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Effects of Lyophyllum shimeji Inoculation on the Mycorrhizal Formation and Seedling Growth of Lespedeza cyrtobortya  

Lee, Sang Yong (Division of Forest Resources, College of Forest Sciences, Kangwon National University)
Jung, Joo Hae (Division of Forest Resources, College of Forest Sciences, Kangwon National University)
Lee, Jong Kyu (Division of Forest Resources, College of Forest Sciences, Kangwon National University)
Publication Information
Journal of Korean Society of Forest Science / v.94, no.3, 2005 , pp. 146-152 More about this Journal
Abstract
For the application of ectomycorrhizal seedlings on damaged slope lands, studies on cultural characteristics of Lyophyllum shimeji and ectomycorrhizal associations of Lespedeza cyrtobotrya seedlings were carried out by artificial inoculation of L. shimeji. Mycelial growth of L. shimeji was best on MP (1% malt extract, 0.1% peptone, 1% glucose and 1.5% agar) medium. An optimum temperature and pH for the mycelial growth were $25^{\circ}C$ and pH6, respectively. Mycorrhizal root of L. cyrtobotrya seedlings inoculated with L. shimeji showed characteristics of ectomycorrhizas with Hartig net. Growth rate of the mycorrhizal seedlings's roots was higher than that of non-mycorrhizal seedlings. When the mycorrhizal seedlings were transplanted in slope land, survival rate and dry weight were 62% and 850 mg/seedling, respectively. On the other hand, survival rate and dry weight of non-mycorrhizal seedlings were 11% and 430 mg/seedling, respectively.
Keywords
Lyophyllum shimeji; Lespedeza cyrtobortya; Ectomycorrhiza; Hartig net;
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1 Lee, K.J. and Kim, Y.S. 1983. A comparative study on the composition of ectomycorrhizal fungi in pine and poplar stands. Korean Journal of Mycology 11 : 9-13
2 Lee, K.J. and Kim, Y.S. 1987. Host specificity and distribution of putative ectomycorrhizal fungi in pure stands of twelve tree species in Korea. Korean Journal of Mycology 15: 48-69
3 Lee, S.Y, Bang, J.H. and Lee, J.K. 1998. Comparison of cultural characteristics of ectomycorrhizal fungi and mycorrhizal synthesis of Lespedeza cyrtobotrya seedlings by artificial inoculation of Lyophyllum shimeji. '98 Korea-Japan Joint Symposium. The Institute of Forest Sciences, Kangwon National Univ. pp. 81-91
4 Marx, D.H. 1973. Growth of ectomycorrhizal and nonmycorrhizal short leaf pine seedlings in soil with Phytophthora cinnamomi. Phytopathology 63 : 18-23   DOI
5 Marx, D.H. and Artman, J.D. 1979. Pisolithus tinctorius ectomycorrhizae improve survival and growth of pine seedling on acid coal spoils in Kentucky and Virginia. Reclamation Review 2 : 23-31
6 Navratil, S. and Rochon, G C. 1981. Enhanced root and shoot development of poplar cuttings induced by Pisolithus tinctorius inoculum. Canadian Journal of Forest Research 11 : 844-848   DOI
7 Nordam, P. and Fortin, J. A. 1982. Comparison of six surface sterilizing agents for axenic germination of Alnus crispa(Ait) Pursh. Canadian Journal of Forest Research 12 : 1003-1005   DOI
8 Norris, J.R., read, D.J. and Varma, A.K. 1994. Techniques for mycorrhizal research. pp. 75-105. In : Method in Microbiology. Academic Press. London, UK
9 Ohta, A. 1998. Culture condition for commercial production of Lyophyllum shimeji. Mycoscience 39: 13-20
10 Stroo, H. F. and Alexander. M. 1985. Effect of simulated acid rain on mycorrhizal infection of Pinus strobus L. Water Air Soil Pollution 25: 107-114   DOI
11 Kim, J.J. and Lee, K.J. 1990. Effects of inoculation with mycorrhizal fungi, Pisolithus tinctorius and Glomus sp. on the rooting of Quercus acutissima Carr. cuttings at various ortet ages. Journal of Korean Forest Society 79 : 302-308
12 Ohta, A. 1994a. Production of fruit-bodies of a mycorrhizal fungus, Lyophyllum shimeji, in pure culture. Mycoscience 35 : 147-151   DOI
13 Brundrett, M., Murase, O. and Kendrick, B. 1990. Comparative anatomy of roots and mycorrhizae of common Ontario trees. Canadian Journal of Botany 68 : 551-578   DOI
14 Kawai, M. 1997. Artificial ectomycorrhiza formation on roots of air-layered Pinus densiflora sapling by inoculation with Lyophyllum shimeji. Mycologia 89 : 228-232   DOI   ScienceOn
15 Ohta, A. 1994b. Some cultural characteristics of mycelia of a mycorrhizal fungus, Lyophyllum shimeji. Transaction Mycological Society of Japan 31 : 323-334
16 Lee, K.J. and Kim, Y.S. 1986. Host range and host specificity of putative ectomycorrhizal fungi collected under ten different artificial forest types in Korea. Agricultural Research of Seoul Nat'l Univ. 11 : 41-47
17 Lee, K.J., Koo, C. D. and Shim, S.Y. 1981. Survey of ectomycorrhiza in the selected woody species in Korea. Journal of Korean Forest Society 52: 50-57
18 Okabe, H., Marumoto, T., Ezaki, T. and Yamamoto K. 1997. Effectiveness of mycorrhizal association in revegetation. Journal of Agricultural Meteorology 52: 609-612   DOI
19 Marx, D.H., Morris, w.G. and Mexal, J.G. 1978. Growth and ectomycorrhizal development of loblolly pine seedlings in fumigated and nonfumigated nursery soil infested with different fungal symbionts. Forest Science 24 : 193-203
20 Duchesne, L.C., Perterson, R.L. and Ellis, B.E. 1988. Pine root exudate stimulates the synthesis of antifungal compounds by the ectomycorrhizal fungus Paxillus involutus. New Phytologist 108 : 471-476   DOI   ScienceOn
21 Okabe, H., Ezaki, T., Marumoto, T., Hayakawa, S. and Akama, K. 1994. Application of symbiotic microorganisms to revegetation (I) Management of ectomycorrhizal fungi. Japanese Society of Forest Environment 36: 55-63
22 Marx, D.H. 1972. Ectomycorrhizae as biological deterrent to pathogenic root infection. Annual Review of Phytopathology 10 : 429-454   DOI   PUBMED   ScienceOn
23 Ezaki, T., Marumoto, T., Hayakawa, S., Okabe, H., Yamamoto, K. and Chun, K.W. 1997. Forest regeneration utilizing mulching sheet and mycorrhizal fungi. Journal of Agricultural Meteorology 52: 617-620   DOI
24 Menge, J.A. 1983. Utilization of vesicular-arbuscular mycorrhizal fungi in agriculture. Canadian Journal of Botany 61 : 1015-1024   DOI
25 Brundrett, M., Bougher, N., Dell, B., Grove, T. and Malajczuk, N. 1996. Working with mycorrhizas in forestry and agriculture. pp. 179-181. ACIAR Monograph 32. Canberra, Australia
26 Dixon, R.K., Wright, G.M., Behrn, G.T., Teskey, R.O. and Hinckley, T.M. 1980. Water deficits and root growth of ectomycorrhizal white oak seedling. Canadian Journal of Forest Research 10 : 545-548   DOI
27 Koo, C.D., Lee, K.J. and Yim, K.B. 1982. Growth stimulation of pines by artificial inoculation with mycorrhizal fungus, Pisolithus tinctirius. Journal of Korean Forest Society 55 : 22-29
28 lwan, H. and Zak, B. 1979. Acid phosphatase activity of six ectomycorrhizal fungi. Canadian Journal of Botany 57 : 1203-1205   DOI
29 Ohta, A. 1997. Ability of ectomycorrhizal fungi to utilize starch and related substrates. Mycoscience 38 : 403-408   DOI   ScienceOn
30 Ko, M.G. and Lee, K.J. 1988. Effects of simulated acid rain on the growth of Pinus rigida X taeda seedlings inoculated with ectomycorrhizal fungi, Pisolithus tinctorius and Suillus luteus. Journal of Korean Forest Society 77 : 453-459
31 Miller, O. K. Jr. 1982. Taxonomy of ecto-and ectendomycorrhizal fungi. pp. 91-101. In : N.C. Schenck, ed. Method and Principles of Mycorrhizal Research. American Phytopathological Society. U.S.A
32 Marx, D. H. 1980. Tree host range and world distribution of the ectomycorrhizal fungi Pisolithus tinctorius. Canadian Journal of Microbiology 23 : 217-223   DOI   ScienceOn
33 Marx, D.H. and Bryan, W.C. 1971. Influence of ectomycorrhizae on survival and growth of aseptic seedlings of loblolly pine at high temperature. Forest Science 17 : 31-41
34 Kucey, R.M.N. and Paul, E.A. 1982. Carbon flow, photosynthesis and N2 fixation in mycorrhizal and nodulated Faba Beans (Vicia Java L.). Soil Biology & Biochemistry 14: 407-412   DOI   ScienceOn
35 Meyer, F.H. 1973. Distribution of ectomycorrhiza in native and manmade forest. pp. 79-105. In : G.C. Marks. and T.T. Kozlowski, ed. Ectomycorrhizae. Academic Press. London, UK
36 Lee, K.J. and Kim, J.J. 1994. Effects of Pisolithus tinctorius ectomycorrhizal inoculation on in vitro rooting of tissue-cultured Quercus acutissima Carr. and of cutting of Pinus densiflora Sieb. et Zucco Journal of Korean Forest Society 83: 531-539