Long-term trends in forest bird populations reflect management changes in Central European forests

•Population trends of the habitat-defined bird groups may reflect forest management.•In Czechia, forest bird populations showed a general increase from 1982 to 2019.•Increases concern habitat generalists and species of canopy and broad-leaved trees.•Both primary and secondary cavity nesters also sho...

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Bibliographic Details
Published in:Ecological indicators Vol. 141; p. 109137
Main Authors: Reif, Jiří, Skálová, Alena Jechumtál, Vermouzek, Zdeněk, Voříšek, Petr
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-08-2022
Elsevier
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Summary:•Population trends of the habitat-defined bird groups may reflect forest management.•In Czechia, forest bird populations showed a general increase from 1982 to 2019.•Increases concern habitat generalists and species of canopy and broad-leaved trees.•Both primary and secondary cavity nesters also showed a population increase.•Longer rotation period and change in tree species composition were likely drivers. In areas where forest is under long-term human influence, we can expect that forest bird populations will be affected by changes in forest management. Consequences of such forest management changes can be studied using long-term population trajectories of habitat-defined groups of bird species because various species are associated to different habitat types. Here we focused on 51 species of common forest birds in Czechia, a central European country, using data from a nation-wide breeding bird monitoring scheme collected from 1982 to 2019. Important changes in forest management took place over this time period in Europe and we asked whether the trends in Czech forest bird populations reflected these changes. For this purpose, we defined nine groups according to the species’ habitat associations in respect of stand size, vegetation layers and tree species composition. We calculated annual population indices using log-linear models with Poisson distribution for every species and composed these annual indices into multispecies indicators (MSIs). MSI of all forest birds, as well as MSIs of three groups of habitat generalists showed significant increases over the focal period. The groups of more specialized species showed more variable population trajectories: birds of the shrub layer decreased, whereas birds of the forest canopy and birds of broad-leaved trees increased, and populations of birds of forest edges, forest interior and coniferous trees were stable. These patterns in forest bird populations are consistent with forest maturation and increasing wood volume that took place in Czech forests over several decades. Such changes in forest environment are likely consequences of the change in purposes of forest management from fuel wood to timber harvesting that took place in 20th century resulting in a longer rotation period. Increases in species associated with broad-leaved trees can be explained by replacement of coniferous stands by stands of broad-leaved trees indicating recovery of forest environment towards more natural conditions as majority of the forested area would be naturally covered by broad-leaved vegetation in Czechia. In addition, the occurrence of some broad-leaved trees within coniferous stands, a common practice in Czech forestry, may also provide benefits to populations of bird species associated with broad-leaved trees. Taken together, these results support suitability of current forest management for forest birds that corresponds to recent findings from several other European regions. However, we should take this conclusion with caution because the increases of generalist birds may be also driven by factors outside the forest environment.
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2022.109137