The role of canopy cover dynamics over a decade of changes in the understory of an atlantic beech-oak forest
Keywords: 
Community ecology
Understory species
Canopy gap
Niche
Temporal variation
Seed bank
Gap dynamics
Issue Date: 
2021
ISSN: 
1999-4907
Note: 
This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/).
Citation: 
Valerio-Galán, M. (María de las Mercedes); Ibáñez-Gastón, R. (Ricardo); Gazol-Burgos, A. (Antonio). "The role of canopy cover dynamics over a decade of changes in the understory of an atlantic beech-oak forest". Forests. 12 (7), 2021, 938
Abstract
The understory of temperate forests harbour most of the plant species diversity present in these ecosystems. The maintenance of this diversity is strongly dependent on canopy gap formation, a disturbance naturally happening in non-managed forests, which promotes spatiotemporal heterogeneity in understory conditions. This, in turn, favours regeneration dynamics, functioning and structural complexity by allowing changes in light, moisture and nutrient availability. Our aim is to study how gap dynamics influence the stability of understory plant communities over a decade, particularly in their structure and function. The study was carried out in 102 permanent plots (sampled in 2006 and revisited in 2016) distributed throughout a 132 ha basin located in a non-managed temperate beech-oak forest (Bertiz Natural Park, Spain). We related changes in the taxonomical and functional composition and diversity of the understory vegetation to changes in canopy coverage. We found that gap dynamics influenced the species composition and richness of the understory through changes in light availability and leaf litter cover. Species with different strategies related to shade tolerance and dispersion established in the understory following the temporal evolution of gaps. However, changes in understory species composition in response to canopy dynamics occur at a slow speed in old-growth temperate forests, needing more than a decade to really be significant.

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