Abstract
Many studies have dealt with the habitat requirements of cavity‐nesting birds, but there is no meta‐analysis on the subject and individual study results remain vague or contradictory. We conducted a meta‐analysis to increase the available evidence for nest‐site selection of cavity‐nesting birds. Literature was searched in Web of Science and Google Scholar and included studies that provide data on the habitat requirements of cavity‐nesting birds in temperate and boreal forests of varying naturalness. To compare nest and non‐nest‐tree characteristics, the following data were collected from the literature: diameter at breast height (DBH) and its standard deviation (SD), sample size of trees with and without active nest, amount of nest and available trees described as dead or with a broken crown, and amount of nest and available trees that were lacking these characteristics. Further collected data included bird species nesting in the cavities and nest‐building type (nonexcavator/excavator), forest type (coniferous/deciduous/mixed), biome (temperate/boreal), and naturalness (managed/natural). From these data, three effect sizes were calculated that describe potential nest trees in terms of DBH, vital status (dead/alive), and crown status (broken/intact). These tree characteristics can be easily recognized by foresters. The results show that on average large‐diameter trees, dead trees, and trees with broken crowns were selected for nesting. The magnitude of this effect varied depending primarily on bird species and the explanatory variables forest type and naturalness. Biome had lowest influence (indicated by ΔAIC). We conclude that diameter at breast height, vitality, and crown status can be used as tree characteristics for the selection of trees that should be retained in selectively harvested forests.
Highlights
Avian diversity is essential for the provisioning of forest ecosystem services
In conjunction to the use of meta-analytical methods to quantify nest-tree selection of cavity-nesting birds, we provide an overview of management recommendations extracted from the reviewed studies as a scientific basis to (e) guide future management decisions in the selection of trees that should be retained in temperate and boreal forests
In harvesting systems with tree retention such as they are common in both Europe and North America, larger trees should be retained if the aim is to increase abundance of many different cavity-nesting birds
Summary
Avian diversity is essential for the provisioning of forest ecosystem services (e.g., pest control, seed dispersal, or recreational value of a forest: Fayt, Machmer, & Steeger, 2005; Sekercioglu, 2006). A significant part of this avian diversity is made up of cavity-nesting birds (van der Hoek, Gaona, & Martin, 2017), and their habitat requirements are a recurrent object of study (e.g. Bull, 1987; O’Halloran & Conner, 1987; Conway & Martin, 1993; Steeger & Hitchcock, 1998; Poulin, Villard, Edman, Goulet, & Eriksson, 2008; Tremblay, Savard, & Ibarzabal, 2015; Geleynse, Nol, Burke, & Elliott, 2016). Measured variables to characterize cavity-nesting bird habitats are diameter at breast height (DBH), tree vital status (dead/alive), and tree crown status (broken/intact) (e.g. Aubry & Raley, 2002; Dornak, Burt, Coble, & Conner, 2004; Martin, Aitken, & Wiebe, 2004; Tremblay et al, 2015) These tree characteristics are recognized by foresters and well-suited for the formulation of forest management recommendations. Considering that there exists a substantial body of literature, it is surprising that a meta-analysis of the habitat requirements for cavity-nesting birds is still lacking
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