木材褐腐真菌泊氏孔菌属生态学研究
A Prelim inary Study on Ecology ofWood Brown2rot Fung i of Postia
-
摘要: 木材腐朽真菌在森林生态系统中起着关键的降解还原作用,是森林生态系统物质循环中不可缺少的重要组成部分。泊氏孔菌属的种类具有降解木材中的纤维素和半纤维素,造成木材褐色腐朽的功能,而混合于针叶林土壤中的褐腐残余物是针叶林生态系统更新所必不可少的。本文对中国地区泊氏孔菌属进行生态学的研究,结果表明树木腐烂程度与泊氏孔菌属的种类分布具有高度相关性,相关系数为0. 885。寄主树木选择性的研究结果表明,泊氏孔菌属的种类主要生长在针叶树倒木上,有19种,占总数的86% ,其中生长在云杉属和松属树木上的种类最多,而阔叶树中最适宜该属物种生长的树种是桦属和杨属树木。Abstract: Wood-inhabiting fungi are the important components of forest ecosystem and p lay a key function during thewood decomposition. Postia can degrade the cellulose and semicellulose of wood and causes a brown-rot. Thebrown-rot remains are necessary for the coniferous forest renewing by their special functions. In this study, the ecological study on Postia from China was carried out. The results showed that the stages of decomposition of fallen decorticated trunkswere closely related with the distribution of species of Postia, and the quotientwas 0. 885. In addition, species in the genus p referred to coniferouswood rather than deciduouswood, about 86% specieswere foundon coniferous wood. The most suitable coniferous hosts were sp ruces and p ines. The most suitable deciduous hostswere birch and pop lar.
-
Key words:
- brown-rot fungi
- / Postia
- / ecology
-
[1] Roll2Hansen F, Roll2Hansen H. Microflora of sound2lookingwood inPicea abies stems [J]. European J Forest Pathol, 1979, 9: 308- 316 [2] Eriksson K L, Blanchette, R A, Ander P. Microbial and enzymaticdegradation of wood and wood components [M]. Sp ringer2Verlag,Berlin, 1990 [3] Solheim H. The early stages of fungal invasion in Norway sp ruce in2fested by the bark beetle Ips typographus [J]. Canadian J Bot,1992, 70: 1 - 5 [4] Solheim H. Fungal succession in sapwood of Norway Sp ruce by thebark beetle Ips typographus[J]. European J. Forest Pathol, 1992,22: 136 - 148 [5] Hallaksela AM, Salkinoja2SalonenM. Bacteria inhabiting artificiallyinoculated xylem of Picea abies[J]. Scand J Forest Res, 1992, 7:165 - 175 [6] Hallaksela A M. Early interactions of Heterobasidion annosum andS tereum sanguinolentum with non2decay fungi and bacteria followinginoculation into stems of Picea abies[J]. European J Forest Pathol,1993, 23: 416 - 430 [7] BoddyL, RaynerA D M. Ecological roles ofBasidiomycetes formingdecaying communities in attached oak branches [J]. New Phytol,1983, 93: 77 - 88 [8] RaynerA D M, Boddy L. Fungal decomposition ofwood: its biologyand ecology [M]. JohnWiley & Sons, Bath. , 1988: 1 - 587 [9] Stenlid J. Community and population biology of boreal decay fungi[M] / /PeglerD N & Boddy L Ing B, Kirk P M. Fungi of Europe:Investigation, recording and conservation. Royal Botanic Gardens,Kew. , 1993: 171 - 180 [10] Montgomery R A P. The role of polysaccharidase enzymes in the de2cay of wood by basidiomycetes[M] / /Frankland C. Hedger J N ,SwiftM J. Decomposer basidiomycetes: their biology and ecology.Cambridge Univ. Press, London, 1982: 51 - 65 [11] Swift M J. Basidiomycetes as components of forest ecosystems[M] / / Frankland J C, Hedger J N, SwiftM J, Decomposer basid2iomycetes: their biology and ecology. Cambridge Univ. Press, Cam2bridge etc. , 1982: 307 - 377 [12] Renvall P. Community structure and dynamics of wood2rotting Ba2sidiomycetes on decomposing conifer trunks in northern Finland[J]. Karstenia, 1995, 35: 1 - 51
计量
- 文章访问数: 3542
- HTML全文浏览量: 262
- PDF下载量: 1915
- 被引次数: 0