Cavity characteristics, but not habitat, influence nest survival of cavity-nesting birds along a gradient of human impact in the subtropical Atlantic Forest

[Display omitted] •How valuable are tree cavities in anthropogenic habitat for cavity-nesting birds?•Nest survival was related to tree and cavity features, not human impact to habitat.•Nests survived better in high cavities with small entrances, and in living trees.•Cavities in logged forest and far...

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Bibliographic Details
Published in:Biological conservation 2015-04, Vol.184, p.193-200
Main Authors: Cockle, Kristina L., Bodrati, Alejandro, Lammertink, Martjan, Martin, Kathy
Format: Article
Language:English
Subjects:
Argentina
Conservation
Farms
Forests
Habitat degradation
Habitats
Hole-nesting bird
Holes
Human influences
Logging
Mathematical models
Nest success
Nest-site characteristics
Survival
Trees
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Summary:[Display omitted] •How valuable are tree cavities in anthropogenic habitat for cavity-nesting birds?•Nest survival was related to tree and cavity features, not human impact to habitat.•Nests survived better in high cavities with small entrances, and in living trees.•Cavities in logged forest and farms have high conservation value, but few remain.•Policies to retain large old trees should replace minimum diameter cutting limits. Cavity-nesting vertebrates are an important component of biodiversity in tropical and subtropical forests, but their persistence will increasingly depend on remnant trees in logged forest and agricultural areas. To identify key habitat features for conservation, we examined the factors that influenced daily nest survival for a community of cavity-nesting birds along a gradient of human impact, from primary Atlantic Forest through logged forest to farms. We used logistic-exposure models to determine how characteristics of the habitat, nest tree, cavity, and timing influenced daily nest survival. Overall, predation and/or usurpation caused 92% of nest failures. Daily survival rates ranged 0.961–0.992 for five species of birds that could be studied best, giving probabilities of 0.19–0.62 of survival from laying to fledging. The top models predicting nest survival included cavity and tree characteristics but no habitat variables (canopy cover, forest condition, or distance to forest edge). Small birds (12–128g) experienced higher nest survival in cavities with smaller entrance diameters, higher above the ground. Large birds (141–400g) experienced higher nest survival in living trees than in dead trees. Birds experienced similar nest survival in primary forest, logged forest, and farms. Our results highlight the conservation value of cavity-bearing trees in anthropogenic habitats. A pressing policy issue for tropical and subtropical forests is to move beyond minimum diameter cutting limits and instead focus on retention of large old trees.
ISSN:0006-3207
1873-2917
DOI:10.1016/j.biocon.2015.01.026