Browse > Article

Production and Transplanting of Ectomycorrhizal Pine Seedlings Using the Old Fairy Ring of Tricholoma matsutake  

Ka, Kang-Hyeon (Division of Wood Chemistry and Microbiology, Korea Forest Research Institute)
Hur, Tae-Chul (Department of Forestry, Kyungpook University)
Park, Hyun (Division of Wood Chemistry and Microbiology, Korea Forest Research Institute)
Kim, Hee-Su (Division of Wood Chemistry and Microbiology, Korea Forest Research Institute)
Bak, Won-Chull (Division of Wood Chemistry and Microbiology, Korea Forest Research Institute)
Yoon, Kap-Hee (Division of Wood Chemistry and Microbiology, Korea Forest Research Institute)
Publication Information
Journal of Korean Society of Forest Science / v.95, no.6, 2006 , pp. 636-642 More about this Journal
Abstract
To make a new fairy ring of Tricholoma matsutake in situ, the way of production and transplanting of ectomycorrhizal seedlings of T. matsutake using Pinus densiflora was investigated after transplanting from 2000 to 2005 as well as the method to improve their survival rate for the fungus. For the production of ectomycorrhizal pine seedlings, the seedlings planted at the edge of fairy ring of T. matsutake in November showed 97% of the survival rate, while those planted in April showed 80% of the rate. For the complete infection of the T. matsutake, it required more than two years after planting. The infection rate of mycelia for the ectomycorrhizal seedlings was 17.6% when the natural seedlings were used, whereas it was relatively low when the seedlings prepared from the nursery were used. The survival of T. matsutake mycelium reached up to 22% by the transplanting in April, while the mycelium transplanted in October and November showed less than 5% of the survival. The survival of T. matsutake on the transplanted seedlings was the highest in the seedlings having 50% of infection rate before transplanting. Excavation of the ectomycorrhizal seedling to examine the vitality of ectomycorrhizal roots of T. matsutake resulted in the perishing of them. Therefore, the method using a 'rice bag triers' to check living mycelium of T. matsutake without digging of transplanted seedlings was introduced in this study. In addition, it is recommended that the examination has to be conducted at least two years after transplanting.
Keywords
Tricholoma matsutake; Pinus densiflora; transplanting; rice bag triers;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 허태철,박 현,정진현,주성현. 1998. 송이 균환의 발달에 따른 토양의 이화학적 특성과 탈수소효소의 활상변화 한국임학회지 87(2): 270-275
2 枯木熊人. 1980. ポ.., トを利用したマツタケ 菌感染苗の育成 (I). 廣島縣立林業試驗場昭究報告 第15: 49-64
3 富永保人. 1978. マツタケ栽培の實際. 養賢當. pp. 171
4 Bergius, N. and Danell, E. 2000. The Swedish matsutake (Lricholoma nauseosum syn. T. matsutake): Distribution, abundance and ecology. Scand. J. For. Res. 15: 318-325   DOI
5 鳥越 茂. 1998. 菌根菌越培-林地から施設まで-: マツタケとその他菌根菌の林地越培の步み. 日菌報 39: 113-116
6 Wang, Y., Hall, I.R. and Evans, L.A. 1997. Ectomycorrhizal fungi with edible fruiting bodies 1. Tricholoma matsutake and related fungi. Economic Botany 51(3):311-327   DOI   ScienceOn
7 Kazuyuki, M. 1992. Growth of pine saplings to be infected by Tricholoma matsutake (Ito et Imai) Sing. Bulletin of the Hiroshima Prefectural Forestry Experiment Station No. 26: 45-61
8 박 현,김교수,구창덕. 1995. 한국에서 9월의 기상인자가 송이 발생에 미치는 영향과 그 극복방안 한국임학회지 84(4): 479-488
9 浜田 稔,小原 弘之. 1984. マツタケ -人工增殖の試み-. 農山漁村文化協會. pp. 142
10 Ogawa, M., Umehara, T., Kontani, S. and Yamaji, K. 1978. Cultivating method of the mycorrhizal fungus, Tricholoma matsutake (Ito et Imai) Sing. (I) Growing method of the pine saplings infected with T. matsutake in the field. J. Jap. For. Soc. 60: 119-128
11 Shinya, E. 1990. Cultivation of the pine seedlings infected with Tricholoma matsutake by use of in vitro mycorrhizal synthesis. Bulletin of the Hiroshima Prefectural Forestry Experiment Station No. 24: 1-6
12 가강현,구창덕. 2002. 송이 인공재배 연구를 향한 질문들. Trends in Agriculture & Life Scienee 2(1): 1-6
13 가강현,박 현,허태철,여운홍,박원철. 2002. 소나무를 이용한 송이 균근 합성. 2002년도 한국임학회 학술 연구 발표논문집 pp. 235-236
14 임업연구원. 1999. 소냐무 소나무림. 서울. 삼우인쇄사. 205pp
15 가강현. 2001. 송이의 생장 특성과 기생균에 관한 연구. 동국대학교 박사학위논문 pp.105
16 マツタケ硏究懇話會. 1983. マツタケ山のつくら方. 柱式會社 創文. pp. 163
17 Inaba, K., Yoshida, T., Takano, Y., Mayuzumi, Y., Mitsunaga, T. and Koshijima, T. 1995. An instance of the fruiting-body formation of Tricholoma matsutake. Environ. Control in Biol. 33(1): 59-64   DOI
18 小川 眞,梅原武夫,紺谷修治,山路木曾男. 1978. マツタケ菌の增殖法 (I) マツタケ 感染苗の育成法. 日林誌 60: 119-128
19 小川 眞,伊藤 武. 1989. マツタケは栽培できるか. 林業改良普及書 102. 全國林業改良普及協會 pp. 181
20 Yamada, A., Maeda, K. and Ohmasa, M. 1999. Ectomycorrhiza formation of Tricholoma matsutake isolates on seedlings of Pinus densijlora in vitro. Mycoscience 40: 455-463   DOI   ScienceOn
21 Vaario, L.M., Guerin-Laguette, A., Gill, W.M., Lapeyrie, F. and Suzuki, K. 2000. Only two weeks are required for Tricholoma matsutake to differentiate ectomycorrhizal Hartig net structures in roots of Pinus densiflora seedlings cultivated on artificial substrate. J. For. Res. 5: 293-297   DOI
22 이태수,김교수, 심우섭,김세현,주영환,오세원,조재명,이지열. 1984. 송이 인공증식에 관한 연구(I) 임시연보 31: 109-123