Ecological traits determine the affinity of birds to a larch plantation matrix, in montane Nagano, central Japan

Although the affinity to the matrix habitat (matrix affinity) determines the fate of species in dynamic landscapes where habitat replacement occurs, only a few studies have examined which ecological traits are associated with matrix affinity. Here, we examined the associations of five ecological tra...

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Bibliographic Details
Published in:Ecological research 2008-03, Vol.23 (2), p.317-327
Main Authors: Yamaura, Yuichi, Amano, Tatsuya, Katoh, Kazuhiro
Format: Article
Language:English
Subjects:
Animal behavior
Aves
Behavioral Sciences
Biomedical and Life Sciences
Birds
Body weight
Breeding seasons
Deciduous forests
Ecology
Evolutionary Biology
Fertility
Foraging behavior
Foraging group
Forestry
Habitat replacement
Habitats
Larix
Life Sciences
Macroecology
Migratory behavior
Migratory species
Mountain regions
Nesting
Nesting behavior
Nesting height
Original Article
Plant Sciences
Plantations
Winter
Zoology
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Summary:Although the affinity to the matrix habitat (matrix affinity) determines the fate of species in dynamic landscapes where habitat replacement occurs, only a few studies have examined which ecological traits are associated with matrix affinity. Here, we examined the associations of five ecological traits (i.e., fertility, body weight, migratory behavior, foraging height, and nesting height) with affinity for forest birds to a novel larch plantation matrix habitat. We surveyed the occurrence of birds in larch plantations (matrix habitat) and original deciduous forests (original habitat) in the winter and the breeding season, in a montane region of Nagano prefecture, central Japan. We treated occurrences in the matrix habitat relative to the original habitat as the matrix affinity of each species and examined the associations of ecological traits with matrix affinity, controlling for the relatedness of species. Fertile, resident, and low-nesting species showed high matrix affinity, while an association with body weight was not supported. The associations of foraging groups with matrix affinity were complex. While early successional species showed high matrix affinity, flycatchers had low matrix affinity. The matrix affinity of some foraging groups was greater in the winter than in the breeding season. Based on the results, we predicted that low fertility and migratory, high-nesting species would be sensitive to habitat replacement due to matrix hostility. These predictions may be applicable to other matrix type, region, and taxa.
ISSN:0912-3814
1440-1703
DOI:10.1007/s11284-007-0380-1