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Drivers of bryophyte diversity allow implications for forest management with a focus on climate change
Authors:Stefanie Raabe,Jö  rg Mü  ller,Michael Manthey,Oliver Dü  rhammer,Ulrich Teuber,Axel Gö  ttlein,Bernhard Fö  rster,Roland Brandl,Claus Bä  ssler
Affiliation:1. Gartenstraße 11, 01994 Annahütte, Germany;2. Bavarian Forest National Park, Freyunger Str. 2, 94481 Grafenau, Germany;3. Institute of Botany and Landscape Ecology, Ernst-Moritz-Arndt-Universität, 17487 Greifswald, Germany;4. Am Schlagteil 23, Großberg, 93080 Pentling, Germany;5. Hinter der Grieb 3, 93047 Regensburg, Germany;6. Department of Ecology, Technische Universität München, Am Hochanger 13, 85354 Freising, Germany;g Institute for Landscape Ecology, Technische Universität München, Am Hochanger 13, 85354 Freising, Germany;h Animal Ecology, Department of Ecology, Faculty of Biology, Philipps-Universität Marburg, 35037 Marburg, Germany
Abstract:
Understanding the major drivers of diversity in forests is crucial for ecologists, conservationists, and particularly forest managers. In most forested habitats, bryophytes are diverse and important primary producers. Here we report the first study of the relative importance of regional macroclimate as compared to local variables on abundance, species richness, and community composition of bryophytes growing in soil and in dead wood in a mountain temperate forest. Using PCA axes, we built predictor sets for macroclimate, microclimate, soil attributes, and dead wood availability. The explanatory power of each set was tested using variance partitioning. Abundance and species richness of soil bryophytes was best explained by microclimate, whereas the community composition did not distinctively differ between the environmental sets. In contrast, dead wood bryophyte abundance, species richness, and community composition was clearly driven by macroclimate. Among the single axes, the component represented best by soil moisture was the main driver for soil bryophyte abundance. In contrast, dead wood bryophyte abundance was mostly affected by components correlated with minimum global radiation and minimum temperatures as well as by the component represented by dead wood. The component represented by canopy openness was superior in explaining the community composition of both soil and dead wood bryophytes. We conclude that (1) dead wood amounts should be increased in closed stands to act as a buffer during climate changes, and (2) open canopy, which provides important habitats for soil-inhabiting bryophytes, should be provided by management with slow reforestation after natural or logging openings.
Keywords:Variance partitioning   Community composition   Species density   Species richness   Dead wood   Climate change
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