., KAMESH, V., PRABHATH, R., NAIR, M., ACHARYA, R., & RAO, D. Estimation of thorium intake due to consumption of vegetables by inhabitants of high background radiation area by INAA. Journal of radioanalytical and Nuclear Chemistry. v. 294, n. 3, p. 387–390, 2012.

BOJANOWSKI, R.; RADECKI, Z.; CAMPBELL, M.J.; BURNS, K.I.; TRINKL, A. Report on the Intercomparison Run for the Determination of Radionuclides in Iaea-326 and Iaea-327, Vienna, Austria, 2001. https://inis.iaea.org/collection/NCLCollectionStore/_Public/32/042/32042411.pdf.

A COSTA LAURIA, D.; ROCHEDO, E. R.; GODOY, M. L. D.; SANTOS, E. E.; HACON, S. S. Naturally occurring radionuclides in food and drinking water from a thorium-rich area. Radiation and environmental biophysics, v. 51, n. 4, p. 367-374, 2012.

PHUONG, H. T.; BA, V. N.; THIEN, B. N.; LOAN, T. T. H. Accumulation of lead radionuclides in 18 leaf vegetable types in Viet Nam, Journal of environmental radioactivity, v. 251–252 , p. 106960, 2022.

POURCELOT, L.; MASSON, O.; RENAUD, P.; CAGNAT, X.; BOULET, B.; CARIOU, N.; DE VISMES-OTT, A. Environmental consequences of uranium atmospheric releases from fuel cycle facility: II. The atmospheric deposition of uranium and thorium on plants. Journal of Environmental Radioactivity, v. 141, p. 1-7, 2015.

SANTOS, E. E.; LAURIA, D. C.; AMARAL, E. C. S.; ROCHEDO, E. R. Daily ingestion of 232Th, 238U, 226Ra, 228Ra and 210Pb in vegetables by inhabitants of Rio de Janeiro City, Journal of Environmental Radioactivity, v.62, p. 75–86, 2002.

PIETRZAK-FLIS, Z.; ROSIAK, L.; SUPLINSKA, M. M.; CHRZANOWSKI, E.; DEMBINSKA, S. Daily intakes of 238U, 234U, 232Th, 230Th, 228Th and 226Ra in the adult population of central Poland, Science of the total environnement v. 273, n. 1-3, p. 163–169, 2001.

VAN, H. D.; NGUYEN, T. D.; PEKA, A.; HEGEDUS, M.; CSORDAS, A.; KOVACS, T. Study of soil to plant transfer factors of 226Ra, 232Th, 40K and 137Cs in Vietnamese crops, Journal of environmental radioactivity. v. 223–224, p. 106416, 2020.

CHOI, M. S.; LIN, X. J.; LEE, S. A.; KIM, W.; KANG, H. D.; DOH, S. H.; KIM, D.S.; LEE, D. M. Daily intakes of naturally occurring radioisotopes in typical Korean foods, Journal of Environmental Radioactivity, v. 99, n. 8, p. 1319–1323, 2008.

NUCCETELLI, C.; RISICA, S. Thorium series radionuclides in the environment: Measurement, dose assessment and regulation, Applied Radiation and Isotopes, v. 66 n. 11 1657–1660, 2008.