Abstract
Ectomycorrhizas of naturally grown Momi fir (Abies firma) seedlings were characterized based on morphological features of fungal partners. A total of 128 seedlings were collected over three years (1995–1997) from a 10×30 m plot where occurrences of ectomycorrhizal fungal fruitbodies were monitored for the same period. Thirty-seven morphologically distinct ectomycorrhizal types were distinguished based mainly on the color of ectomycorrhizas and the characteristics of fungal mantles. Type 37 was thought to beCenococcum geophilum because of the jet-black mycorrhizas and the characteristic structure of mantle surfaces. For half of the classified morphotypes, fungal partners were inferred to be the generaLactarius, Russula, andTuber, and unidentified Basidiomycetes, based on earlier references.
Article PDF
Similar content being viewed by others
Avoid common mistakes on your manuscript.
Literature cited
Agerer, R. 1986a. Studies on ectomycorrhizae II. Introducing remarks on characterization and identification. Mycotaxon26: 473–492.
Agerer, R. 1986b. Studies on ectomycorrhizae III. Mycorrhizae formed by four fungi in the generaLactarius andRussula on spruce. Mycotaxon27: 1–59.
Agerer, R. 1987. Studies on ectomycorrhizae. X. Mycorrhizae formed byCortinarius obtusus andC. venetus on spruce. Mycologia79: 524–539.
Agerer, R. 1988. Studies on ectomycorrhizae. XIV. Mycorrhizae formed byCortinarius hercynicus andC. variecolor onPicea abies. Can. J. Bot.66: 2068–2078.
Agerer, R. 1987–1996. Colour Atlas of Ectomycorrhizae, 1st–9th edn. Einhorn, Schwabisch-Gmund.
Agerer, R. 1995. Anatomical characteristics of identified ectomycorrhizas: An attempt towards a natural classification. In: Mycorrhiza, (ed. by Varma, A. and Hock, B.), pp. 685–734. Springer-Verlag, Germany.
Arnolds, E. 1992. The analysis and classification of fungal communities with special reference to macrofungi. In: Fungi in Vegetation Science, (ed. by Winterhoff W.), pp. 7–47. Kluwer Academic Publishers. The Netherlands.
Brundrett, M. 1991. Mycorrhizas in natural ecosystems. Adv. Res. Ecol.21: 170–313.
Brunner, I., Amiet, R. and Schneider, B. 1991. Characterization of naturally grown and in vitro synthesized ectomycorrhizas ofHebeloma crustuliniforme andPicea abies. Mycol. Res.95: 1407–1413.
Chilvers, G. A. 1968. Some distinctive types of eucalypt mycorrhiza. Aust. J. Bot.16: 49–70.
Danielson, R. M. 1984. Ectomycorrhizal associations in jack pine stands in northeastern Alberta. Can. J. Bot.62: 932–934.
Dominik, T. 1969. Key to ectotrophic mycorrhizae. Folia For. Pol. Ser. A15: 309–321.
Fleming, L. V. 1983. Succession of mycorrhizal fungi on birch: infection of seedlings planted around mature trees. Plant Soil71: 263–267.
Fleming, L. V. 1984. Effects of soil trenching and coring on the formation of ectomycorrhizas on birch seedlings grown around mature trees. New Phytol.98: 143–153.
Forest soil division. 1976. Classification of forest soil in Japan. Bull. Gov. For. Exp. Sta.280: 1–28. (In Japanese with English summary.)
Gardes, M. and Bruns, T. D. 1996. Community structure of ectomycorrhizal fungi in aPinus muricata forest: above-and below-ground views. Can. J. Bot.74: 1572–1583.
Goodman, D. M., Durall, D. M., Trofymow, J. A. and Berch, S. M. 1996. Concise descriptions of North American ectomycorrhizae. 1st and 2nd edn. Mycologue Publications and Canada-B.C. Forest Resource Development Agreement, Canadian Forest Service, Victoria B.C.
Griffiths, R. P., Bradshaw, G. A., Marks, B. and Lienkaemper, G. W. 1996. Spatial distribution of ectomycorrhizal mats in coniferous forests of the Pacific Northwest, USA. Plant Soil180: 147–158.
Harvey, A. E., Larsen, M. J. and Jurgensen, M. F. 1976. Distribution of ectomycorrhizae in a mature Douglas-fir/Larch forest soil in Western Montana. Forest Sci.22: 393–398.
Ingleby, K., Mason, P. A., Last, F. T. and Fleming, L. V. 1990. Identification of ectomycorrhizas. ITE Res. Publ. No. 5, HMSO, London.
Kasuya, M. C. M., Igarashi, T. and Shibuya, M. 1995. Occurrence and types of ectomycorrhizae present in seedlings ofPicea glehnii in a natural forest in Hokkaido. Mycoscience36: 335–339.
Kitamura, S. and Murata, G. 1984. Colored Illustrations of Woody Plants of Japan Vol. II., Hoikusha, Osaka. (In Japanese.)
Kraigher, H., Agerer, R. and Javornik, B. 1995. Ectomycorrhizae ofLactarius lignyotus on Norway spruce, characterized by anatomical and molecular tools. Mycorrhiza5: 175–180.
Lee, L. S., Alexander, I. J. and Watling, R. 1997. Ectomycorrhizas and putative ectomycorrhizal fungi ofShorea leprosula Miq. (Dipterocarpaceae). Mycorrhiza7: 63–81.
Maia, L. C., Yano, A. M. and Kimbrough, J. M. 1996. Species of ascomycota forming ectomycorrhizae. Mycotaxon57: 371–390.
Masui, K. 1926. A study of the mycorrhiza ofAbies firma, S. et Z., with special reference to its mycorrhizal fungus,Cantharellus floccosus, Schw. Mem. Coll. Sci. Kyoto Imp. Univ. Ser. B,2: 15–84.
Matsuda, Y. 1994. Seasonal occurrence and spatial distribution of fruitbodies of ectomycorrhizal fungi on the border of a man-made and a naturally regenerated forest. Bull. Nagoya Univ. For.13: 109–118.
Matsuda, Y. and Hijii, N. 1998. Spatiotemporal distribution of fruitbodies of ectomycorrhizal fungi in anAbies firma forest. Mycorrhiza8: 131–138.
Matsuda, Y. and Hijii, N. 1999. Characterization and identification ofStrobilomyces confusus ectomycorrhizas on Momi fir by RFLP analysis of the PCR-amplified ITS region of the rDNA. J. For. Res.4: 145–150.
Menge, J. A. and Grand, L. F. 1978. Effect of fertilization on production of epigeous basidiocarps by mycorrhizal fungi in loblolly pine plantations. Can. J. Bot.56: 2357–2362.
Miller, S. L., Koo, C. D. and Molina, R. 1991. Characterization of red alder ectomycorrhizae: a preface to monitoring belowground ecological responses. Can. J. Bot.69: 516–531.
Mizoguchi, T. 1996. Growth and nutritional responses of some Japanese conifers for inoculation of arbuscular mycorrhizal fungi and different soil phosphorus regimes. First International Conference on Mycorrhizae (ICOM1), Berkeley, U.S.A., July 31–Aug. 3, pp. 88.
Molina, R., Massicotte, H. B. and Trappe, J. M. 1992. Ecological role of specificity phenomena in ectomycorrhizal plant communities: potentials for interplant linkages and guild development. In: Mycorrhizas in Ecosystems, (ed. by Read, D. J., Lewis, D. H., Fitter A. H. and Alexander, I. J.), pp. 106–112. CAB International, Cambridge.
Murakami, Y. 1987. Spatial distribution ofRussula species inCastanopsis cuspidata forest. Trans. Br. Mycol. Soc.89: 187–193.
Nara, K., Hogetsu, T. and Suzuki, K. 1992. Spatial distribution of ectomycorrhizae and their morphological features in a plantation ofAbies firma. Bull. Tokyo Univ. For.87: 195–204. (In Japanese with English summary.)
Oohata, S. 1994. Speciation and distribution in the genusAbies with reference to speciation of the genusPinus. Bull. Kyoto Univ. For.66: 24–36. (In Japanese with English summary.)
Smith, S. E. and Read, D. J. 1997. Mycorrhizal Symbiosis 2nd ed. Academic Press, New York.
Taylor, A. F. S. and Alexander, I. J. 1989. Ectomycorrhizal synthesis with an isolate ofRussula aeruginea. Mycol. Res.92: 103–107.
Trappe, J. M. 1962. Fungus associates of ectotrophic mycorrhizae. Bot. Rev.28: 538–606.
Tyler, G. 1994. Spatial sporophore pattern of ectomycorrhizal fungi in a hornbeam (Carpinus betulus L.) forest. For. Ecol. Manage.65: 165–170.
Yamada, A. and Katsuya, K. 1995. Mycorrhizal association of isolates from sporocarps and ectomycorrhizas withPinus densiflora seedlings. Mycoscience36: 315–323.
Yamada, A. and Katsuya, K. 1996. Morphological classification of ectomycorrhizas ofPinus densiflora. Mycoscience37: 145–155.
Author information
Authors and Affiliations
Corresponding author
About this article
Cite this article
Matsuda, Y., Hijii, N. Ectomycorrhizal morphotypes of naturally grownAbies firma seedlings. Mycoscience 40, 217–226 (1999). https://doi.org/10.1007/BF02463958
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02463958