Genetic structure of a natural population of the ectomycorrhizal fungus Suillus pungens

PIERLUIGI BONELLO; THOMAS D. BRUNS; MONIQUE GARDES

doi:10.1046/j.1469-8137.1998.00122.x

Abstract

Sequence-based markers were developed to study the genetic structure and reproductive biology of the ectomycorrhizal fungus Suillus pungens Thiers & Smith in a Bishop pine (Pinus muricata D. Don) forest. Six different basidiome genotypes were found in a 1200 m2 area. Five of the six genotypes were represented by single basidiomes. The remaining genotype comprised 13 basidiomes and covered an area of at least 300 m2, with maximum measured dimensions of 40 m and 14 m. This is the largest genet of an ectomycorrhizal fungus described to date, and is likely the result of vegetative growth, because analysis of single spore isolates eliminates the possibility of genetic identity resulting from either apomixis or fortuitously indistinguishable recombinant genotypes. Genetic analysis also shows that although out-crossing appears to predominate in the population, at least a low percentage (1·4%) of spores are secondarily homothallic.

The combination of extensive vegetative growth and abundant fruiting suggests S. pungens utilizes more carbon than might be expected for a species which accounts for <3% of the total ectomycorrhizal abundance at the site. Additional carbon might come from either more efficient host–fungus transfer, pooling of carbon from the roots of different host plants, or saprophytism.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Douglas, A E 1998. Host benefit and the evolution of specialization in symbiosis. Heredity, Vol. 81, Issue. 6, p. 599.

Taylor, JW Jacobson, DJ and Fisher, MC 1999. THEEVOLUTION OFASEXUALFUNGI: Reproduction, Speciation and Classification. Annual Review of Phytopathology, Vol. 37, Issue. 1, p. 197.

Dahlberg, A. and Finlay, R. D. 1999. Ectomycorrhizal Fungi Key Genera in Profile. p. 33.

Selosse, Marc-André Martin, Francis Bouchard, Daniel and le Tacon, François 1999. Structure and Dynamics of Experimentally Introduced and Naturally Occurring Laccaria sp. Discrete Genotypes in a Douglas Fir Plantation . Applied and Environmental Microbiology, Vol. 65, Issue. 5, p. 2006.

Frazer, Lilyann Novak 1999. One stop mycology. Mycological Research, Vol. 103, Issue. 1, p. 116.

Gherbi, H. Delaruelle, C. Selosse, M.‐A. and Martin, F. 1999. High genetic diversity in a population of the ectomycorrhizal basidiomycete Laccaria amethystina in a 150‐year‐old beech forest. Molecular Ecology, Vol. 8, Issue. 12, p. 2003.

Jeffries, Peter and Dodd, John C. 2000. Applied Microbial Systematics. p. 73.

Jasalavich, Claudia A. Ostrofsky, Andrea and Jellison, Jody 2000. Detection and Identification of Decay Fungi in Spruce Wood by Restriction Fragment Length Polymorphism Analysis of Amplified Genes Encoding rRNA. Applied and Environmental Microbiology, Vol. 66, Issue. 11, p. 4725.

Saxena, A. K. Annapurna, K. and Tilak, K. V. B. R. 2000. Mycorrhizal Biology. p. 45.

Meharg, Andrew A. and Cairney, John W.G. 2000. Ectomycorrhizas — extending the capabilities of rhizosphere remediation?. Soil Biology and Biochemistry, Vol. 32, Issue. 11-12, p. 1475.

Gryta, Herve Debaud, Jean-Claude and Marmeisse, Roland 2000. Population dynamics of the symbiotic mushroom Hebeloma cylindrosporum: mycelial persistence and inbreeding. Heredity, Vol. 84, Issue. 3, p. 294.

Baar, J. and Stanton, N.L. 2000. Ectomycorrhizal fungi challenged by saprotrophic basidiomycetes and soil microfungi under different ammonium regimes in vitro. Mycological Research, Vol. 104, Issue. 6, p. 691.

Grogan, P. Baar, J. and Bruns, T.D. 2000. Below‐ground ectomycorrhizal community structure in a recently burned bishop pine forest. Journal of Ecology, Vol. 88, Issue. 6, p. 1051.

Bergero, R. Perotto, S. Girlanda, M. Vidano, G. and Luppi, A. M. 2000. Ericoid mycorrhizal fungi are common root associates of a Mediterranean ectomycorrhizal plant (Quercus ilex). Molecular Ecology, Vol. 9, Issue. 10, p. 1639.

Redecker, Dirk Szaro, Timothy M. Bowman, Ryan J. and Bruns, Thomas D. 2001. Small genets of Lactarius xanthogalactus, Russula cremoricolor and Amanita francheti in late‐stage ectomycorrhizal successions. Molecular Ecology, Vol. 10, Issue. 4, p. 1025.

Zhou, Z. Miwa, M. and Hogetsu, T. 2001. Polymorphism of simple sequence repeats reveals gene flow within and between ectomycorrhizal Suillus grevillei populations. New Phytologist, Vol. 149, Issue. 2, p. 339.

Anderson, Ian C. Chambers, Susan M. and Cairney, John W.G. 2001. Distribution and persistence of Australian Pisolithus species genets at native sclerophyll forest field sites. Mycological Research, Vol. 105, Issue. 8, p. 971.

Chapela, Ignacio H. Osher, Laurie J. Horton, Thomas R. and Henn, Matthew R. 2001. Ectomycorrhizal fungi introduced with exotic pine plantations induce soil carbon depletion. Soil Biology and Biochemistry, Vol. 33, Issue. 12-13, p. 1733.

Horton, Thomas R. and Bruns, Thomas D. 2001. The molecular revolution in ectomycorrhizal ecology: peeking into the black‐box. Molecular Ecology, Vol. 10, Issue. 8, p. 1855.

Fiore‐Donno, Anne‐Marie and Martin, Francis 2001. Populations of ectomycorrhizal Laccaria amethystina and Xerocomus spp. show contrasting colonization patterns in a mixed forest. New Phytologist, Vol. 152, Issue. 3, p. 533.

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Genetic structure of a natural population of the ectomycorrhizal fungus Suillus pungens

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Genetic structure of a natural population of the ectomycorrhizal fungus Suillus pungens

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