Abstract
Protection from the hazards from radioactivity is of prime importance in the management of uranium mine and mill wastes. Such wastes also contain non-radiological contaminants (heavy metals, acids and neutral ising agents) which give rise to potential long-term health and environmental hazards and short-term hazards to the aquatic ecosystem, e.g. as a result of release of waste water. This study seeks to identify non-radiological contaminants (elements) transferred to waste water at the Ranger uranium mine/mill complex at Jabiru, which are likely to hazardous to the aquatic environment.
The two principal sources of contaminants are:
-
(i)
ore and waste rock mobilised from mining; and
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(ii)
process reagents used in the milling and mineral extraction process.
These substances mayor may not already be present in the natural environment but may lead to deleterious effects on the aquatic environment if increased above threshold levels.
Rhenium, derived from the ore body, was found to be significantly enriched in waste water from Ranger, indicating its suitability as an indicator element for water originating from the mining and milling process, but only uranium, likewise derived from the ore, and magnesium, manganese and sulfur (as sulfate) from the milling process were found to be significant environmental contaminants.
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References
Baily, P.A.: 1984, ‘Some design and operating aspects of the Ranger uranium mine treatment plant’, Proceedings Aus.I.M.M. Conference,Darwin, N. T. August 1984, Aus.I.M.M. Parkville, Victoria, pp. 183–191.
Binns, R.A., Ayres, D.E., Wilmshurst, J.R. and Ramsden, A.R.: 1980, ‘Petrology and geochemistry of alteration associated with uranium mineralization at Jabiluka, Northern Territory, Australia’, Proceedings of the International Uranium Symposium on the Pine Creek Geosyncline, Sydney 4-8 June 1979, IAEA, Vienna, pp. 417–438.
Brown, V.M., Johnston, A., Murray, A.S., Noller, B.N. and Riley, G.H.: 1985, ‘Receiving water standards for the Alligator Rivers Region’, Section 8.1 in Alligator Rivers Region Research Institute Annual Research Summary 1984-85, AGPS, Canberra, pp. 111–119.
Carr, G.R., Wilmshurst, J.R., and Ryall, W.R.: 1986, ‘Evaluation of mercury pathfinder techniques: base metal and uranium deposits’, J. Geochem. Expior., 26, 1–117.
Dale, L.: 1990, ‘Inductively-coupled plasma mass spectrometry (ICPMS)’, Chemistry in Australia 57, 94–98.
Duerden, P.: 1989, ‘Alligator Rivers Analogue Project’, Progress Reports, 1 June 1989-31 August 1989 and 1 September 1989-30 November 1989, Australian Nuclear Science and Technology Organization, Lucas Heights, N.S.W.
Ewers, G.R.: 1982, ‘Chemical analysis of early proterozoic meta sedimentary rocks from the Pine Creek Geosyncline’, BMR Record 1982/17. BMR Canberra.
Ewers, G.R., Needham, R.S., Stuart-Smith, P.G. and Crick, I.H.: 1985, ‘Geochemistry of the low-grade early proterozoic sedimentary sequence in the Pine Creek Geosyncline, Northern Territory’, Aust. J. Earth Sci. 32, 137–154.
Ferguson, J., Ewers, G.R. and Donnelly, T.H.: 1980, ‘Model for the development of economic uranium mineralisation in the Alligator Rivers Uranium Field’, Proceedings of the International Uranium Symposium on the Pine Creek Geosyncline, Sydney 4-8 June 1979, IAEA Vienna, pp. 563–574.
Ferguson, J., and Goleby, Anne B. (Eds): 1980 ‘Uranium in the Pine Creek Geosyncline’, Proceedings of the International Uranium Symposium on the Pine Creek Geosyncline, Sydney 4-8 June 1979, IAEA Vienna, pp. 1–759.
Ferguson, J. and Needham, R.S.: 1978, ‘The Zamu dolerite: A lower proterozoic preorogenic continental tholeiitic suite from the Northern Territory, Australia’, J. Geol. Soc. Aust. 25, 309–322.
Ferguson, J. and Winer, P.: 1980, ‘Pine Creek Geosyncline: statistical treatment of whole rock chemical data’, Proceedings of the International Uranium Symposium on the Pine Creek Geosyncline, Sydney, 4-8 June 1979, IAEA Vienna, pp. 191–208.
Fox, R.W., Kelleher, G.G. and Kerr, C.B.: 1977, ‘Ranger Uranium Environmental Inquiry: Second Report’, AGPS, Canberra, pp. 415.
Hem, J.D.: 1989, ‘Study and interpretation of the chemical characteristics of natural water (Table I: Average compostion, in parts per million, of igneous rocks and some types of sedimentary rocks)’ U.S. Geological Survey Water-Supply Paper 2254, Third printing, U.S. Geological Survey, US Government Printing office, pp.5–6.
Humphrey, C.L., Bishop, K.A. and Brown, V.M.: 1990, ‘Use of biological monitoring in the assessment of effects of mining wastes on aquatic ecosystems of the Alligator Rivers Region, tropical Northern Australia’, Environ. Monit. Assess. 14, 139–181.
Hyne, R.V.: 1990, ‘Research program of biochemistry section, ARRRI: Approach to the identification and removal of the toxic compound in Retention Pond 4 at Ranger Uranium Mine’, Proceedings of a Workshop on Biological Toxicity Testing as a Regulatory Mechanism’ N.T. Department of Mines and Energy, Darwin, pp.81–86.
Koide, M., Hodge, V., Yang, J.S. and Goldberg, E.D.: 1987, ‘Determination ofrhenium in marine waters and sediments by graphite furnace atomic absorption spectrometry’, Anal. Chem. 59, 1802–1805.
McLennan, S.M. and Taylor, S.R.: 1980, ‘Rare earth elements in sedimentary rocks, granites and uranium deposits of the Pine Creek Geosyncline’, Proceedings of the International Uranium Symposium on the Pine Creek Geosyncline, Sydney 4-8 June 1979, IAEA Vienna, pp. 175–190.
Nash, J.T. and Frishman, D.: 1983, ‘Chemical data and statistical interpretations for rocks and ores from the Ranger Uranium Mine N. T., Australia USGS Open-File Report 83-239, United States Department of the Interior Geological Survey, pp. 135.
Needham, R.S.: 1988, ‘Geology of the Alligator Rivers Uranium Field, Northern Territory’, Bulletin 224, Bureau of Mineral Resources, Geology and Geophysics, AGPS, Canberra, pp. 28 and 37.
Needham, R.S., Ewers, G.R. and Ferguson, J.: 1988, ‘Pine Creek Geosyncline’ in Recognition of Uranium Provinces, Proceedings of a Technical Committee Meeting on Recognition of Uranium Provinces, London, 18-20 September 1985, IAEA, Vienna, pp. 235–261.
Needham, R.S. and Stuart-Smith, P.G.: 1980, ‘Geology of the Alligators Rivers Uranium Field’, in Proceedings of the International Uranium Symposium on the Pine Creek Geosyncline, Sydney 4-8 June 1979, IAEA, Vienna, pp. 233–258.
Noller, B.N.: 1989, ‘Fate of chemicals in water from Ranger’, Australian Science Magazine, Issue 2, 38–40.
Noller, B.N., Currey, N. and LeGras, C.: 1985a, ‘Identification of hazardous constituents from uranium mining’, Section 4.8 in Alligator Rivers Region Research Institute Annual Research Summary 1984-85, AGPS, Canberra, pp. 76–78.
Noller, B.N., Cusbert, P.J. and Currey, N.: 1985b, ‘Studies on the mixing zone of discharged waters’, Section 4.9 in Alligator Rivers Region Research Institute Annual Research Summary 1984-85, AGPS, Canberra, pp. 78–81.
Noller, B.N. and LeGras, C.: 1988, ‘Manganese and iron speciation in Magela Creek groundwater’, Section 3.1 in Alligator Rivers Region Research Institute Annual Research Summary for 1987-88, AGPS, Canberra, pp. 49–51.
Page, P.W., Compston, W. and Needham, R.S.: 1980, ‘Geochronology and evolution of the late-Archaen basement and Proterozoic rocks in the Alligator Rivers Uranium Field, Northern Territory, Australia’, in Proceedings of the International Uranium Symposium on the Pine Creek Geosyncline, Sydney 4-8 June 1979, IAEA, Vienna, pp. 39–68.
Pidgeon, R.T.: 1985, ‘Non-radiological contaminants in the long-term management of wastes from uranium mining and milling’, Department of Arts, Heritage and Environment AGPS, Canberra, pp. 90.
Reeves, R.D. and Brooks, R.R.: 1978, Trace Element Analysis of Geological Materials (Table 5.1) John Wiley and Sons, New York, pp. 80–81.
Ring, R.J.: 1979, ‘Leaching characteristics of Australian uranium ores’, Proc. Aus. I.M.M. No. 272, 13–23.
RUM (Ranger Uranium Mines Ltd.): 1983, ‘Ranger Uranium Mine Water Management System’, Water, 10, 13–18 and 30.
Ryall, W.R. and Binns, R.A.: 1980, ‘Mercury distribution in the Jabiluka Two orebody and its host rocks’ in Proceedings of the InternatiofUll Uranium Symposium on the Pine Creek Geosyncline, Sydney 4-8 June 1979, IAEA, Vienna, pp. 469–476.
SSARR: 1988, ‘Regulation of water releases’, in Supervising Scientist for the Alligator Rivers Region Annual Report 1987-88, AGPS, Canberra, pp. 46–48.
Stuart-Smith, P.G. and Ferguson, J.: 1978, ‘The Oenpelli Dolerite-a Precambrian continental tholeiitic suite from the Northern Territory, Australia’, BMR J. Aust. Geol. and Geophys., 3, 125–133.
Uren, C.J., Noller, B.N., East, T.J., Curley, P.M. and Unger, C.J.: 1990, ‘The chemical composition of runoff water from waste rock at Ranger’, paper presented to 29th Annual Congress Australian Society for Limnology April 19-23 1990, Jabiru, p 37.
USEPA 1976, ‘Quality criteria for water’, EPA-44of9-76-023, Environmental Protection Agency, Washington, USA.
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Noller, B.N. (1991). Non-Radiological Contaminants from Uranium Mining and Milling at Ranger, Jabiru, Northern Territory, Australia. In: Lee, H.K. (eds) Fourth Symposium on our Environment. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-2664-9_36
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DOI: https://doi.org/10.1007/978-94-011-2664-9_36
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