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Food Additives & Contaminants: Part A Volume 41, 2024 - Issue 1
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Articles

Investigation and assessment of natural radioactivity in commercial animal feeds in Texas

Kyung-Min LeeOffice of the Texas State Chemist, Texas A&M AgriLife Research, Texas A&M University System, College Station, TX, USACorrespondence[email protected]
&
Timothy J. HerrmanOffice of the Texas State Chemist, Texas A&M AgriLife Research, Texas A&M University System, College Station, TX, USA
Pages 33-44 | Received 13 Sep 2023, Accepted 24 Nov 2023, Published online: 01 Dec 2023

References

  • Ageda VI, Ike EE, Temaugee ST. 2017. Assessment of natural radionuclide levels in some Nigerian made poultry feedstuff. Int J Phys Sci. 12(19):243–246. doi:10.5897/IJPS2016.4594.
  • Alnour IA, Ibrahim N, Hossain I. 2012. Concentrations of 214 Pb, 214 Bi in 238 U series and 208 Tl, 228 Ac in 232 Th series in granite rock in (Kadugli) Sudan.
  • Angeleska A, Crceva Nikolovska R, Dimitrieska Stojkovik E, Blagoevska K, Dimzoska Stojanovska B, Uzunov R, Angelovski L. 2022. Activity concentration of natural radionuclides in chicken feeds in the Republic of North Macedonia. Krmiva (Online)). 63(1):19–23. doi:10.33128/k.63.1.3.
  • Arruda-Neto JDT, Tavares MV, Filadelfo M. 1997. Concentrations of uranium in animal feed supplements: measurements and dose estimates. J Radioanal Nucl Chem. 221(1–2):97–104. doi:10.1007/BF02035249.
  • Boradiya PC, Savsani HH, Odedra MD, Patil SS, Gohil BC, Trivedi SP, Patel JA. 2018. Animal feed safety: an overview. Int J Recent Res Interdiscip Sci. 5(2):1–4.
  • Boryło A, Skwarzec B, Wieczorek J. 2022. Sources of Polonium 210Po and radio-lead 210Pb in human body in Poland. IJERPH. 19(4):1984. doi:10.3390/ijerph19041984.
  • Cannas D, Loi E, Serra M, Firinu D, Valera P, Zavattari P. 2020. Relevance of essential trace elements in nutrition and drinking water for human health and autoimmune disease risk. Nutrients. 12(7):2074. doi:10.3390/nu12072074.
  • Carvalho C, Anjos RM, Mosquera B, Macario K, Veiga R. 2006. Radiocesium contamination behavior and its effect on potassium absorption in tropical or subtropical plants. J Environ Radioact. 86(2):241–250. doi:10.1016/j.jenvrad.2005.09.003.
  • Casacuberta N, Masqué P, Garcia-Orellana J, Bruach JM, Anguita M, Gasa J, Villa M, Hurtado S, Garcia-Tenorio R. 2009. Radioactivity contents in dicalcium phosphate and the potential radiological risk to human populations. J Hazard Mater. 170(2–3):814–823. doi:10.1016/j.jhazmat.2009.05.037.
  • Casacuberta N, Masque P, Garcia-Orellana J, Bruach-Menché JM, Sanchez-Cabeza JA, Villa M, Hurtado S, Manjón G, Garcia-Tenorio R. 2007 Mar 19–22. Dicalcium phosphate: contents of uranium decay series. In: NORM V, Seville, Spain.
  • Ciceri D, Manning DA, Allanore A. 2015. Historical and technical developments of potassium resources. Sci Total Environ. 502:590–601. doi:10.1016/j.scitotenv.2014.09.013.
  • Dai SY, Jones B, Lee KM, Li W, Post L, Herrman TJ. 2016. Heavy metal contamination of animal feed in Texas. J Regul Sci. 4(1):21–32. doi:10.21423/JRS-V04N01P021.
  • Desideri D, Roselli C, Forini N, Rongoni A, Meli MA, Feduzi L. 2014. Alpha and gamma spectrometry for the radiological characterization of animal feed. Microchem J. 116:41–46. doi:10.1016/j.microc.2014.03.009.
  • Ebaid YY, El-Mongy SA, Allam KA. 2005 Feb. 235U–γ emission contribution to the 186 keV energy transition of 226Ra in environmental samples activity calculations. Int Congr Ser. 1276:409–411. doi:10.1016/j.ics.2004.12.020.
  • Eisenbud M. 1995. Radioactivity from natural, industrial, and other sources. J Radioanal Nucl Chem Art. 197(1):15–27. doi:10.1007/BF02040217.
  • El-Reefy HI, Sharshar T, Zaghloul R, Badran HM. 2006. Distribution of gamma-ray emitting radionuclides in the environment of Burullus Lake: I. Soils and vegetations. J Environ Radioact. 87(2):148–169. doi:10.1016/j.jenvrad.2005.11.006.
  • EURATOM. 1989. Council Regulation (Euratom) No 2218/89 of 18 July 1989 amending Regulation (Euratom) No3954/87 laying down maximum permitted levels of radioactive contamination of food stuffs and of feeding stuffs following a nuclear accident or any other case of radiological emergency. Off J Eur Communties Law. 211.
  • Fan Y, Pan D, Yang M, Wang X. 2023. Radiolabelling and in vivo radionuclide imaging tracking of emerging pollutants in environmental toxicology: a review. Sci Total Environ. 866:161412. doi:10.1016/j.scitotenv.2023.161412.
  • [FDA] Food and Drug Administration. 2004. Supporting document for guidance levels for radionuclides in domestic and imported foods. Docket No. 2003D-0558. Silver Spring (MD).
  • [FDA] Food and Drug Administration. 2019. Food Safety Modernization Act.
  • [FDA] Food and Drug Administration. 2020. Guidance levels for radionuclides in domestic and imported foods. Compliance Policy Guide Sec. 555.880. Silver Spring (MD).
  • Frissel MJ, van Ginkel JH, Stoutjesdijk JF, Koester HW. 1986. The transfer of radionuclides from soil to animal feed. (No. INIS-XA-C–069).
  • Godefroy SB. 2014. Codex Alimentarius Commission at 50: major achievements and challenges ahead. Int Food Risk Anal J. 4:1. doi:10.5772/58862.
  • Haase G, Vagt T, Fritsche J. 2021. Monitoring environmental radionuclide activity of the incident-relevant radionuclides 137 Cs und 90 Sr in animal feed and foodstuffs consumed in Germany. J Consum Prot Food Saf. 16(1):97–101. 2021) doi:10.1007/s00003-020-01309-7.
  • Hernandez F, Madrid J, Garcia V, Orengo J, Megias MD. 2004. Influence of two plant extracts on broilers performance, digestibility, and digestive organ size. Poult Sci. 83(2):169–174. doi:10.1093/ps/83.2.169.
  • Howard BJ, Beresford NA, Mayes RW, Hansen HS, Crout NMJ, Hove K. 1997. The use of dietary calcium intake of dairy ruminants to predict the transfer coefficient of radiostrontium to milk. Radiat Environ Biophys. 36(1):39–43. doi:10.1007/s004110050053.
  • [IAEA] International Atomic Energy Agency. 2002. Nat Induc Radioact in Food. IAEA-TECDOC-1287.
  • Kim S, Min BI, Park K, Yang BM, Kim J, Suh KS. 2018. Evaluation of radionuclide concentration in agricultural food produced in Fukushima prefecture following Fukushima accident using a terrestrial food chain model. J Radioanal Nucl Chem. 316(3):1091–1098. doi:10.1007/s10967-018-5779-3.
  • Linsalata P. 1994. Uranium and thorium decay series radionuclides in human and animal foodchains—a review. J Environ Qual. 23(4):633–642. doi:10.2134/jeq1994.00472425002300040003x.
  • Lunardi M, Bonotto DM. 2023. Natural radioactivity due to uranium and radon in thermal groundwaters of Central Brazil. J Radioanal Nucl Chem. 332(3):629–646. doi:10.1007/s10967-023-08784-w.
  • gt;Luz Filho IVD, Scheibel V, Appoloni, CR. 2016. 40K, 226Ra and 228Ra series in bovine and poultry feed and in dicalcium phosphate (DCP) samples by gamma-ray spectrometry. Braz Arch Biol Technol. 59(2016):1–9.
  • Malik S, Krishnaswamy K, Mustapha A. 2021. Hazard analysis and risk-based preventive controls (HARPC): current food safety and quality standards for complementary foods. Foods. 10(9):2199. doi:10.3390/foods10092199.
  • Manning DA. 2010. Mineral sources of potassium for plant nutrition. A review. Agron Sustain Dev. 30(2):281–294. doi:10.1051/agro/2009023.
  • Mihaljev Ž, Popov N, Kartalović B, Jakšić S, Živkov-Baloš M. 2019. Activity of natural radionuclides in animal feed. In: Ecological Movement of Novi Sad (Serbia).
  • Mitchell N, Pérez-Sánchez D, Thorne MC. 2013. A review of the behaviour of U-238 series radionuclides in soils and plants. J Radiol Prot. 33(2):R17–R48. doi:10.1088/0952-4746/33/2/R17.
  • Mitrović B, Vitorović G, Vitorović D, Pantelić G, Adamović I. 2009. Natural and anthropogenic radioactivity in the environment of mountain region of Serbia. J Environ Monit. 11(2):383–388. doi:10.1039/b813102c.
  • Mitrović BM, Vranješ B, Kostić O, Perović V, Mitrović M, Pavlović P. 2019. Presence of radionuclides and toxic elements in feedstuffs and food of animal origin. Veterinarski Glasnik. 73(1):30–39.
  • Mortvedt JJ. 1994. Plant and soil relationships of uranium and thorium decay series radionuclides—a review. J Environ Qual. 23(4):643–650. doi:10.2134/jeq1994.00472425002300040004x.
  • Müller H, Pröhl G. 1993. ECOSYS-87: a dynamic model for assessing radiological consequences of nuclear accidents. Health Phys. 64(3):232–252.
  • Richards JI, Hance RJ, Crick MJ. 1996. Standards and criteria established by international organisations for agricultural aspects of radiological emergency situations. In: Proceedings of the NEA workshop on The Agricultural Issues Associated with Nuclear Emergencies, June 1995, OECD/NEA, Paris.
  • Rizzoli R, Biver E, Brennan-Speranza TC. 2021. Nutritional intake and bone health. Lancet Diabetes Endocrinol. 9(9):606–621. doi:10.1016/S2213-8587(21)00119-4.
  • Roberts PB. 2016. Food irradiation: standards, regulations and world-wide trade. Radiat Phys Chem. 129:30–34. doi:10.1016/j.radphyschem.2016.06.005.
  • Sahoo SK, Hosoda M, Kamagata S, Sorimachi A, Ishikawa T, Tokonami S, Uchida S. 2011. Thorium, uranium and rare earth elements concentration in weathered Japanese soil samples. Prog Nucl Energy Tech. 1(0):416–419. doi:10.15669/pnst.1.416.
  • Saleh, IH. 2012. Radioactivity of 238U, 232Th, 40K, and 137Cs and assessment of depleted uranium in soil of the Musandam Peninsula, Sultanate of Oman. Turkish J Eng Environ Sci. 36(3):236–248.
  • Salminen-Paatero S, Paatero J. 2021. Transfer of natural radionuclides in terrestrial food chains—a review of investigations in Finland. IJERPH. 18(20):10577. doi:10.3390/ijerph182010577.
  • Shanthi G, Kumaran JTT, Raj GAG, Maniyan CG. 2010. Natural radionuclides in the South Indian foods and their annual dose. Nucl Instrum Methods Phys Res A. 619(1–3):436–440. doi:10.1016/j.nima.2009.10.068.
  • Shi Z, Yong L, Liu Z, Wang Y, Sui H, Mao W, Zhang L, Li Y, Liu J, Wei S, et al. 2022. Risk assessment of rare earth elements in fruits and vegetables from mining areas in China. Environ Sci Pollut Res Int. 29(32):48694–48703. doi:10.1007/s11356-022-19080-7.
  • Srinivasa E, Rangaswamy DR, Suresh S, Sannappa J. 2022. Natural radioactivity levels and associated radiation hazards in soil samples of Chikkamagaluru district, Karnataka, India. J Radioanal Nucl Chem. 331(4):1899–1906. doi:10.1007/s10967-021-08133-9.
  • Staunton S, Dumat C, Zsolnay A. 2002. Possible role of organic matter in radiocaesium adsorption in soils. J Environ Radioact. 58(2–3):163–173. doi:10.1016/s0265-931x(01)00064-9.
  • Tarnate JB. 2019. Food safety culture and technology enhance food safety modernization act.
  • [TDA] Texas Department of Agriculture. 2023. Texas Livestock. Available from: https://www.texasagriculture.gov/Grants-Services/Marketing-and-International-Trade/International/Buyers-and-Consumers/Texas-Livestock.
  • Tzortzis M, Tsertos H. 2004. Determination of thorium, uranium and potassium elemental concentrations in surface soils in Cyprus. J Environ Radioact. 77(3):325–338. doi:10.1016/j.jenvrad.2004.03.014.
  • [UNSCEAR] United Nations Scientific Committee on the Effect of Atomic Radiation. 2000. Report to the General Assembly, with scientific annexes. Sources and effects of ionizing radiation. New York (NY): United Nations.
  • Voigt G, Howard BJ, Beresford NA. 2007. Transfer of radionuclides in animal production systems. Radiotact Environ. 10:71–96.
  • Woodman RFM, Nisbet AF. 1999. Derivation of working levels for radionuclides in animal feedstuffs for use following a nuclear accident. Health Phys. 77(4):383–391. doi:10.1097/00004032-199910000-00005.
  • World Health Organization. 1996. International basic safety standards for protecting against ionizing radiation and for the safety of radiation sources, Safety Series No. 115. Vienna: IAEA.

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