Affiliation:
1. Institute of Forest Ecology Slovak Academy of Sciences Zvolen Slovak Republic
2. Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha, Suchodol Czech Republic
3. Institute of Botany, Plant Science and Biodiversity Center Slovak Academy of Sciences Bratislava Slovak Republic
4. Faculty of Forestry Technical University of Zvolen Zvolen Slovak Republic
Abstract
AbstractAimA resource based conceptual model of plant diversity (RBCM) assumes direct relationships between resource supply and the diversity of a local plant assembly. However, the RBCM largely ignores variation in soil toxicity imposed by climatic effects. Both soil limiting resources and soil toxicity vary along climatic gradients but their net and interactive effects on plant species diversity remain unknown. We asked how climatic gradients shape resource availability, soil toxicity and dominance of herb‐layer graminoids, and how these predictors control local species diversity of herbs and bryophytes.LocationSwamp forests, Central Europe.TaxonVascular plants, bryophytes.MethodsAlpha taxonomic diversity of vascular plants and bryophytes was counted for 101 vegetation plots sampled in temperate swamp forests distributed along an 800‐km geographical gradient across the Continental, Alpine and Pannonian biogeographical regions. Path analysis (structural equation modelling) was used to quantify the direct and indirect effects of climatic variable (potential evapotranspiration; PET), limiting resources (soil N/P, Ca, C/N, proxies for light and water availability) and soil toxicity (Mn) on graminoid dominance and community diversity.ResultsPET negatively influenced species richness of both groups analysed either directly or indirectly through its positive effect on the cover of graminoid species. Alpha diversity of herbs was additionally reduced by soil toxicity (Mn). Limiting resources correlated either with species dominance (canopy shading, soil Ca) or with PET (soil N/P ratio), but they did not control species richness pattern.Main ConclusionsClimate, soil toxicity and species dominance determined alpha diversity instead of the expected importance of soil limiting resources. These results are key to advancing the theoretical framework of the RBCM. Increased soil toxicity (Mn) in well‐watered regions favours the dominance of plant competitors at the expense of less tolerant species. This implies a potential threat to wetland diversity under ongoing climate change.
Funder
Grantová Agentura České Republiky
Subject
Ecology,Ecology, Evolution, Behavior and Systematics