[1] 林先贵,郝文英.不同植物对VA菌根菌的依赖性[J].植物学报,1989,31(9):721-725. [2] 赵之伟.VA菌根共生的起源和进化[J].生态学杂志,199817(3):37-41. [3] 赵之伟.云南热带、亚热带蕨类植物根际土壤中的VA菌根真菌[J].云南植物研究,1998,20(2):183-192. [4] 赵之伟,杜刚.厚囊蕨类植物VA菌根的初步研究[J].云南植物研究,1997,19(4):387-390. [5] Arnebrank,K.et al.Nitrogen translocation between Alnus glutinosa seedlings inoculated with Frankia spand Pinus contort seedlings connected by a common ectomycorrhizal mycelium[J]New Phytol.,1993,130:231-242. [6] Cuenca,G.and Lovera,M.Vesicular-arbuscular mycorrhizae idisturbed and revegetated sites from La Gran Sabana,Venezuel[J].Can.J.Bot.,1992,70:73-79. [7] Diamond,J.M.Colonization of a volcano inside a volcano[J]N at ure,1977,270:13-14. [8] Francis,R.and Read,D.J.Direct transfer of carbon betweeplants connected by vesicular2arbuscular mycorrhizal mycelium[J].N at ure,1984,307:53-56. [9] Gemma,J.N.et al.Mycorrhizae in Hawaiian pteridophytes:ocurrence and evolutionary significances[J].A mer.J.Bot.,199279(8):843-852. 10] Gerdemann,J.W.Vesicular2arbuscular mycorrhiza and plangrowt h[J].A nnu.Rev.Phytopat h.,1968,6:397-418. 11] Hayman,D.S.The physiology of vesicular2arbuscular endomycorrhizal symbiosis[J].Can.J.Bot.,1982,61:944-963. 12] Koske,R.E.et al.Mycorrhizae in Hawaiian angiosperms:A survey wit h implications for t he origin of t he native flora[J].A merJ.Bot.,1992,79(8):853-862. 13] Morton,J.B.and Benny,G.L.Revised classification of arbusculamycorrhizal fungi(Zygomycetes):a new order,Glomales,two newsuborders,Glomineae and Gigasporineae,and two new families,caulosporaceae and Gigasporaceae,wit h an emendation of Glomaceae[J].M ycotaxon,1990,37:471-491. 14] Read,D.J.The ties t hat bind[J].N at ure,1997,388:517-518. 15] Read,D.J.Plant2microbe mutualism and communit y structur[C].In:Ernst2Detlsf Schulze(eds).Biodiversity and EcosystemFunction.New York:Springer2Verlag Pub.,1994.181-209. 16] Reeves,F.B.et al.The role of endomycorrhizae in revegetatiopractices in t he semi-arid west.Ⅰ.A comparison of incidence omycorrhizae in severely disturbed vs natural environments[J]A mer.J.Bot.,1979,66(1):6-13. 17] Simard,S.W.et al.Net transfer of carbon between ectomycorrhizal tree species in t he field[J].N at ure,1997,388:579-582 18] Streitwolf2Engel,R.et al.Clonal growt h traits of two Prunellspecies and determined by co-occuring arbuscular mycorrhizafungi from a clacareous grassland[J].J.Ecology,1997,85:18-191. 19] Trappe,J.M.Phylogenetic and ecological aspects of mycotrophin t he angio sperms from an evolutionary standpoint[C].InSafir,G.R.(ed).Ecophysiology of VA Mycorrhizal PlantsFlorida:CRC Press,1987.5-26. 20] Van Der Heijden,M.G.A.et al.Different arbuscular mycorrhizal fungal species are potential determinants of plant commnity structure[J].Ecology,1998,79(6):2082-2091. 21] Van Der Heijden,M.G.A.et al.Mycorrhizal fungaldi versity determines plants biodiversity,ecosystem variabilit y and productivity[J].N at ure,1998,396:69-72. 22] Wat kins,N.K.et al.Carbon transfer between C3 and C4 plantlinked by a common mycorrhizal network,quantified using stablcarbon isotopes[J].Soil Biol.Biochem.,1996,28:471-477. |