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Vesicular-arbuscular mycorrhizae in two tropical monodominant trees

Published online by Cambridge University Press:  10 July 2009

Sylvia D. Torti
Affiliation:
Department of Biology, University of Utah, Salt Lake City, UT 84112, USA.
P. D. Coley
Affiliation:
Department of Biology, University of Utah, Salt Lake City, UT 84112, USA.
David P. Janos
Affiliation:
Department of Biology, University of Miami, P.O. Box 249118, Coral Gables, FL 33124, USA.

Abstract

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Type
Short Communication
Copyright
Copyright © Cambridge University Press 1997

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References

LITERATURE CITED

Alexander, I. J. 1983. The significance of ectomycorrhizas in the nitrogen cycle. Pp. 6993 in Lee, J. A., McNeill, S. & Rorison, I. H. (eds). Nitrogen as an ecological factor. Blackwell Scientific Publications, Oxford, UK.Google Scholar
Alexander, I. J. 1989. Mycorrhizas in tropical forests. Pp. 169188 in Proctor, J. (ed.). Mineral nutrients in tropical forest and savanna ecosystems. Special Publications No. 9 of British Ecological Society, Blackwell Scientific Publications, Oxford, UK.Google Scholar
Allen, E. B. & Allen, M. F. 1984. Competition between plants of different successional stages: mycorrhizae as regulators. Canadian Journal of Botany 62:26252629.CrossRefGoogle Scholar
Allen, M. F. 1991. The ecology of mycorrhizae. Cambridge University Press, Cambridge, UK. 184 pp.Google Scholar
Condit, R., Hubbell, S. P. & Foster, R. B. 1993. Mortality and growth of a commercial hardwood ‘el cativo,’ Prioria copaifera, in Panama. Forest Ecology and Management 63:107122.CrossRefGoogle Scholar
Connell, J. H. & Lowman, M. D. 1989. Low-diversity tropical rain forests: some possible mechanisms for their existence. American Naturalist 134:88119.CrossRefGoogle Scholar
Coutts, M. P. & Nicoll, B. C. 1990. Waterlogging tolerance of roots of Sitka spruce clones and of strands from Thelephora terrestris mycorrhizas. Canadian Journal of Forestry Research 20:18941899.CrossRefGoogle Scholar
Gartlan, J. S., Newbery, D. McC., Thomas, D. W. & Waterman, P. G. 1986. The influence of topography and soil phosphorus on the vegetation of Korup Forest Reserve, Cameroon. Vegetatio 65:131148.CrossRefGoogle Scholar
Harley, J. L. & Smith, S. E. 1983. Mycorrhizal symbiosis. Academic Press, New York. 483 pp.Google Scholar
Hartnett, D. C., Hetrick, B. A. D., Wilson, G. W. T. & Gibson, D. J. 1993. Mycorrhizal influence of intra- and interspecific neighbor interactions among co-occurring prairie grasses. Journal of Ecology 81:787795.CrossRefGoogle Scholar
Hetrick, B. A. D., Wilson, G. W. T. & Hartnett, D. C. 1989. Relationship between mycorrhizal dependence and competitive ability of two tallgrass prairie grasses. Canadian Journal of Botany 67:26082615.CrossRefGoogle Scholar
Högberg, P. & Piearce, G. D. 1986. Mycorrhizas in Zambian trees in relation to host taxonomy, vegetation type and successional patterns, Journal of Ecology 74:775785.CrossRefGoogle Scholar
Janos, D. P. 1983. Tropical mycorrhizas, nutrient cycles and plant growth. Pp. 327345 in Sutton, S. L., Whitmore, T. C. & Chadwick, A. C. (eds). Tropical rain forest: ecology and management. Blackwell Scientific Publications, Oxford, UK.Google Scholar
Janos, D. P. 1985. Mycorrhizal fungi: agents or symptoms of tropical community composition? Pp. 98103 in Molinas, R. (ed.). Proceedings of the 6th North American Conference on Mycorrhizae. Forest Research Laboratory, Corvallis, OR, USA.Google Scholar
Janos, D. P. 1996. Mycorrhizas, succession and the rehabilitation of deforested lands in the humid tropics. Pp. 129162 in Frankland, J. C., Magan, N. & Gadd, G. M. (eds). Fungi and environmental change. British Mycological Society Symposium Vol. 20. Cambridge University Press, Cambridge, UK.CrossRefGoogle Scholar
Johnston, A. 1949. Vesicular-arbuscular mycorrhiza in Sea Island cotton and other tropical plants. Tropical Agriculture 26:118121.Google Scholar
Keeley, J. E. 1980. Endomycorrhizae influence growth of blackgum seedlings in flooded soils. American Journal of Botany 67:69.CrossRefGoogle Scholar
Khan, A. G. & Belik, M. 1995. Occurrence and ecological significance of mycorrhizal symbiosis in aquatic plants. Pp. 627666 in Varma, A. & Hock, B. (eds). Mycorrhiza: structure, function, molecular biology and biotechnology. Springer-Verlag, Berlin.CrossRefGoogle Scholar
Kormanik, P. P. & Mcgraw, A-C. 1982. Quantification of vesicular-arbuscular mycorrhizae in plant roots. Pp. 3746 in Schenck, N. C. (ed.). Methods and principles of mycorrhizal research. American Phytopathological Society, St. Paul, USA.Google Scholar
Lodge, D. J. 1989. The influence of soil moisture and flooding on formation of VA-endo- and ectomycorrhizae in Populus and Salix. Plant and Soil 117:243253.CrossRefGoogle Scholar
Marx, D. H. 1972. Ectomycorrhizae as biological deterrents to pathogenic root infections. Annual Review of Phytopathology 10:429454.CrossRefGoogle ScholarPubMed
Mejstrík, V. 1965. Study on the development of endotrophic mycorrhiza in the association of Cladietum marisci. Pp. 283290 in Macura, J. & Vencura, V. (eds). Plant microbes relationships. Publishing House of the Czechoslovak Academy of Sciences.Google Scholar
Newbery, D. M., Alexander, I. J., Thomas, D. W. & Gartlan, J. S. 1988. Ectomycorrhizal rain-forest legumes and soil phosphorus in Korup National Park, Cameroon. New Phytologist 109:433450.CrossRefGoogle Scholar
Newman, E. I., Eason, W. R., Eissenstat, D. M. & Ramos, M. I. R. F. 1992. Interactions between plants: the role of mycorrhizae. Mycorrhiza 1:4753.CrossRefGoogle Scholar
Perry, P. A., Margolis, H., Choquette, C., Molina, R. & Trappe, J. M. 1989. Ectomycorrhizal mediation of competition between coniferous tree species. New Phytologist 112:501511.CrossRefGoogle Scholar
Rankin, J. 1978. The influence of seed predation and plant competition on tree species abundance in two adjacent tropical rain forests. PhD thesis, University of Michigan, Ann Arbor, USA.Google Scholar
Smith, F. A. & Smith, S. E. 1996. Mutualism and parasitism: diversity in function and structure in the ‘arbuscular’ (VA) mycorrhizal symbiosis. Advances in Botanical Research 22:143.CrossRefGoogle Scholar
Smits, W. Th. M. 1983. Dipterocarps and mycorrhiza. Flora Malesiana Bulletin 36:39263937.Google Scholar
Sondergaard, M. & Laegaard, S. 1977. Vesicular arbuscular mycorrhizae in some aquatic vascular plants. Nature 268:232233.CrossRefGoogle Scholar
Ter Steege, H. 1994. Flooding and drought tolerance in seeds and seedlings of two Mora species segregated along a soil hydrological gradient in the tropical rain forest of Guyana. Oecologia 100:356367.CrossRefGoogle ScholarPubMed
Trojanowski, J., Haider, K. & Huttermann, A. 1984. Decomposition of 14C-labeled lignin, holocellulose and lignocellulose by mycorrhizal fungi. Archives of Microbiology 139:202206.CrossRefGoogle Scholar
Whitbeck, J. 1994. Effects of above-ground and below-ground resource distribution on the ecology of vesicular-arbuscular mycorrhizas. PhD thesis, Stanford University, Standford, CA, USA.Google Scholar
Wilcox, H. E. 1982. Morphology and development of ecto- and ectendomycorrhizae. Pp. 103114 in Schenck, N. C. (ed.). Methods and principles of mycorrhizal research. American Phytopathological Society, St. Paul, USA.Google Scholar