Multi-species competition experiments with peatland bryophytes

Abstract

Question: Species interactions are one of the processes determining composition of plant communities. We used the community density series method to study competition in a multi-species community of bryophytes common in calcareous fens. The succession of mires is driven by Sphagnum species, which are supposedly superior to brown mosses in competition for resources and space, but little is known about the environmental conditions in which brown mosses can prevail when subject to neighbour interactions. How are interactions among peatland bryophytes affected by the environment?

Location: Field and garden experiments near Uppsala in mid-eastern Sweden.

Methods: To examine the effects of environment on competition and competitive hierarchies we assembled multi-species communities of ten bryophyte species from shoot fragments (brown mosses and Sphagnum species) at two densities and grew them on three types of peat (representing poor, intermediate and rich fens) under dry or wet conditions in a garden experiment and along pH and wetness gradients in the field.

Results: A multivariate analysis of the garden experiment showed that community composition was affected by peat type and wetness and their interactions. The brown mosses performed better in wet and rich fens, the Sphagnum species in drier and poorer fens. The Sphagnum species were overall the best competitors.

Conclusions: The experiments demonstrated contrasting responses of brown mosses and Sphagnum to properties of the microhabitat. Sphagnum species were generally less affected by competition than the brown mosses. Sphagnum species were competitive in habitats typically dominated by brown mosses and even responded positively to crowding. This can explain why Sphagnum can invade calcareous fens. In contrast, brown mosses performed poorly in habitats more typical of Sphagnum species.

Keywords

Brown mosses; Calcareous fen; Common garden experiment; Density; Field experiment; pH; Relative growth rate (RGR); Sphagnum; Wetness

Published in

Journal of Vegetation Science
2016, volume: 27, number: 1, pages: 165-175

SLU Authors

• Sundberg, Sebastian

  • SLU Swedish Species Information Centre, Swedish University of Agricultural Sciences
    

UKÄ Subject classification

Oceanography, Hydrology, Water Resources
Botany
Ecology

Publication identifier

• DOI: https://doi.org/10.1111/jvs.12322

Permanent link to this page (URI)

https://res.slu.se/id/publ/69198