Herbaceous Understorey: An Overlooked Player in Forest Landscape Dynamics?
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Date
2016-11
Publication Type
Journal Article
ETH Bibliography
yes
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Abstract
Dense herbaceous understorey layers can impact tree regeneration and thereby affect forest succession. However, the implications of this interaction on large spatial and temporal scales are not well understood. To analyse the role of overstorey–understorey interactions for forest dynamics, we implemented an understorey layer (composed of the plant functional types grasses, forbs, ferns, herbs and shrubs) in the forest landscape model LandClim, focusing on competition for light as the main mode of interaction. The model was used to simulate post-disturbance dynamics over an elevational gradient of 560–2800 m a.s.l. in Central Europe. Simulation results showed strong impacts of the herbaceous understorey on tree regeneration within the first decades, but generally little effect on late-successional forests, i.e. not providing any evidence for ‘arrested’ succession. The results also demonstrated varying overstorey–understorey interactions across the landscape: strongest effects were found at low to mid elevations of the study landscapes, where tree establishment was substantially delayed. At high elevations, tree growth and establishment were more limited by low temperatures, and the effect of light competition from the understorey was negligible. Although the inclusion of large windthrow disturbances increased the biomass of herbaceous understorey across the landscape, this had only a small impact on the overstorey due to the presence of advance regeneration of trees. Overall, our results demonstrate that the herbaceous understorey can have a significant impact for forest landscape dynamics through light competition, and that non-woody plants should not be neglected in forest modelling.
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published
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Journal / series
Volume
19 (7)
Pages / Article No.
1240 - 1254
Publisher
Springer
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Edition / version
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Software
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Date collected
Date created
Subject
Herbaceous vegetation; Overstorey-understorey interactions; Arrested succession; Black Forest; Dischma valley; Central Alps; Dynamic vegetation model
Organisational unit
03535 - Bugmann, Harald / Bugmann, Harald
Notes
It was possible to publish this article open access thanks to a Swiss National Licence with the publisher.
Funding
603416 - Impacts and risks from higher-end scenarios: Strategies for innovative solutions. (EC)