The application of phosphogypsum in agriculture and the radiological impact
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Beretka, J., 1990. The current state of utilization of phosphogypsum in Australia. In: Proceedings of the Third International Symposium on Phosphogypsum, Orlando, FL, FIPR Pub. No. 01-060-083, December 1990, vol. II, pp. 394–401.
Beretka, 1985, Natural radioactivity of Australian building materials, industrial wastes and by-products, Health Physics, 48, 87, 10.1097/00004032-198501000-00007
Bettencourt, 1988, Soil to plant transfer of radium-226, Journal of Environmental Radioactivity, 6, 49, 10.1016/0265-931X(88)90067-7
Boyrakli, 1990, Ammonia volatilization losses from different fertilizers and effect of several urease inhibitors, CaCl2 and phosphogypsum on losses from urea, Fertilizer Research, 23, 147, 10.1007/BF01073430
Conklin, C., 1992. Potential uses of phosphogypsum and associated risks. Background Information Document, EPA Rep. No. 402-R92-002, U.S. Environmental Protection Agency, Washington, DC 20460.
EC, 1999. Investigation of a possible basis for a common approach with regard to the restoration of areas affected by lasting radiation exposure as a result of past or old practice or work activity. Radiation Protection Rep. No. 115, European Commission, Brussels, pp. 1–234.
Eisenbud, 1997
EPA, 1999. Federal Register. Part VII. 40 CFR. Part 61. Natural Emission Standards For Hazardous Air Pollutants. Subpart R Rule: National Emission Standards for Radon Emission from Phosphogypsum Stacks. Section 61204. Distribution and Use of Phosphogypsum for Agricultural Purposes (64FR 5574, February 3, 1999), U.S. Environmental Protection Agency, Washington, DC 20460, vol. 64 (22), pp. 5574–5580.
Fourati, 1988, Changes in radioactivity of phosphate rocks during the process of production, Journal of Radioanalytical and Nuclear Chemistry, 125, 287, 10.1007/BF02041688
Golushko, 1984, Use of phosphogypsum as a feed supplement for cattle and pigs, Khimiya v Sel’skam Khozyaistve, 22, 46
Guidry, J.J., 1990. Environmental impact of airborne radioactivity emissions from a phosphogypsum stack. In: Proceedings of the Third International Symposium on Phosphogypsum, Orlando, FL, FIPR Pub. No. 01-060-083, December 1990, vol. 1, pp. 74–86.
Horton, T., Blanhard, R.L., Windham, S.T., 1988. A long-term study of radon and airborne particulates at phosphogypsum stacks in Central Florida. Eastern Environmental Radiation Facility, EPA Rep. No. 520/5-88-021, Montgomery, AL.
Hull, 1996, Radiochemistry of Florida phosphogypsum, Journal of Environmental Radioactivity, 32, 213, 10.1016/0265-931X(95)00061-E
Kobal, 1990, Radionuclides in effluents from coal mines, a coal-fired power plant, and a phosphate processing plant in Zasanje, Slovenia (Yugoslavia), Health Physics, 58, 81
Laiche, 1991, A radiological evaluation of phosphogypsum, Health Physics, 60, 691, 10.1097/00004032-199105000-00008
Lindeken, C.L., 1980. Radiological considerations of phosphogypsum utilization in agriculture. In: Proceedings of the International Symposium on Phosphogypsum, Rep. UCRL-84927, FIPR Pub. No. 01-001-017, 5–7 November 1980, Lake Buena Vista, FL, pp. 401–414.
Lindeken, C.L., Coles, D.G., 1978. The radium-226 content of agricultural gypsums. In: Radioactivity in Consumer Products, Rep. NUREG/CP-0001, pp. 369–375.
Luther, 1993, Radioactivity and chemical characteristics of Alberta phosphogypsum, Water, Air, and Soil Pollution, 69, 277, 10.1007/BF00478164
May, 1984, Assessment of environmental impacts associated with phosphogypsum in Florida, 116
May, 1984, Evaluation of radium and toxic element leaching characteristics of Florida stockpiles, 140
Menzel, 1968, Uranium, radium and thorium content in phosphate rocks and their possible radiation hazard, Journal of Agricultural and Food Chemistry, 16, 231, 10.1021/jf60156a002
Mullins, G.L., Mitchell Jr., C.C., 1990. Use of phosphogypsum to increase yield and quality of annual forages. FIPR Pub. No. 01-048-084, Auburn University, May 1990, p. 56.
NEA/OECD, 1979. Exposure to Radiation from the Natural Radioactivity in Building Materials, Nuclear Energy Agency/Organization for Economic Co-operation and Development, May 1979, p. 34.
O'Riordan, M.C., Duggan, M.J., Rose, W.B., Bradford, G.F., 1972. The radiological implications of using by-product gypsum as a building material. NRPB Rep.R7, National Radiological Protection Board, Harwell, Chilton, Didcot, U.K.
Paul, 1986, Transfer and uptake of radium in a natural and in a technologically modified radiation environment, Journal of Environmental Radioactivity, 3, 55, 10.1016/0265-931X(86)90049-4
Ramachandran, 1989, Measurement of natural radioactivity levels in Indian foodstuffs by gamma spectrometry, Applied Radiation and Isotopes, 40, 723, 10.1016/0883-2889(89)90085-3
Roessler, C.E., 1988. Radiological assessment of the application of phosphogypsum to agricultural land. In: Lloyd, E.M., (Ed.), Proceedings of the Second International Symposium on Phosphogypsum. Miami, Florida, December 1986, FIPR Pub. No. 01-037-055, January 1988, vol. I, pp. 5–23.
Roessler, 1979, Uranium and radium-226 in Florida phosphate materials, Health Physics, 37, 269, 10.1097/00004032-197909000-00001
Rutherford, 1994, Environmental impacts of phosphogypsum, Science of the Total Environment, 149, 1, 10.1016/0048-9697(94)90002-7
Tracy, 1983, Transfer of 226Ra and 210Pb and uranium from soil to garden produce: assessment of risk, Health Physics, 44, 469, 10.1097/00004032-198305000-00001
1982, Ionizing radiation: sources and biological effects
1988, Sources, effects and risks of ionizing radiation
1993, Sources and effects of ionizing radiation
2000, Sources and effects of ionizing radiation, vol. I