Abstract
Waste materials containing toxic levels of copper, lead, and zinc, such as mine and smelter wastes, present difficult conditions for the establishment of vegetation. This article reviews the many attempts which have been made to reclaim these wastes. Inert wastes from mining and quarrying operations, such as slate quarry waste and certain colliery shales, seem to be good materials for reclaiming wastes contaminated by copper, lead, and zinc. Organic wastes, such as sewage sludge and domestic refuse, may provide only a temporary visual improvement and stabilization of the toxic materials.
Nontolerant plant materials may often be planted directly on modern waste materials, which are less toxic than they were in the past. However, tolerant plant materials are needed for revegetating waste materials produced by early and more primitive extraction methods.
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Literature cited
Antonovics, J., A. D. Bradshaw, and R. G. Turner. 1971. Heavy metal tolerance in plants.Advances in Ecological Research 7:1–85.
Bradshaw, A. D. 1952. Populations ofAgrostis tenuis resistant to lead and zinc poisoning.Nature (London) 169:1098.
Bradshaw, A. D. 1976. Pollution and evolution. Pages 135–139in T. A. Mansfield (ed.), Effects of air pollutants on plants. Cambridge University Press, Cambridge.
Bradshaw, A. D., and M. J. Chadwick. 1980. The restoration of land. Blackwell, Oxford, 317 pp.
Breeze, V. 1973. Land reclamation and river pollution problems in the Croal Valley caused by waste from chromate manufacture.Journal of Applied Ecology 10:513–525.
Craze, B. 1977. Restoration of Captain Flat mining area.Journal of the Soil Conservation Service (New South Wales) 33:98–105.
Day, A. D., and K. L. Ludeke. 1980. Direct seeding of tree species in the southwestern United States.Journal of Environmental Quality 9:104–306.
Day, A. D., and K. L. Ludeke. 1981. The use of reclaiming copper mine wastes in the southwestern United States.Minerals and the Environment 3:21–31.
Day, A. D., and K. L. Ludeke. 1982. Stabilization of copper mine wastes in a semi-arid environment with perennial grasses.Arid Environment 5:285–290.
Dean, K. C., and R. Heavens. 1973. Reclamation of mineral milling wastes.In Proceedings of the 3rd mineral waste utilization symposium, Chicago, 1972.
Gadgil, R. L. 1969. Tolerance of heavy metals and the reclamation of industrial waste.Journal of Applied Ecology 6:247–259.
Gemmell, R. P. 1973. Revegetation of derelict land polluted by a chromate smelter. I. Chemical factors covering substrate toxicity in chromate smelter waste.Environmental Pollution 5:181–197.
Gemmell, R. P. 1977. Colonization of industrial wasteland. Studies in Biology 80. Edward Arnold, London, 75 pp.
Goodman, G. T., C. E. R. Pitcairn, and R. P. Gemmell. 1973. Ecological factors affecting growth on sites contaminated with heavy metal. Pages 149–173in R. J. Hutnik and G. Davis (eds.), Ecology and reclamation of devastated land, vol. 2. Gordon and Breach, London.
Hartley, A. C. 1976. Tailings and waste, revegetation at Bougainville. Address to Papua New Guinea Scientific Society, Port Moresby.
Humphrey, M., and A. D. Bradshaw. 1976. Heavy metal toxicities. Pages 95–106in Plant adaptation to mineral stress in problem soils. Cornell University Press, New York.
Jeffrey, D. W., M. Maybury, and D. Levinge. 1974. Ecological approach to mining waste revegetation. Minerals and the environment: symposium of mining and metallurgy, 1974. Paper 41, 15 pp.
Johnson, M. J., A. D. Bradshaw, and J. F. Hardley. 1976. Revegetation of metalliferous fluorspar mine tailings.Transactions of Section A of the Institute of Mining and Metallurgy 85:A32-A37.
Johnson, M. S., T. McNeilly, and P. D. Putwain. 1977. Revegetation of metalliferous mine spoil contaminated by lead and zinc.Environmental Pollution 12:261–277.
Jowett, D. 1959. Adaptation of a lead tolerant population ofAgrostis tenuis to low soil fertility.Nature (London) 180:43.
Kuja, A. L., and T. C. Hutchinson 1979. The use of native species in mine tailings revegetation. Pages 13–15in Proceedings of the Canadian Land Reclamation Association 4th conference, Saskatchewan.
Ludeke, K. L. 1973. Vegetation stabilization of copper mine tailing disposal berms of Pima Mining Co. Pages 18–29in C. L. Aplin and G. O. Argall (eds.), Tailing disposal today: proceedings of the first international tailing symposium. Miller Freeman, San Francisco.
Nicolls, O. W., D. M. J. Provan, M. M. Cole, and J. S. Tooms. 1964. Geobotany and geochemistry in mineral exploration in the Dugald River, Coloncurry District, Australia.Transactions of the Institute of Mining and Metallurgy. 74:695–799.
Peters, T. H. 1970. Using vegetation to stabilize mine tailings.Journal of Soil and Water Conservation 25:65–66.
Pitcairn, C. E. R. 1969. An ecological study of factors influencing revegetation of industrial waste heaps contaminated with heavy metals. PhD thesis, University of Wales, Cardiff.
Ruschena, L. J., G. S. Stacey, G. D. Hunter, and P. C. Whiteman. 1974. Research into the vegetation of concentrator tailing dams at Mount Isa. Reprinted from papers presented at regional meeting on: Recent technical and social advances in the North Australia. Institute of Mining and Metallurgy, 16 pp.
Smith, R. A. H. 1973. The reclamation of old metalliferous mine workings using tolerant plant population. PhD thesis, Liverpool University, Liverpool.
Smith, R. A. H., and A. D. Bradshaw. 1972. Stabilization of toxic mine wastes by the use of tolerant plant populations. Institute of Mining and Metallurgy, pp. A230–A237.
Street H. E., and G. T. Goodman 1966. Revegetation techniques in the lower Swansea Valley. Pages 71–110in K. J. Hilton (ed.), The Lower Swansea Valley Project. Longmans Green, London.
Walley, K. A., M. S. I. Khan, and A. D. Bradshaw. 1974. The potential for evolution of heavy metal tolerance in plants. I. Copper and zinc tolerance inAgrostis tenuis. Heredity 32:309–319.
Williamson, A., and M. S. Johnson. 1984. Reclamation of metalliferous mine wastes. Pages 185–212in N. W. Lepp (ed.), Effect of heavy metal pollution on plants, vol. 2. Applied Science, London.
Wong, M. H. 1982. Metal co-tolerance (Cu, Pb and Zn) inFestuca rubra. Environmental Research 29:42–47.
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Wong, M.H. Reclamation of wastes contaminated by copper, lead, and zinc. Environmental Management 10, 707–713 (1986). https://doi.org/10.1007/BF01867725
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DOI: https://doi.org/10.1007/BF01867725