Habitat Characteristics and Nest Predation Do Not Explain Clustered Breeding in Least Flycatchers (Empidonax minimus)

Abstract Animals often exhibit territorial spatial structure in their breeding habitat. This clustering behavior is not well understood. We reviewed eight hypotheses for clustering and tested two ecological hypotheses for the formation of dense, territorial clusters in the Least Flycatcher (Empidonax minimus), a socially monogamous forest bird. The material resources hypothesis suggests that clustering is a response to habitat heterogeneity in vegetation, food, or both. The predation hypothesis proposes that clustering may reduce nest predation. Univariate and multivariate analyses of 170 vegetation plots from 1997 to 1998 indicated that forest-stand structure and tree species composition could not explain clustering in our population (predictions 1–3). Comparison of mean arthropod biomass inside with arthropod biomass outside two clusters sampled in 1999 using Malaise traps revealed that potential food resources were also unrelated to clustering (prediction 4). Nest predation rates were not correlated with territory position in clusters or with cluster size. In addition, predation rates were similar for clustered and solitary pairs (predictions 5–7). We conclude that habitat characteristics and nest predation do not explain clustered breeding in Least Flycatchers, though further tests of those hypotheses would be helpful. We develop the idea that the pursuit of extrapair copulations may promote clustered breeding. Future studies of territorial spatial structure in Least Flycatchers and other species should consider explanations based on mating behavior concomitant with ecological explanations for clustering.

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Landbird use of Riparian and Upland Forest Stopover Habitats in an Urban Landscape

The Condor ◽

10.1093/condor/107.2.259 ◽

2005 ◽

Vol 107 (2) ◽

pp. 259-268 ◽

Cited By ~ 7

Author(s):

Paul G. Rodewald ◽

Stephen N. Matthews

Keyword(s):

Riparian Forests ◽

Habitat Characteristics ◽

Lower Percentage ◽

Shrub Cover ◽

Long Distance ◽

Seiurus Aurocapillus ◽

Catharus Ustulatus ◽

Upland Forest ◽

Empidonax Minimus ◽

Vireo Solitarius

Abstract Stopover habitat relationships of landbirds are not well known and this constitutes a shortcoming in conservation plans for migratory birds. We compared migrant use of mature upland and riparian forests during spring in an urbanizing landscape within central Ohio. We surveyed stopover migrants along 250-m transects, and quantified both local- and landscape-level habitat characteristics (percent urban and forest land). During spring stopover, migrant abundance was 86% and 118% higher in upland forests for Nearctic-Neotropical transient (long-distance migrants) and temperate transients (short-distance migrants), respectively. Of 27 transient species, 22 species differed in their use of riparian and upland forests, and 20 of those were most abundant in upland forest (e.g., Blue-headed Vireo [Vireo solitarius], Least Flycatcher [Empidonax minimus], Swainson's Thrush [Catharus ustulatus], Nashville Warbler [Vermivora ruficapilla], Magnolia Warbler [Dendroica magnolia], Bay-breasted Warbler [D. castanea], and Ovenbird [Seiurus aurocapillus]). Species richness was 58% and 75% higher in upland forests relative to riparian forests for Neotropical transient and temperate transient groups, respectively. Percent urbanization within 1 km was unrelated to abundance of Neotropical transients and temperate transients. Abundance of Neotropical transients and temperate transients was unrelated to percent forest cover within 1 km. Mature upland and riparian forests differed in that riparian sites had lower percentage of shrub cover, higher percentage of canopy cover, and different species composition of trees. Abundance of Neotropical transients was positively associated with mean canopy height; temperate transients were positively associated with mean number of trees >38 cm DBH and mean percentage of shrub cover. Our data indicate that mature upland forests were more heavily used by migrating landbirds than riparian forests within an urbanizing Midwestern landscape and may represent valuable habitats for the conservation of migratory landbirds within highly fragmented landscapes. Uso de Bosques Riparios y de Llanuras por Aves Terrestres como Hábitats de Paradas Migratorias en un Paisaje Urbano Resumen. Las relaciones de los hábitats que sirven como paradas migratorias para las aves terrestres no están bien conocidas, y esto constituye una deficiencia en los planes de conservación de las aves migratorias. Comparamos el uso de bosques maduros de llanuras y de bosques riparios por parte de aves migratorias durante la primavera en un paisaje que está siendo urbanizado en Ohio central. Registramos aves migratorias en las paradas de migración a lo largo de transectos de 250 m y cuantificamos las características del hábitat tanto a nivel local como a nivel del paisaje (porcentaje de cobertura urbana y de bosque). Durante la parada migratoria de primavera, la abundancia de las aves migratorias en bosques de llanura fue un 86% mayor para las aves transitorias del Neártico-Neotrópico (aves migratorias de larga distancia) y un 118% mayor para las aves transitorias templadas (aves migratorias de corta distancia). De 27 especies transitorias, 22 especies se diferenciaron en su uso de bosque ripario y de llanura, y 20 de éstas fueron más abundantes en bosques de llanura (e.g., Vireo solitarius, Empidonax minimus, Catharus ustulatus, Vermivora ruficapilla, Dendroica magnolia, D. castanea, Seiurus aurocapillus). La riqueza de especies en bosques de llanura con relación a el bosque ripario fue un 58% mayor para los grupos de aves transitorias Neotropicales y un 75% mayor para las aves transitorias templadas. El porcentaje de cobertura de urbanización en un radio de 1 km no se relacionó con la abundancia de aves transitorias Neotropicales ni con las transitorias templadas. La abundancia de las aves transitorias Neotropicales y templadas no se relacionó con la cobertura de bosque dentro de un radio de 1 km. Los bosques maduros de llanura y los bosques riparios se diferenciaron en que los sitios de bosque ripario tuvieron menor cobertura de arbustos, una mayor cobertura de dosel y una composición de especies de árboles diferente. La abundancia de las aves transitorias Neotropicales se relacionó positivamente con la altura promedio del dosel, mientras que las aves transitorias templadas se relacionaron positivamente con el número promedio de árboles con DAP >38 cm y con la cobertura promedio de arbustos. Nuestros datos indican que los bosques maduros de llanuras fueron utilizados con mayor intensidad por aves migratorias terrestres que los bosques riparios en un paisaje urbanizado del medio-oeste, y que estos bosques pueden representar un tipo de hábitat valioso para la conservación de las aves migratorias terrestres en un paisaje altamente fragmentado.

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Effects of Habitat Characteristics on Gadwall Nest Predation and Nest-Site Selection

Journal of Wildlife Management ◽

10.2307/3801319 ◽

1989 ◽

Vol 53 (1) ◽

pp. 129 ◽

Cited By ~ 70

Author(s):

Robert L. Crabtree ◽

Linda S. Broome ◽

Michael L. Wolfe

Keyword(s):

Site Selection ◽

Nest Predation ◽

Nest Site ◽

Nest Site Selection ◽

Habitat Characteristics

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Nest-predation at the edge: an experimental study contrasting two types of edges in the dry Chaco, Paraguay

Ecography ◽

10.1034/j.1600-0587.2001.240612.x ◽

2001 ◽

Vol 24 (6) ◽

pp. 742-750 ◽

Cited By ~ 7

Author(s):

Lena M. Eriksson ◽

Lars Edenius ◽

Veronika Areskoug ◽

Dennis A. Meritt Jr

Keyword(s):

Experimental Study ◽

Nest Predation

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Elevated nest predation risk promotes offspring size variation in birds with prolonged parental care.

10.32942/osf.io/h2mpw ◽

2019 ◽

Author(s):

Gretchen F. Wagner ◽

Emeline Mourocq ◽

Michael Griesser

Keyword(s):

Predation Risk ◽

Reproductive Cycle ◽

Perceived Risk ◽

Nest Predation ◽

Bird Species ◽

Size Variation ◽

Egg Laying ◽

Offspring Size ◽

Natural Predation ◽

Risk Spreading

Predation of offspring is the main cause of reproductive failure in many species, and the mere fear of offspring predation shapes reproductive strategies. Yet, natural predation risk is ubiquitously variable and can be unpredictable. Consequently, the perceived prospect of predation early in a reproductive cycle may not reflect the actual risk to ensuing offspring. An increased variance in investment across offspring has been linked to breeding in unpredictable environments in several taxa, but has so far been overlooked as a maternal response to temporal variation in predation risk. Here, we experimentally increased the perceived risk of nest predation prior to egg-laying in seven bird species. Species with prolonged parent-offspring associations increased their intra-brood variation in egg, and subsequently offspring, size. High risk to offspring early in a reproductive cycle can favour a risk-spreading strategy particularly in species with the greatest opportunity to even out offspring quality after fledging.

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