Species composition and forest structure explain the temperature sensitivity patterns of productivity in temperate forests

Bohn, Friedrich J.; Huth, Andreas

doi:10.5194/bg-15-1795-2018

Cited by 18 publications

(8 citation statements)

References 58 publications

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“…However, stand-scale models, such as individual-based gap models, have also been used to explore forest dynamics under climate-change scenarios (Bugmann & Fischlin, 1996;Collalti et al, 2018;Fischer et al, 2014;Pastor & Post, 1986;Reyer, 2015;Shugart et al, 2018). Such finer-scale models can further inform the role of forest composition and structure in shaping forest responses to environmental drivers (Bohn et al, 2018;Fyllas et al, 2017). Additionally, SDMs have been used…”

Section: Forest Responses To Global Changementioning

confidence: 99%

Tackling unresolved questions in forest ecology: The past and future role of simulation models

Maréchaux

Langerwisch

Huth

et al. 2021

Ecology and Evolution

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Section: Forest Responses To Global Changementioning

confidence: 99%

Tackling unresolved questions in forest ecology: The past and future role of simulation models

Maréchaux

Langerwisch

Huth

et al. 2021

Ecology and Evolution

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“…Sustainably maintaining multifunctional forest ecosystems has become a widespread objective of forest management (Manning et al 2018;Schmithüsen 2008). This development increases the interest in analyzing the potentially strong influence of tree species diversity (Paquette and Messier 2011;Gamfeldt et al 2013;Liang et al 2016) and forest structure on ecosystem functions and services (Felipe-Lucia et al 2018;Bohn et al 2018;Bohn and Huth 2017). Previously established monospecific and even-aged forests had the aim of a high yield and the homogeneous provision of a narrow range of predominant products, which were produced with the aim to provide a homogeneous product quality (Puettmann et al 2015).…”

Section: Introductionmentioning

confidence: 99%

Analyzing the effect of silvicultural management on the trade-off between stand structural heterogeneity and productivity over time

2021

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This study combined an empirically based simulation with an analysis of the trade-off between structural heterogeneity and stand productivity depending on time, spatial scale, and silvicultural management, whereas volume growth and tree species diversity have been examined in detail, the role of forest structure and its interdependencies with stand productivity has only lately become a stronger research focus. We used the growth simulator SILVA to examine the development of stand structural heterogeneity and its trade-off with stand productivity in age-class versus uneven-aged pure and mixed spruce and beech stands at different spatial scales over 100 years. Those stands were based on typical forest types in Bavaria and were representative of forests in Central Europe. We examined how stand structure and its trade-off with productivity were modified by a multifunctional, a production-oriented, and a set-aside management scenario. The production-oriented management scenario applied to uneven-aged stands led to a reduction in structural heterogeneity per unit of productivity over time. In age-class stands, the production-oriented scenario was able to maintain the initial structural heterogeneity. The structural heterogeneity per unit of productivity increased more strongly with increasing spatial scale in age-class stands compared to uneven-aged stands. Combining forest stand simulation with scenario analyses is an exemplary method for testing the effect of silvicultural management alternatives on forest structure. This approach can later be connected to climate models considering long-term changes in growing conditions and support the planning of multifunctional forests.

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“…Previous studies have shown the connection between forest structure and plant diversity, which we also wanted to test, and how it is linked to variables such as diameter size distribution, heights, basal area, wood stock, vegetation cover in different layers of the forest (vertical structure [24]), or tree density and age [25][26][27], all of which are modifiable by management [28]. Management directed at changing stand structure variables can significantly affect plant diversity in the understory by altering environmental factors such as light and water availability [29][30][31][32][33][34]. Nevertheless, factors other than forest structure, such as soil characteristics or stage of development (crop age [24]) can influence plant community composition and diversity.…”

Section: Introductionmentioning

confidence: 99%

Stand Structure and Local Landscape Variables Are the Dominant Factors Explaining Shrub and Tree Diversity in Mediterranean Forests

et al. 2021

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Plant diversity is a core value of forests and is rapidly becoming a primary management goal under the threat of global environmental changes. Changing conditions, including forestry interventions, or lack of them, may endanger its preservation. Abandonment of management in forests previously subjected to a multipurpose silviculture and secondary succession is hypothesized to have altered the biodiverse Mediterranean forests in recent years and affected plant diversity. We used data in national forest inventory plots and local landscape ecology metrics from forest cartography, combined with artificial neural networks, to predict richness and Shannon diversity indices for the tree and shrub layers of several Mediterranean forest types. We found that richness and diversity depend on forest structure and on local landscape patterns, and also, though to a lesser degree, on site conditions (mainly soil pH), but not on forest intervention. In order to benefit plant diversity in the forest landscapes analyzed, forest management practices need to promote diameter variety, the presence of large trees, tree cover, variation in the height of trees and shrubs, and a heterogeneous local landscape at the stand level. Aleppo pine forests and Scots pine forests showed more consistent results in their models than cork oak and black pine forests, both of which require further research.

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Species composition and forest structure explain the temperature sensitivity patterns of productivity in temperate forests

Cited by 18 publications

References 58 publications

Tackling unresolved questions in forest ecology: The past and future role of simulation models

Tackling unresolved questions in forest ecology: The past and future role of simulation models

Analyzing the effect of silvicultural management on the trade-off between stand structural heterogeneity and productivity over time

Stand Structure and Local Landscape Variables Are the Dominant Factors Explaining Shrub and Tree Diversity in Mediterranean Forests

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