查詢結果分析
來源資料
相關文獻
- The Ability of the Rf32 Strain (Cryptosporiopsis, Helotiales) to Form Ericoid Mycorrhiza Symbioses with Rhododendron Species
- Resynthesis of Ericoid Mycorrhizae in Formosan Rhododendron (Rhododendron formosanum Hemsl.) with an Endophytic Cryptosporiopsis Species
- Axenic Synthesis of Ericoid Mycorrhiza in Rhododendron Formosanum with Phialocephala Species
- 臺灣杜鵑與內生菌Cryptosporiopsis sp.共生形成杜鵑類菌根
- 紅毛杜鵑與內生菌Phialocephala sp.形成杜鵑類菌根
- 阿里山地區玉山杜鵑(森氏杜鵑)根菌結合體形態及其內生菌
- 杜鵑類菌根奧秘初探
- 內生菌Hymenoscyphus sp.接種西施花之研究
- Morphology and Ultrastructure of Root-Fungus Association of Rhododendron formosanum Hemsl. in Sanlinchi Forest of Central Taiwan
- 臺灣馬醉木杜鵑類菌根之研究
頁籤選單縮合
題名 | The Ability of the Rf32 Strain (Cryptosporiopsis, Helotiales) to Form Ericoid Mycorrhiza Symbioses with Rhododendron Species=Rf32菌株(Cryptosporiopsis, Helotiales)與杜鵑屬植物形成杜鵑類菌根之研究 |
---|---|
作者 | 林瑞進; Lin, Lei-chen; |
期刊 | 臺灣林業科學 |
出版日期 | 20150600 |
卷期 | 30:2 2015.06[民104.06] |
頁次 | 頁89-96 |
分類號 | 377.2209 |
語文 | eng |
關鍵詞 | 杜鵑類菌根; 杜鵑類菌根菌; 杜鵑屬植物; Ericoid mycorrhiza; Ericoid mycorrhizal fungus; Rhododendron spp.; |
中文摘要 | 本研究室已成功證實自台灣杜鵑根系中分離之Rf32菌株係屬柔膜菌目,擬隱孢子屬之杜鵑類菌根菌,亦證實此菌株菌具有分解枯落物的能力。本研究更深入探討此杜鵑類菌根菌是否能與其他杜鵑屬植物共生形成菌根。試驗結果顯示,此Rf32菌株皆能成功與2種平戶杜鵑及3種台灣原生種杜鵑共生,且於植株根細皮層細胞中都可發現菌絲複合體之杜鵑類菌根構造;因此,本研究證實Rf32菌株能與平戶杜鵑(粉白杜鵑及大紅杜鵑)及台灣原生種杜鵑(紅毛杜鵑、烏來杜鵑及西施花)共生,並與其根系形成杜鵑類菌根。 |
英文摘要 | The Rf32 strain isolated from Rhododendorn formosanum was demonstrated to be a species of Cryptosporiopsis (Dermateaceae, Helotiales) of ericoid mycorrhizal fungi (ERMF), and has the ability to decompose organic matter. This study further documented the symbiotic ability of the Rf32 fungal strain in association with 5 Rhododendron species. Inoculation results revealed that Cryptosporiopsis sp. Rf32-inoculated Rhododendron seedlings all grew vigorously, and the hyphal complex was found in cortical cells of root associations. This study demonstrated that Cryptosporiopsis sp. had symbiotic ability with R. mucronatum cv. Akemono, R. scabrum, R. kanehirai, R. ellipticum, and R. rubropilosum Hayata var. rubropilosum, and could form ericoid mycorrhiza in vitro with these Rhododendron seedlings. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。