An analysis of epiphytic lichen communities in Tasmanian cool temperate rainforest |
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Authors: | Gintaras Kantvilas Peter R Minchin |
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Institution: | (1) Tasmanian Herbarium, GPO Box 252C, 7001 Hobart, Tasmania, Australia;(2) Department of Biogeography and Geomorphology, Research School of Pacific Studies, Australian National University, GPO Box 4, 2601 Canberra, ACT, Australia |
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Abstract: | A three-dimensional compositional pattern in the epiphytic lichen vegetation in Tasmanian cool temperate rainforest is demonstrated using the robust ordination technique, hybrid multidimensional scaling (HMDS). The first two dimensions are correlated with the age of the host tree (and the concomitant change in bark texture) and wetness of the substrate. No measured environmental variable is related to the third dimension, which is tentatively attributed to a gradient in the constancy of the microclimate. Patterns of richness of lichen growth forms and the cover of bryophytes are correlated with the three putative environmental gradients. Possible successional trends between 12 community groups derived by numerical classification are described with respect to changes in substrate age, wetness and microclimatic constancy. Temporal variation of these factors due to tree growth, together with the slow establishment and long persistence of some lichen species, make succession in epiphytic communities very complex. This study demonstrates the value of HMDS in identifying compositional patterns and generating hypotheses about the causal ecological factors. The existence of the postulated microclimatic constancy gradient was not appreciated before the analysis and its discovery illustrates the risk of relying on constrained ordination methods, such as canonical correspondence analysis.Abbreviations HMDS
Hybrid multidimensional scaling
- NMDS
Non-metric multidimensional scaling |
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Keywords: | Classification Environmental gradient Growth form Hybrid multidimensional scaling Indirect gradient analysis Numerical method Ordination Vector fitting |
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