Old forest structural development drives complexity of nest webs in a naturally disturbed boreal mixedwood forest landscape

Cadieux, Philippe; Drapeau, Pierre; Ouellet-Lapointe, Ugo; Leduc, Alain; Imbeau, Louis; Deschênes, Réjean; Nappi, Antoine

doi:10.3389/ffgc.2023.1084696

Cited by 5 publications

(1 citation statement)

References 78 publications

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“…But, the higher abundance of TMHs per tree in deciduous habitat may be due to proportionately higher abundance of individuals with poor vigour which make it prone to injuries and damages increasing the abundance of TMHs as observed in this study. Even the cavity excavators prefer species prone to fungal decay due to natural ageing or vulnerabilities (Cadieux et al, 2023). Availability of such factors increase the occurrence of TMHs such as cavities in a habitat.…”

Section: The 'Habitat Effect' -Horizontal and Vertical Distribution P...mentioning

confidence: 99%

Diversity and abundance of tree microhabitats in the tropical forests of southern Western Ghats, India

Patel,

Sivaraman,

Hrideek

et al. 2024

Preprint

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Tree microhabitats (TMHs) are proven tools for assessing and monitoring diversity. These structures on trees are potential indicators of biota, but there is a huge gap in TMH-related knowledge from the tropical regions, the cradles of biodiversity. Thus, an inventory was made to document the TMHs in the tropical forests of southern Western Ghats, India. In evergreen forests, 3,637 TMH host and 450 cavity host trees were identified from the 6,363 trees sampled. The density of TMHs was 972.57±341.25 ha-1 and cavity density was 63.13±11.91 ha-1. In moist deciduous forests, out of 1,545 trees sampled, 1,108 hosted TMHs and 212 trees hosted cavities. The density of TMHs was 493.67±133.28 ha-1 and cavity density was 42.00±15.01 ha-1. TMHs were categorised into nine categories and 33 sub-categories. The TMH and cavity occurrences were significantly influenced by species richness, stand density, basal area, diameter and height of trees, and density of healthy, unhealthy and dead trees. Dominant and codominant individuals hosted more TMHs and cavities in the deciduous stands while in evergreen, intermediate and overtopped trees had more TMHs and intermediate and codominant had more cavities. In both the habitats the important species of the habitat were also major hosts for TMHs and cavities.

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Section: The 'Habitat Effect' -Horizontal and Vertical Distribution P...mentioning

confidence: 99%

Diversity and abundance of tree microhabitats in the tropical forests of southern Western Ghats, India

Patel,

Sivaraman,

Hrideek

et al. 2024

Preprint

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Avian Reproduction: Nests and Nest Sites

Ritchison

2023

Fascinating Life Sciences

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Assessing GEDI data fusions to map woodpecker distributions and biodiversity hotspots

Elliott,

Vogeler,

Holbrook

et al. 2024

Environ. Res. Lett.

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In forested systems, woodpecker species richness has been linked with songbird diversity, and identifying woodpecker biodiversity hotspots may contribute important information for conservation planning. The availability of global forest structure data via the Global Ecosystem Dynamics Investigation (GEDI) instrument provides a new tool for examining broad extent relationships amongst environmental variables, forest structure, and woodpecker diversity hotspots. Within the Marine West Coast Forest ecoregion, USA, we used eBird data for 7 woodpecker species to model encounter rates based on bioclimatic variables, process data (e.g. duration and timing of survey), MODIS forest land cover data, and GEDI-fusion metrics. The GEDI-fusion metrics included foliage height diversity (fhd), rh98 (a representation of canopy height), and canopy cover, which were created by combining GEDI data with Landsat, Sentinel-1, topographic, and climatic information within a random forest modeling framework. AUCs for the species-specific models ranged from 0.77 - 0.98, where bioclimatic and process predictors were amongst the most important variables for all species. GEDI-fusion forest structure metrics were highly ranked for all species, with fhd included as a highly ranked predictor for all species. The structural metrics included as top predictors for each species were reflective of known species-specific habitat associations. Hotspots in this ecoregion tended to be inland and occurred most often on privately-owned lands. Identification of hotspots is the first step towards management plans focused on biodiversity, and understanding ownership patterns is important for future conservation efforts. The near-global extent of GEDI data, along with recent studies that recommend woodpeckers as indicators of biodiversity across multiple forest types at local and global scales, suggest that synthesis of GEDI-derived data applied to woodpecker detection information might be a powerful approach to identifying biodiversity hotspots. 

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Old forest structural development drives complexity of nest webs in a naturally disturbed boreal mixedwood forest landscape

Cited by 5 publications

References 78 publications

Diversity and abundance of tree microhabitats in the tropical forests of southern Western Ghats, India

Diversity and abundance of tree microhabitats in the tropical forests of southern Western Ghats, India

Avian Reproduction: Nests and Nest Sites

Assessing GEDI data fusions to map woodpecker distributions and biodiversity hotspots

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