Regeneration Dynamics Following the Formation of Understory Gaps in a Slovakian Beech Virgin Forest

Regeneration Dynamics Following the Formation of Understory Gaps in a Slovakian Beech Virgin Forest

The frequency and size of canopy gaps largely determine light transmission to lower canopy strata, controlling structuring processes in the understory. However, quantitative data from temperate virgin forests on the structure of regeneration in gaps and its dynamics over time are scarce. We studied...

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Main Authors: Eike Feldmann, Jonas Glatthorn, Christian Ammer, Christoph Leuschner
Format: Article
Language:English
Published: MDPI AG 2020-05-01
Series:Forests
Subjects:
regeneration dynamics
direct light
diffuse light
<i>Fagus sylvatica</i>
gap age
gap size
Online Access:https://www.mdpi.com/1999-4907/11/5/585
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spelling doaj-2bfdbe4cccb042b29776f60197a228f72020-11-25T02:51:53ZengMDPI AGForests1999-49072020-05-011158558510.3390/f11050585Regeneration Dynamics Following the Formation of Understory Gaps in a Slovakian Beech Virgin ForestEike Feldmann0Jonas Glatthorn1Christian Ammer2Christoph Leuschner3Plant Ecology and Ecosystems Research, Albrecht-von-Haller Institute for Plant Sciences, University of Goettingen, Untere Karspüle 2, 37073 Goettingen, GermanyPlant Ecology and Ecosystems Research, Albrecht-von-Haller Institute for Plant Sciences, University of Goettingen, Untere Karspüle 2, 37073 Goettingen, GermanySilviculture and Forest Ecology of the Temperate Zones, Faculty of Forest Sciences and Forest Ecology, University of Goettingen, Büsgenweg 1, 37077 Goettingen, GermanyPlant Ecology and Ecosystems Research, Albrecht-von-Haller Institute for Plant Sciences, University of Goettingen, Untere Karspüle 2, 37073 Goettingen, GermanyThe frequency and size of canopy gaps largely determine light transmission to lower canopy strata, controlling structuring processes in the understory. However, quantitative data from temperate virgin forests on the structure of regeneration in gaps and its dynamics over time are scarce. We studied the structure and height growth of tree regeneration by means of sapling density, shoot length growth and cumulative biomass in 17 understory gaps (29 to 931 m<sup>2</sup> in size) in a Slovakian beech (<i>Fagus sylvatica</i> L.) virgin forest, and compared the gaps with the regeneration under closed-canopy conditions. Spatial differences in regeneration structure and growth rate within a gap and in the gap periphery were analyzed for their dependence on the relative intensities of direct and diffuse radiation (high vs. low). We tested the hypotheses that (i) the density and cumulative biomass of saplings are higher in gaps than in closed-canopy patches, (ii) the position in a gap influences the density and height growth of saplings, and (iii) height growth of saplings increases with gap size. Sapling density and biomass were significantly higher in understory gaps than under closed canopy. Density of saplings was positively affected by comparatively high direct, but low diffuse radiation, resulting in pronounced spatial differences. In contrast, sapling shoot length growth was positively affected by higher levels of diffuse radiation and also depended on sapling size, while direct radiation intensity was not influential. Conclusively, in this forest, regeneration likely becomes suppressed after a short period by lateral canopy expansion in small gaps (<100 m<sup>2</sup>), resulting in a heterogeneous understory structure. In larger gaps (≥100 m<sup>2</sup>) saplings may be capable even at low plant densities to fill the gap, often forming a cohort-like regeneration layer. Thus, gaps of different sizes imprint on the resulting canopy structure in different ways, enhancing spatial heterogeneity.https://www.mdpi.com/1999-4907/11/5/585regeneration dynamicsdirect lightdiffuse light<i>Fagus sylvatica</i>gap agegap size
collection DOAJ
language English
format Article
sources DOAJ
author Eike Feldmann
Jonas Glatthorn
Christian Ammer
Christoph Leuschner
spellingShingle Eike Feldmann
Jonas Glatthorn
Christian Ammer
Christoph Leuschner
Regeneration Dynamics Following the Formation of Understory Gaps in a Slovakian Beech Virgin Forest
Forests
regeneration dynamics
direct light
diffuse light
<i>Fagus sylvatica</i>
gap age
gap size
author_facet Eike Feldmann
Jonas Glatthorn
Christian Ammer
Christoph Leuschner
author_sort Eike Feldmann
title Regeneration Dynamics Following the Formation of Understory Gaps in a Slovakian Beech Virgin Forest
title_short Regeneration Dynamics Following the Formation of Understory Gaps in a Slovakian Beech Virgin Forest
title_full Regeneration Dynamics Following the Formation of Understory Gaps in a Slovakian Beech Virgin Forest
title_fullStr Regeneration Dynamics Following the Formation of Understory Gaps in a Slovakian Beech Virgin Forest
title_full_unstemmed Regeneration Dynamics Following the Formation of Understory Gaps in a Slovakian Beech Virgin Forest
title_sort regeneration dynamics following the formation of understory gaps in a slovakian beech virgin forest
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2020-05-01
description The frequency and size of canopy gaps largely determine light transmission to lower canopy strata, controlling structuring processes in the understory. However, quantitative data from temperate virgin forests on the structure of regeneration in gaps and its dynamics over time are scarce. We studied the structure and height growth of tree regeneration by means of sapling density, shoot length growth and cumulative biomass in 17 understory gaps (29 to 931 m<sup>2</sup> in size) in a Slovakian beech (<i>Fagus sylvatica</i> L.) virgin forest, and compared the gaps with the regeneration under closed-canopy conditions. Spatial differences in regeneration structure and growth rate within a gap and in the gap periphery were analyzed for their dependence on the relative intensities of direct and diffuse radiation (high vs. low). We tested the hypotheses that (i) the density and cumulative biomass of saplings are higher in gaps than in closed-canopy patches, (ii) the position in a gap influences the density and height growth of saplings, and (iii) height growth of saplings increases with gap size. Sapling density and biomass were significantly higher in understory gaps than under closed canopy. Density of saplings was positively affected by comparatively high direct, but low diffuse radiation, resulting in pronounced spatial differences. In contrast, sapling shoot length growth was positively affected by higher levels of diffuse radiation and also depended on sapling size, while direct radiation intensity was not influential. Conclusively, in this forest, regeneration likely becomes suppressed after a short period by lateral canopy expansion in small gaps (<100 m<sup>2</sup>), resulting in a heterogeneous understory structure. In larger gaps (≥100 m<sup>2</sup>) saplings may be capable even at low plant densities to fill the gap, often forming a cohort-like regeneration layer. Thus, gaps of different sizes imprint on the resulting canopy structure in different ways, enhancing spatial heterogeneity.
topic regeneration dynamics
direct light
diffuse light
<i>Fagus sylvatica</i>
gap age
gap size
url https://www.mdpi.com/1999-4907/11/5/585
work_keys_str_mv AT eikefeldmann regenerationdynamicsfollowingtheformationofunderstorygapsinaslovakianbeechvirginforest
AT jonasglatthorn regenerationdynamicsfollowingtheformationofunderstorygapsinaslovakianbeechvirginforest
AT christianammer regenerationdynamicsfollowingtheformationofunderstorygapsinaslovakianbeechvirginforest
AT christophleuschner regenerationdynamicsfollowingtheformationofunderstorygapsinaslovakianbeechvirginforest
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