Homogenization of bryophyte species after alpine grassland restoration

The causes of decreasing plant species richness include abandonment of traditional management and the spread of invasive species, even in alpine habitats. Studies on the restoration and management of alpine habitats are predominantly focused on vascular plants, although an important part of alpine v...

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Bibliographic Details
Published in:Journal of environmental management 2022-10, Vol.319, p.115628-115628, Article 115628
Main Authors: Zeidler, Miroslav, Šipoš, Jan, Banaš, Marek, Černohorský, Jan
Format: Article
Language:English
Subjects:
Clearcut
Dwarf pine
Environmental characteristics
Liverwort
Management
Successional trend
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Summary:The causes of decreasing plant species richness include abandonment of traditional management and the spread of invasive species, even in alpine habitats. Studies on the restoration and management of alpine habitats are predominantly focused on vascular plants, although an important part of alpine vegetation and its diversity is formed by bryophytes. We used bryophytes to indicate changes that occur after the clearcutting of nonindigenous dwarf pine (Pinus mugo Turra) and attempted to reveal the community to which the development of bryophyte species structure was directed. We compared species richness and composition between surveys to test for changes in spatial heterogeneity bryophyte communities. We also tried to reveal the main ecological drivers of the restoration process. The study was performed in the (sub)alpine area of the Eastern High Sudetes Mts. (the Czech Republic). We estimated bryophyte species cover and compared the composition of the bryophyte community in autochthonous grassland areas, areas under the dwarf pine canopy, and clearcut areas to reveal the pattern of shifts 9 years after the treatment. We also measured soil characteristics to reveal the environmental habitat conditions. Evidence of taxonomic homogenization of habitat after dwarf pine removal was found. Light conditions and attributes of litter were the driving factors of successional changes in the bryophyte communities, which led to taxonomic homogenization. This finding explains the slow restoration process due to dwarf pine legacy on the clearcut area. The succession trends were also shaped by unobserved factors, such as climate change and environmental eutrophication. We highly recommended active management and long-term monitoring. •In alpine, restoration by removal of nonindigenous woody plants is incomplete.•Bryophytes differ from vascular plants in their post-restoration response.•Species loss (nestedness) mostly influences the variability among clearcut plots.•Woody species legacy, light and soil conditions are the main restoration drivers.•Restoration should include removing the woody debris and long-term management.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2022.115628