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

• Main Authors: Ximena Herrera-Alvarez, Juan A. Blanco, J. Bosco Imbert, Willin Alvarez, Gabriela Rivadeneira-Barba
• Format: Article
• Language: English
• Published: MDPI AG 2020-09-01
• Series: Forests
• Subjects: <i>Pinus sylvestris</i>; <i>Fagus sylvatica</i>; forest thinning; species composition; mesofauna; invertebrates
• Online Access: https://www.mdpi.com/1999-4907/11/9/975

<i>Research Highlights</i>: Thinning and tree species alter the forest floor microclimate by modifying canopy cover, radiation, wind, and humidity. Thus, forest management can directly influence the edaphic mesofauna responsible for decomposing coarse woody debris (CWD). <i>Background and Objectives:</i> This research was carried out in the Southwestern Pyrenees Mountains (Northern Spain) and aimed to determine the influence of forest thinning and canopy type (pure <i>Pinus sylve</i><i>s</i><i>tris</i> L. or a mix of <i>P</i><i>.</i><i> sylvestris</i> and <i>Fagus sylvatica</i> L.) on CWD colonization by edaphic fauna. <i>Materials and Methods: </i>CWD samples were collected belonging to intermediate and advanced decomposition stages, approximately 10 cm long and 5 cm in diameter. Using a design of three thinning intensities (0%, 20%, and 40% of basal area removed), with three replications per treatment (nine plots in total), four samples were taken per plot (two per canopy type) to reach 36 samples in total. Meso- and macrofauna were extracted from CWD samples with Berlese–Tullgren funnels, and individuals were counted and identified. <i>Results:</i> 19 taxonomic groups were recorded, the most abundant being the mesofauna (mites and Collembola). Mixed canopy type had a significant positive influence on richness, whereas advanced decay class had a positive significant influence on total abundance and richness. In addition, there were non-significant decreasing trends in richness and abundance with increasing thinning intensity. However, interactions among thinning intensity, canopy type, and decay class significantly affected mesofauna. Furthermore, some taxonomic groups showed differential responses to canopy type. CWD water content was positively correlated with total invertebrate abundance and some taxonomic groups. Our results suggest that stand composition has the potential to directly affect invertebrate communities in CWD, whereas stand density influence is indirect and mostly realized through changes in CWD moisture. As mesofauna is related to CWD decomposition rates, these effects should be accounted for when planning forest management transition from pure to mixed forests.