Coarse Woody Debris’ Invertebrate Community is Affected Directly by Canopy Type and Indirectly by Thinning in Mixed Scots Pine—European Beech Forests

Herrera‐Alvarez, Ximena; Blanco, Juan A.; Imbert, J. Bosco; Alvarez, Willin; Rivadeneira-Barba, Gabriela

doi:10.3390/f11090975

Cited by 3 publications

(1 citation statement)

References 36 publications

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“…Natural disturbances may also occur as whole-stand replacing events [45]. Forest management affects microclimates of the forest floor through altering light availability, wind, temperature, and moisture, thereby indirectly affecting the arthropods that inhabit the leaf litter [46].…”

Section: Effects Of Forest Harvestingmentioning

confidence: 99%

A Review of Forest Management Effects on Terrestrial Leaf Litter Inhabiting Arthropods

Hartshorn

2020

Forests

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Leaf litter arthropods are some of the most abundant and diverse communities in forests and provide myriad ecosystem services from decomposition and mineralization to pollination and predation. They are important to forest health and management and, in turn, are affected by how we manage our forests. Various forest management techniques such as clear cutting, burning, and chemical control of invasive species all have differing effects on ground dwelling arthropods and, despite their importance, a review of the literature on these effects does not currently exist. My objective with this paper is to review the effects of different types of forest management on arthropods in leaf litter systems.

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Section: Effects Of Forest Harvestingmentioning

confidence: 99%

A Review of Forest Management Effects on Terrestrial Leaf Litter Inhabiting Arthropods

Hartshorn

2020

Forests

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Leaf litter arthropods show little response to structural retention in a Central European forest

et al. 2023

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Decomposition of leaf litter is a central process of energy and nutrient cycling in forests, in which arthropods hold important roles. Thus, safeguarding the diversity of organisms including arthropods is increasingly being considered in contemporary forestry, not least to facilitate continued ecosystem functioning. Retention forestry tries to achieve biodiversity conservation by preservation of tree structural elements such as deadwood and tree microhabitats to provide more heterogeneous habitat. Leaf litter arthropods are, however, only indirectly connected with tree structure, which raises the question if and how the currently practised retention forestry influences the leaf litter arthropod community. As the leaf litter arthropod community includes a very diverse range of taxa that is challenging to identify morphologically, we sampled environmental DNA from leaf litter on 66 plots in the Black Forest in southern Germany that were distributed over gradients of forest and landscape features and differed in forest management intensity. We found that the richness of operational taxonomic units, a surrogate for species, was not related to forest structure but tended to increase with recent harvest intensity (which did not exceed a medium harvest intensity on our plots). Community composition was related to the share of coniferous trees present on a plot, and to a lesser extend to elevation and leaf litter coverage. Our results indicate that the leaf litter arthropod community is not responsive towards different degrees of forest structural changes introduced by management as long as the forest type is retained.

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Soil C/N ratios cause opposing effects in forests compared to grasslands on decomposition rates and stabilization factors in southern European ecosystems

Blanco,

Durán,

Luquin

et al. 2023

Science of The Total Environment

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Coarse Woody Debris’ Invertebrate Community is Affected Directly by Canopy Type and Indirectly by Thinning in Mixed Scots Pine—European Beech Forests

Cited by 3 publications

References 36 publications

A Review of Forest Management Effects on Terrestrial Leaf Litter Inhabiting Arthropods

A Review of Forest Management Effects on Terrestrial Leaf Litter Inhabiting Arthropods

Leaf litter arthropods show little response to structural retention in a Central European forest

Soil C/N ratios cause opposing effects in forests compared to grasslands on decomposition rates and stabilization factors in southern European ecosystems

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