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研究生:簡錕榮
研究生(外文):Kun-Jung Chien
論文名稱:瓶爾小草科蕨類菌根之研究
論文名稱(外文):A study on the Mycorrhizae of Ophioglossaceae
指導教授:郭城孟郭城孟引用關係
學位類別:碩士
校院名稱:國立臺灣大學
系所名稱:生態學與演化生物學研究所
學門:生命科學學門
學類:生態學類
論文種類:學術論文
論文出版年:2005
畢業學年度:93
語文別:中文
論文頁數:69
中文關鍵詞:囊叢枝菌根瓶爾小草
外文關鍵詞:OphioglossaceaeVA mycorrhiza
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囊叢枝菌根菌,是一群與植物根部形成共生體的真菌,在分類上屬於繡球菌門。這類真菌可與大多數植物形成菌根,分佈棲地也極為廣泛;本群真菌會因宿主植物的不同而在根部組織中出現不同的感染形態。雖有許多學者研究菌根,但是關於菌根的感染形態研究並不多,而蕨類菌根的討論亦是很少,惟研究文獻中發現其菌根有些較為特殊之感染方式。本研究以瓶爾小草科為研究對象,探討該科內各代表屬種的菌根形態,並分析該形態在科內的一致性以及形態上的定位。
本實驗共研究臺灣產瓶爾小草科中的六個種類,利用根部染色,以光學顯微鏡、掃瞄式電子顯微鏡、穿透式電子顯微鏡做形態觀察,並檢測土壤中的pH值,以及根圈孢子的分離與鑑定。
經研究發現瓶爾小草科之孢子體的菌根形態大致相同,惟此形態與一般所定義之菌根不同,是屬於中間型的表現;再加上叢枝體的形態獨特,文獻中僅有於其他瓶爾小草科蕨類中出現,在其他植物中並未報導過。因此,綜合以上兩點觀察與既有文獻的報導等事實,筆者認為本科蕨類同屬一個菌根形態,而此形態尚未有人提出成為一個獨立形態,筆者建議將其命名為Ophioglossum-type。而根圈土壤的pH值接近中性,惟狹葉瓶爾小草的土壤偏鹼性,帶狀瓶爾小草偏酸性;土壤內孢子數量部分,每20g土壤約有1-50顆孢子,惟帶狀瓶爾小草土壤中的孢子數極多,有3000多顆,種類上也與其他實驗材料不相同,帶狀瓶爾小草的附生環境對於菌根菌或許為一獨特的生存環境,而菌根孢子的傳播途徑,除風力外尚有其他動物因素必須考慮探討。
Abstract

Vesicluar-Arbuscular mycorrhizal fungi , is a group of fungi can symbiosis with plant , belong Glomeromycota , kigdom Fungus . these fungi can form mycorrhiza with most plants and distributed world-wide. But according to the differences of host plant , the mycorrhizal morphology are reveal Six species of Ophioglossaceae (Ophioglossum petiolatum、O. pendulum 、O. austroasiasticum、 O. thermale 、Botrychium formosanum、 Helminthostachys zeylanica) have been study for mycorrhizal status. All of these plants present a different arbuscular morphology : the collapsed arbucle shows the sac-like structure . And in the species, O. petrolatum , we saw how the collapsed arbuscle developed : the arbuscle is trunk-like in the begins, as the normal arbuscle . Sooner, the terminal branches start swelling. Finally, the arbuscle become a cluster of small vesicles. O. pendulum also has the swelling arbuscle , too. Both inter- or intra-cellular hyphae are present in root tissue. According to these observation, we conclude the mycorrhizal morphology of Ophioglossaceae is consistent , and could be a new morphological type exist.
Oil drops and crystal-like material also seen in the stage of collapsed arbuscle . Oil drop should be the carbon source transfer from plant and mycorrhizal fungi change carbon source into oil drops. The crystal-like material could be the polyphosphate which mycorrhizal fungi transfer phosphate in that form. the soil ph and rhizosphere mycorrhizal fungi spore also determined. The lower pH and high soil mycorrhizal fungi spores in O. pendulum shown that epiphyte maybe needs low ph to degenerate litter into the resource they can use ,and mycorrhizal fungi may play a impotent role in this kind of habitat.
誌謝……………………………………………………………………………………
目錄……………………………………………………………………i
中文摘要……………………………………………………………...ii
英文摘要……………………………………………………………..iii
壹、前言
一、囊叢枝菌根概述……………………………………………………1
二、蕨類菌根的研究…………………………………………………4
貳、材料與方法
一、材料…………………………………………………………………8
二、形態觀察……………………………………………………………9
三、土壤pH值測定………………………………………………….11
四、根圈孢子分離與鑑定……………………………………………12
參、結果
一、光學顯微鏡觀察…………………………………………………13
二、電子顯微鏡觀察…………………………………………………16
三、土壤pH值與根圈孢子…………………………………………… 17
肆、討論
一、…………………………………………………………………….19
二、……………………………………………………………………19
三、……………………………………………………………………21
四、……………………………………………………………………22
伍、結論………………………………………………………………23
陸、參考文獻…………………………………………………………24
圖表…………………………………………………………………..26
Bago, B., P.E. Pfeffer and Y. Shachar-hill., 2000 Carbon metabolism and transport in arbuscular mycorrhizas. Plant physiology. 124:949-957
Barrett , J. T.1958. Synthesis of mycorrhiza with pure cultures of Rhizophagus. Phytopathology 48:391.
Berch, S. M. and B. Kenderik 1982. "Vesicular-arbuscular mycorrhizae of southern Ontario ferns and fern allies." Mycologia 74: 769-776.
Bolloud B. 1979. Consideration sur la symbiose fongique chez les
Pteridophytes. Syllogenus 19:1-55.
Bonfante-fasolo, P. and A. Fontana. 1985. VAM fungi in Ginko biloba root: their inter4ations at cellular level. Symbiosis 1:53-67
Dickson , S. 2004. The arum-Paris continuum of mycorrhizal symbioses .New phytologist 163:187-200.
Gerdemann , J.W. 1965. Vesicular-arbuscular mycorrhiza formed on maize and tulip tree by Endogone fasciculate. Mycologia , 57:562-575.
Gemma, J. N., R.E. Koske and T. Flynn 1992. Mycorrhizae in hawaiian pteridophytes: occurrence and evolutionary significance. American journal of Botany 79(8).
Herley, J. L. and. S. E. Smith 1983. mycorhiza symbiosis. NY. USA, Academic Press Inc.
Issac , S.1992. Fungal-Plant interactions. Chapman & Hall Inc. pp 266-285.
Jacquelient-Jeanmoungin, S and V. Gianinazzi-Pearson. 1983. endomycorrhizas in the Gentianaceae I. the fungi assoisiated with Gentiana lutea L. New phytologist 95:663-666
Kapulinik, Y. and D.D. Douds Jr. 2000 Arbuscular mycorrhizas: Physiology and function. pp85-106. Kluwer Academic Publisher.
Kovác, G. M. , I. Kottke , and F. Oberwinkler. 2003. Light and Electron microscopic study on the mycorrhizae of sporophytes of Botrychium virginianum Arbuscular structure resembling fossil forms Plant biology 5(5):574-580
Lang, W.H., 1902 On the prothalli of ophioglossum pendulum and Helminthostachys zeylanica. Ann. Bot.(London) 13:279-317
Safir, G. R. 1987. Ecophysiology of VA Mycorrhizal Plants. Boca Raton, CRC Press, Inc.
Schmid, E. and F. Oberwinkler. 1996. Light and electron microscopy of a distinctive VA mycorrhiza in mature sporophytes of Ophioglossum reticulatum. Mycological research 100(7):843-849
Smith, F.A. and S.E. Smith. 1997. Structural diversity in (vesicular)-
arbuscular mycorrhizal symbioses. New phytologist137:373-388
Stubblefield, S.P., T.N. Taylor and J.M. Trappe., (1987a). Vesicular-
arbuscluar mycorrhizae from the Triassic of Antarctica. American Journal of Botany 74:1904-1911
Stubblefield, S.P., T.N. Taylor and J.M. Trappe., (1987b) Fossil mycorrhizae: a case for symbiosis. Science 237:59-60
Sýkorová, Z., J. Rydlová, and M. Vosátka. 2003. Establishment of mycorrhizal symbiosis in Gentiana verna. Folia Geobotanica 38: 177–189.
Tani, T. and Kudo G. 2003. Storage ability of overwintering leaves and rhizomes in semi-evergreen fern, Dryopteris crassirhizoma (Dryopteridaceae). Ecological research 18:15-24.
Taylor, T.N., W. Remy., H. Hass, and H. Kerp. 1995. Fossil arbuscular Mycorrhizae from the early Devonian. Mycologia 87:560-573.
Zhang Y , G. L.-D., Liu R-J 2004. "Arbuscular mycorrhizal fungi associated with common pteridophytes in Dujiangyan, southwest China." Mycorrhiza 14: 25-30.
Zhao Z-W , X. Y.-M., Qin X-Z , Li X-W , Cheng L-Z , Sha T , Wang G-H 2001. "Arbuscular mycorrhizal status of plants and the spore density of arbuscular mycorrhizal fungi in tropical rain forest of Xishuangbanna, southwest China." Mycorrhiza 11: 159-162.
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