Abstract
Fungal communities on decaying culms of a bamboo host (Phyllostachys bambusoides) from freshwater and adjacent terrestrial habitats were identified. Collections were made at Xiao Bai Long Mountain, Yiliang, Yunnan, China in the winter and summer. In each collection, 100 similar-sized bamboo culms were collected, comprising 50 submerged samples from a stream and 50 terrestrial samples from adjacent riparian vegetation. A total of 82 fungal taxa were recorded from the samples, including 30 ascomycetes and 52 anamorphic fungi. The frequency of occurrence of these fungi were recorded and the Shannon–Weiner indices (H′) were applied to evaluate fungal diversity. The results showed that variation of the fungal diversity between the summer and winter collections was insignificant (0.2<p<0.5). Fungal diversity on submerged bamboo however, was significantly higher than that on terrestrial bamboo (p<0.001). Further findings were that: (1) some commonly recorded freshwater and terrestrial taxa were found in both habitats, but overall there were only 15 overlapping species between the two habitats; (2) the dominant species in each habitat were considerably different, and (3) only a few fungi were dominant, while most species were rare, being recorded only once or twice. Factors responsible for the distribution patterns and variations in composition of the fungal communities are discussed.
This is a preview of subscription content, access via your institution.
References
Bärlocher F. (1992) The ecology of aquatic hyphomycetes. In: Begon M., Harper J.L., Townsend C.R. (eds) Ecology: Individuals, Population and Communities. 3rd edn. Blackwell, Boston USA
Begon M., Harper J.L., Townsend C.R. (1992) Ecology: Individuals, Population and Communities. 3rd edn. Blackwell, Boston USA
Belliveau M.J.R. and Bärlocher F. 2005. Molecular evidence confirms multiple origins of aquatic hyphomycetes. Mycol. Res. 109: 1407–1417
Boddy L., Watkinson S.C. (1995) Wood decomposition, higher fungi, and their role in nutrient redistribution. Can. J. Bot. 73: S1377–S1383
Bucher V.V.C., Hyde K.D., Pointing S.B., Reddy C.A. (2004) Production of wood decay enzymes, mass loss and lignin solubilization in wood by marine ascomycetes and their anamorphs. Fung. Diver. 15: 1–14
Bucher V.V.C., Pointing S.B., Hyde K.D., Reddy C.A. (2005) Production of wood decay enzymes, loss of mass and lignin solubilization in wood by diverse freshwater fungi. Microbiol. Ecol. 48: 329–335
Cai L., Zhang K.Q., McKenzie E.H.C., Hyde K.D. (2003) Freshwater fungi from bamboo and wood submerged in the Liput River in the Philippines. Fung. Diver. 13: 1–12
Dalisay T.U. 1998. Biodiversity of microfungi associated with species of Bambusa and Dendrocalamus. PhD. Thesis, The University of Hong Kong
Delaney M., Brown S., Lugo A.E., Torres L.A., Bello Q.N. (1997) The distribution of organic carbon in major components of forests located in five life zones of Venezuela. J. Trop. Ecol. 13: 697–708
Dix N.J., Webster J. (1995) Fungal Ecology. Chapman Hall, London
Edman M., Jonsson B.G. (2001) Spatial pattern of downed logs and wood-decaying fungi in an old-growth Picea abies forest. J. Veg. Sci. 12: 609–620
Fabre E. (1996) Relationships between aquatic hyphomycete communities and riparian vegetation in 3 Pyrenean streams. C R Acad. Sci. Paris, Sci. Vie/Life Sci. 319: 107–111
Fröhlich J., Hyde K.D. (2000) Palm Microfungi. Fung. Diver. Res. Ser. 3: 1–393
Fryar S.C., Yuen T.K., Hyde K.D., Hodgkiss I.J. (2001) The influence of competition between tropical fungi on wood in streams. Microbiol. Ecol. 41: 245–251
Fryar S.C., Davies J, Booth W., Hodgkiss I.J., Hyde K.D. (2004) Succession of fungi on dead and live wood in brackish water in Brunei. Mycologia 96: 219–225
Ho W.H., Hyde K.D., Hodgkiss I.J., Yanna (2001) Fungal communities on submerged wood from streams in Brunei, Hong Kong, and Malaysia. Mycol. Res.105: 1492–1501
Hutcheson K. (1970) A test for comparing diversities based on the Shannon formula. J. Theoret. Biol. 29: 151–154
Hyde K.D., Goh T.K. (2003) Adaptation for dispersal in filamentous freshwater fungi. Fung. Diver. Res. Ser. 10: 231–258
Hyde K.D., Ho W.H., McKenzie E.H.C., Dalisay T. (2001) Saprobic fungi on bamboo culms. Fung. Diver. 7: 35–48
Hyde K.D., Zhou D.Q., Dalisay T. (2002) Bambusicolous fungi: A review. Fung. Diver. 9: 1–14
Hyde K.D., Cai L., Jeewon R. (2005) Tropical fungi. In: Dighton J., White J.F., Oudemans P. (eds) The Fungal Community, its organization and role in the ecosystem. CRC Press, Taylor & Francis Group, USA, pp. 93–115
Jacobson P.J., Jacobson K.M. (1999) Transport, retention, and ecological significance of woody debris within a large ephemeral river. J. N. A. Benthol. Soc. 18: 429–444
Kent M., Coker P. (1992) Vegetation description and analysis. A practical approach. Wiley, Boca Raton
Koide R.T., Kabir Z. (2001) Nutrient economy of red pine is affected by interactions between Pisolithus tinctorium and ectomycorrhizal fungi. New Phytol. 140: 539–548
Lodge D.J. (1997) Factors related to diversity of decomposer fungi in tropical forests. Biodiv. Conserv. 6: 681–688
Lodge D.J., Cantrell S. (1995) Fungal communities in wet tropical forests: variation in time and space. Can. J. Bot. 73: S1391–S1398
Luo J., Yin J.F., Cai L., Zhang K.Q., Hyde K.D. (2004) Freshwater fungi in Lake Dianchi, a heavily polluted lake in Yunnan, China. Fung. Diver. 16: 93–112
Magurran A.E. (1988) Ecological Diversity and its Measurement. Croom Helm, London
Maser C., Sedell J.R. (1994) From the forest to the sea: the ecology of wood in streams, rivers, estuaries, and oceans. St. Lucie Press, Delray Beach, Florida
Norden B., Paltto H. (2001) Wood-decay fungi in hazel wood: Species richness correlated to stand age and dead wood features. Biol. Conserv. 101: 1–8
Pointing S.B. (2001) Exploiting of Versatile Ligninolytic System of White-Rot fungi. Fung. Diver. Res. Ser. 6: 253–290
Polishook J.D., Bills G.F., Lodge D.J. (1996) Microfungi from decaying leaves of two rain forest trees in Puerto Rico. J. Ind. Microbiol. Biotechnol. 17: 284–294
Shearer C.A. (1993) The freshwater ascomycetes. Nova Hedwigia 56: 1–33
Shearer C.A., Zare M.H. (1988) In vitro hyphal interactions among wood- and leaf-inhabiting Ascomycetes and fungi Imperfecti from freshwater habitats. Mycologia 80: 31–37
Sigler L., Lumley T.C., Currah R.S. (2000) New species and records of saprophytic ascomycetes (Myxotrichaceae) from decaying logs in the boreal forest. Mycoscience 41: 495–502
Sridhar K.R., Bärlocher F. (2000) Initial colonization, nutrient supply, and fungal activity on leaves decaying in streams. Appl. Environ. Microbiol. 66: 1114–1119
Strong D.R. (1992) Non-equilibrium themes for ecological theory: implications for fungal communities. In: Carroll G.C., Wicklow D.T. (eds) The Fungal Community: Its Organization and Role in the Ecosystem. Marcel Dekker, New York, pp. 1–16
Subercropp K. (1992) Aquatic hyphomycete communities. In: Carroll G.C., Wicklow D.T. (eds) The Fungal Community: Its Organization and Role in the Ecosystem. Marcel Dekker, New York, pp. 729–747
Tank J.L., Winterbourn M.J. (1996) Microbial activity and invertebrate colonisation of wood in a New Zealand forest stream. New Zeal. J. Mar. Fresh. Res. 30: 271–280
Thomas K., Chilvers G.A., Norris R.H. (1989) Seasonal occurrence of conidia of aquatic hyphomycetes (fungi) in Lees Creek, Australian Capital Territory. Aust. J. Mar. Freshw. Res. 40: 11–23
Tsui C.K.M., Hyde K.D. (2004) Biodiversity of fungi on submerged wood in a stream and its estuary in the Tai Ho Bay, Hong Kong. Fung. Diver. 15: 205–220
Tsui C.K.M., Hyde K.D., Hodgkiss I.J. (2000) Biodiversity of fungi on submerged wood in Hong Kong streams. Aquat. Microb. Ecol. 21: 289–298
Vijaykrishna, D. 2005. Freshwater fungi; biodiversity, origins and molecular taxonomy. PhD thesis, The University of Hong Kong
Wicklow D.T. (1992) Interference competition. In: Carroll G.C., Wicklow D.T. (eds) The Fungal Community: Its Organization and Role in the Ecosystem. Dekker, New York, USA, pp. 265–274
Wong M.K.M., Hyde K.D. (2002) Fungal saprobes on standing grasses and sedges in a subtropic aquatic habitat. Fung. Diver. Res. Ser. 7: 195–212
Wong M.K.M., Goh T.K., Hodgkiss I.J., Hyde K.D., Ranghoo V.M., Tsui C.K.M., Ho W.H., Wong S.W., Yuen T.K. (1998) Role of fungi in freshwater ecosystems. Biodiv. Conserv. 7: 1187–1206
Wood-Eggenschwiler S., Bärlocher F. (1985) Geographical distribution of Ingoldian fungi. Verh. Int. Ver. Theor. Angew. Limnol. 22: 2780–2785
Yuen T.K., Hyde K.D., Hodgkiss I.J. (1998) Physiological growth parameters and enzyme production in tropical freshwater fungi. Mater. Organismen 32: 2–16
Yuen T.K., Hyde K.D., Hodgkiss I.J. (1999a) Interspecific interactions among tropical and subtropical freshwater fungi. Microb. Ecol. 37: 257–262
Yuen T.K., Hyde K.D., Hodgkiss I.J. (1999b) Wood-degrading capabilities of tropical freshwater fungi. Mater. Organismen 33: 37–48
Zhou D.Q., Hyde K.D. (2002) Fungal succession on bamboo in Hong Kong. Fung. Diver. 10: 213–227
Acknowledgements
This study was partly funded by the International Cooperation Research Foundation, Yunnan Province (2000C002) and NSFC 3026002. J. Luo is thanked for giving help on sample collection. Helen Leung is thanked for technical assistance. L.␣Cai thanks the University of Hong Kong for the award of a postgraduate scholarship. Dr. W.H. Ho is thanked for pre-submission review and giving helpful suggestions.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Cai, L., Ji, KF. & Hyde, K.D. Variation between freshwater and terrestrial fungal communities on decaying bamboo culms. Antonie Van Leeuwenhoek 89, 293–301 (2006). https://doi.org/10.1007/s10482-005-9030-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10482-005-9030-1