Facilitative succession in a boreal bryophyte community driven by changes in available moisture and light

Question: What are the drivers of bryophyte succession in paludifying boreal Picea mariana forests? Location: The Clay-Belt of Québec and Ontario, Canada. Methods: The bryophyte community and habitat variables (forest floor thickness, water table, stand density, canopy openness micro-climate and pre...

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Bibliographic Details
Published in:Journal of vegetation science 2006-02, Vol.17 (1), p.65-76
Main Authors: Fenton, Nicole J, Bergeron, Yves
Format: Article
Language:English
Subjects:
Black spruce
Boreal forests
Bryophytes
Bryopsida
canopy gaps
Clay Belt
Coarse woody debris
community structure
environmental factors
Feathermoss
Forest canopy
Forest habitats
Forest litter
Forest soils
Forest succession
Habitat variables
light
Mineral soils
mosses and liverworts
Picea mariana
plant available water
plant communities
s
soil water
solar radiation
Species replacement
Sphagnum
Water table
Water tables
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Summary:Question: What are the drivers of bryophyte succession in paludifying boreal Picea mariana forests? Location: The Clay-Belt of Québec and Ontario, Canada. Methods: The bryophyte community and habitat variables (forest floor thickness, water table, stand density, canopy openness micro-climate and presence of ericaceous species) were analysed in a chronosequence of 13 stands from 50 to more than 350 years since fire. Results: Across the chronosequence, feathermosses were replaced by shade and desiccation tolerant slower growing hummock Sphagna and then by faster growing hollow Sphagna. These changes were linked with both increasing light availability and the movement of the water table into the forest floor. Conclusions: As water table rise is dependent on forest floor thickness, which is in turn influenced by the presence of Sphagna, this successional sequence represents an example of facilitation. Furthermore, it emphasizes the importance of water table rise in determining stand level, and landscape level variables such as carbon balance. Nomenclature: Anderson (1990) for Sphagnum, and Crum & Anderson (1981) for other mosses. Abbreviations: CWD = Coarse woody debris; DCA = Detrended Correspondence Analysis; LCR = Live crown ratio; PAR = Photosynthetically active radiation; pCCA = Partial Canonical Correspondence Analysis; TSF = Time since fire; VPD = Vapour pressure deficit.
ISSN:1100-9233
1654-1103
1104-7402
DOI:10.1658/1100-9233(2006)017[0065:FSIABB]2.0.CO;2