Short-term changes in plant functional traits and understory functional diversity after logging of different intensities: a temperate fir-beech forest experiment

The concept of plant functional traits has been demonstrated to be very effective in unravelling the ecological mechanisms governing plant community response to disturbance, especially when research is focused on short-term post-disturbance vegetation dynamics. In this study, we established an exper...

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Bibliographic Details
Published in:Annals of forest research 2018-01, Vol.61 (2), p.223-241
Main Authors: Eler, Klemen, Kermavnar, Janez, Marinšek, Aleksander, Lado Kutnar
Format: Article
Language:English
Subjects:
Abundance
Beech
Biodiversity
Composition
Disturbance
Ecological effects
Flowering
Forests
functional composition and diversity, life-history traits, understory vegetation, canopy gap, biodiversity, beech forest
Heterogeneity
Landscape
Landscape preservation
Leaves
Life span
Logging
Luminous intensity
Mountains
Overwintering
Plant communities
Plant diversity
Plant populations
Plants
Plants (botany)
Reproduction (biology)
Silviculture
Small mammals
Spatial heterogeneity
Species
Species diversity
Understory
Vegetation
Vegetation surveys
Vegetative reproduction
Wildlife conservation
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Summary:The concept of plant functional traits has been demonstrated to be very effective in unravelling the ecological mechanisms governing plant community response to disturbance, especially when research is focused on short-term post-disturbance vegetation dynamics. In this study, we established an experiment to quantify how logging intensity affects the trait composition and functional diversity of understory communities in fir-beech forests in the Dinaric Mountains in Slovenia. Three different silvicultural treatments were implemented: control (no logging), 50% of the growing stock removed and 100% of the growing stock removed. Vegetation surveys of vascular plants were made before (in 2012) and two years after (in 2014) logging. Changes in species traits, C-S-R plant strategies (sensu Grime) and community-level functional diversity were analysed. The importance of traits such as small and light diaspores, short life span and anemochory increased with logging intensity. Moreover, species with the ability of both sexual and vegetative reproduction, longer flowering duration and overwintering green leaves increased in abundance after logging. C-S-R strategies mainly shifted from stress-tolerators in pre-logging conditions towards a more ruderal component in post-logging stands. Logging in the short term increased functional diversity, mainly due to newly colonized species being functionally dissimilar from persistent residents. Results suggest that logging intensity strongly influences the magnitude of change in both functional composition and diversity, which also has important implications for biodiversity conservation. At the landscape scale, increasing spatial heterogeneity by creating a mosaic of forest stands subjected to different logging intensities will likely contribute to the enhancement of plant functional diversity.
ISSN:1844-8135
2065-2445
DOI:10.15287/afr.2018.1192