Forest structure and understory functional diversity at multiple scales: The importance of median tree height

Luciano L.M. De Benedictis; Stefano Chelli; Zhengxue Zhu; Marco Cervellini; Roberto Canullo; Francesco Chianucci; Nicola Puletti; James Tsakalos; Sandor Bartha; Giandiego Campetella

doi:10.1016/j.ecolind.2026.114687

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Forest structure and understory functional diversity at multiple scales: The importance of median tree height

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Forest structure and understory functional diversity at multiple scales: The importance of median tree height

Luciano L.M. De Benedictis, Stefano Chelli, Zhengxue Zhu, Marco Cervellini, Roberto Canullo, Francesco Chianucci, Nicola Puletti, James Tsakalos, Sandor Bartha and Giandiego Campetella

Ecological Indicators, Vol.183, 114687

2026

DOI: https://doi.org/10.1016/j.ecolind.2026.114687

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Abstract

Beech forest

Forest structural traits

Terrestrial laser scanning

Forest understorey

Functional diversity

Scale-dependent diversity

Functional redundancy

The understorey holds most of the vascular plant diversity in temperate forests. Functional diversity is a key aspect, commonly linked to forest age and management practices, but its relationship to specific structural features such as tree height and canopy cover is understudied. We studied 28 beech forest plots in an Italian National Park encompassing coppice, high forest and unmanaged old-growth stands. Using a novel multiscale approach (increasing grain size by combining adjacent sampling units), we assessed functional diversity at plot scale (γ), in small-scale subunits (α), between subunits (β), further decomposing β into functional redundancy, uniqueness and clustering. Forest structural features and canopy cover were quantified via terrestrial laser scanning and digital cover photography and related to understorey functional diversity across scales. We found that higher median tree height at the plot scale—though not canopy cover—is associated with increased functional diversity at scales up to ∼10 m. This is accompanied by greater redundancy and functional clustering. However, no changes in functional diversity or redundancy were observed at the plot scale, meaning that small scales host a greater portion of trait diversity. Our findings highlight the ecological relevance of median tree height, often overlooked in favour of canopy cover as a structural indicator of understorey functional diversity, for monitoring and management. Furthermore, our sampling design enabled the detection of scale-specific relationships that may have been missed by conventional plot-level vegetation surveys, i.e., an increase in diversity at the α level that does not translate to the plot level.

Details

Title: Forest structure and understory functional diversity at multiple scales: The importance of median tree height
Authors/Creators: Luciano L.M. De Benedictis - Università di Camerino
Stefano Chelli - Università di Camerino
Zhengxue Zhu - Università di Camerino
Marco Cervellini - University of Bologna
Roberto Canullo - Università di Camerino
Francesco Chianucci - Consiglio per la ricerca in agricoltura e l’analisi dell’economia agraria
Nicola Puletti - Consiglio per la ricerca in agricoltura e l’analisi dell’economia agraria
James Tsakalos - Murdoch University, Centre for Terrestrial Ecosystem Science and Sustainability
Sandor Bartha - Institute of Ecology and Botany
Giandiego Campetella - Università di Camerino
Publication Details: Ecological Indicators, Vol.183, 114687
Publisher: Elsevier Ltd.
Number of pages: 13
Identifiers: 991005862493307891
Murdoch Affiliation: Harry Butler Institute; Centre for Terrestrial Ecosystem Science and Sustainability
Resource Type: Journal article

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