傅祿敏; 李玉花
東北林業(yè)大學生命科學學院; 東北林業(yè)大學生命科學學院 哈爾濱150040; 中國科學院植物研究所植被數量生態(tài)開放實驗室; 北京100093 ; 哈爾濱150040

【中文摘要】 揭開松口蘑與松科植物的共生關系,開發(fā)松口蘑的人工栽培技術已成為國際性的松口蘑研究課題。近年來,日本、瑞典、美國、韓國和新西蘭等國的研究人員為鑒別松口蘑及其近緣種提供了有效的分子生物學手段,從形態(tài)解剖學、生理學上驗證了松口蘑是典型的外生菌根菌的理論,同時也提出了松口蘑 宿主是一個動態(tài)的共生關系。松口蘑快速人工菌根的合成體系已經建立,為松口蘑人工子實體的誘導奠定了不可缺少的基礎。這一領域的研究必將與植物學、菌物學和土壤學的研究緊密地結合起來,以共同開發(fā)松口蘑的人工栽培技術。

【英文摘要】 Uncovering the symbiosis between Tricholoma mats utake and pine trees, and exploiting an artificial cultivation technology for T. matsutake have become the international research projects. Recently, researchers in Japan, Sweden, USA, South Korea and New Zealand are focusing on following important research projects: to identify T. matsutake and its allied species using biomolecular technology, to prove the theory of T. matsutake being a kind of typical ectomycorrhizal fungi by anatomical and physiological evidences, and to verify the dynamic relationship between T. matsutake and its host plant. And a rapid artificial mycorrhizal synthesizing system has been established, laying a necessary foundation for the artificial induction of T. matsutake fruitbody. While researches on the mycorrhizal activities should be closely connected with researches in the field of botany, mycology and agrology in order to exploit an artificial cultivation technology for T. matsutake

【中文關鍵詞】 松口蘑; 外生菌根菌; 研究熱點
【英文關鍵詞】 Tricholoma matsutake; Ectomycorrhizal fungus; Hot topic of research
【基金】東北林業(yè)大學校長基金(編號042003)

【文獻出處】 食用菌學報,Acta Edulis Fungi,編輯部郵箱,2003年03期 【DOI】CNKI:SUN:SYJB.0.2003-03-011