Abstract
Pinus banksiana andPicea glauca inoculated or not with the ectomycorrhizal fungusSuillus luteus were grown in a sandy loam soil containing a range of Cd, Cu, Ni, Pb and Zn concentrations. Ectomycorrhizal colonization rates were significantly reduced on Pinus and Picea seedlings by the heavy metals, particularly Cd and Ni. Needle tissue metal concentrations were lower in ectomycorrhizal seedlings at low soil metal concentrations. However, at higher soil concentrations, heavy metal concentrations of needle tissue were similar in ectomycorrhizal and nonmycorrhizal plants. The growth of nonmycorrhizal seedlings exposed to heavy metals was reduced compared to those inoculated withSuillus luteus. Apparently ectomycorrhizal colonization can protect Pinus and Picea seedlings from heavy metal toxicity at low or intermediate soil concentrations of Cd, Cu, Ni, Pb and Zn.
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References
Antonovics J, Bradshaw A D and Turner R G 1971 Heavy metal tolerance in plants Advances in Ecological Research 7, 1–85.
Ashida J 1965 Adaptation of fungi to metal toxicants. Annual Review of Phytopathology 3, 153–174.
Bradley R, Burt A J and Read D J 1981 Mycorrhizal infection and resistance to heavy metal toxicity inCallunia vulgaris. Nature 292, 335–337.
Berry C R 1982 Survival and growth of pine hybrid seedlings with Pisolithus ectomycorrhizae on coal spoils in Alabama and Tennessee. Journal of Environmental Quality 11, 709–715.
Berry C R and Marx D H 1976 Sewage sludge andPisolithus tinctorius ectomycorrhizae: their effect on growth of pine seedlings. Forest Science 22, 351–358.
Bildusas I J, Pfleger F L, Stewart E L and Dixon R K 1986 Response ofBromus inermis inoculated withGlomus fasiculatum to potassium fertilization and drought stress. Plant and Soil 95, 441–444.
Bowen G D 1973 Mineral nutrition of ectomycorrhizae.In Ectomycorrhizae—Their Ecology and Physiology. Eds. G C Marks and T T Kozlowski. pp 151–205. Academic Press. NY.
Burton K W, Morgan E and Roig A 1983a. The influence of heavy metals upon the growth of sitka spruce in South Wales forests. I. Upper critical and foliar concentrations. Plant and Soil 73, 327–336.
Burton K W, Morgan E and Roig A 1983b The influence of heavy metals upon the growth of sitka spruce in South Wales. II. Greenhouse experiments. Plant and Soil 73, 271–282.
Chapman H D and Pratt P F 1961 Methods of analysis for soils, plants, and waters. University of California. CA, USA. 584 p.
Dahlquist R L and Knoll J W 1978 ICP analysis of biological materials and soils for major, trace, and ultratrace elements. Applied Spectroscopy 32, 1–30.
Danielson R M, Visser S and Pakinson D 1984 The effectiveness of mycelial slurries of mycorrhizal fungi for the inoculation of container-grown jack pine seedlings. Canadian Journal of Forest Research, 14, 140–142.
Dixon R K, Garrett H E, Cox G S, Marx D H and Sander I L 1984 Inoculation of threeQuercus species with eleven isolates of ectomycorrhizal fungi. I. Inoculation success and seedling growth relationships. Forest Science 30, 364–372.
Gildon A and Tinker P B 1983 Interactions of vesicular-arbuscular mycorrhizal infection and heavy metals in plants. I. The effects of heavy metals on the development of vesicular-arbuscular mycorrhizas. New Phytologist 95, 247–261.
Harley J L and Smith S E 1983 Mycorrhizal symbiosis. Academic Press, NY, 483 p.
Hoagland D R and Arnon D I 1939 The water culture method for growing plants without soil. California Agricultural Experiment Station Circular 347.
Killham K and Firestone M K 1983 Vesicular arbuscular mycorrhizal mediation of grass response to acidic and heavy metal depositions. Plant and Soil 72, 39–48.
Lee K D, Cunningham B A, Paulsen G M, Liang G H and Moore G H 1976 Effect of cadmium on respiration rate and activity of several enzymes in soybean seedlings. Physiologia Plantarium 36, 4–6.
Mitchell R J, Cox G S, Dixon R K, Garrett H E and Sander I L 1984 Inoculation of threeQuercus species with eleven isolates of ectomycorrhizal fungi. II. Foliar nutrient content and isolate effectiveness. Forest Science 30, 563–572.
Ritchie I M and Thingvold D A 1985 Assessement of atmospheric impacts of large-scale copper-nickel development in northeastern Minnesota. Water. Air and Soil Pollution 25, 145–160.
Ross I S 1982 Effect of copper, cadmium and zinc on germination and mycelial growth inCandida albicans. Transactions of British Mycological Society 78, 543–545.
Somers E 1961 The fungitoxicity of metal ions. Annals of Applied Biology 49, 246–253.
Smith G C and Brennan E 1984 Response of silver maple seedlings to an acute dose of root applied cadmium. Forest Science 30, 582–586.
Tinker P B 1981 Levels, distribution and chemical forms of trace elements in food plants. Philosophical Transactions of Royal Society. London, UK, 294, 41–55.
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Dixon, R.K., Buschena, C.A. Response of ectomycorrhizalPinus banksiana andPicea glauca to heavy metals in soil. Plant Soil 105, 265–271 (1988). https://doi.org/10.1007/BF02376791
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DOI: https://doi.org/10.1007/BF02376791