7 results on '"Bayly, Nicholas J."'
Search Results
2. Sequential use of niche and occupancy models identifies conservation and research priority areas for two data-poor endemic birds from the Colombian Andes.
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Botero-Delgadillo, Esteban, Escudero-Páez, Sandra, Sanabria-Mejía, Jeyson, Caicedo, Pilar, and Bayly, Nicholas J.
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ENDEMIC birds ,BIRD conservation ,ECOLOGICAL niche ,BIRD surveys - Abstract
Copyright of Ornithological Applications is the property of Oxford University Press / USA and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2022
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3. Community modeling reveals the importance of elevation and land cover in shaping migratory bird abundance in the Andes.
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Céspedes Arias, Laura N., Wilson, Scott, and Bayly, Nicholas J.
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MIGRATORY birds ,LAND cover ,SECONDARY forests ,COFFEE plantations ,MIGRATORY animals ,BIRD populations - Abstract
The tropical Andes are characterized by extreme topographic and climatic complexity, which has likely contributed to their outstanding current species diversity, composed of many range‐restricted species. However, little is known about how the distribution and abundance of highly mobile organisms, like long‐distance migratory birds, varies across different land covers, elevations, and climatic conditions within the Andes. We conducted 1,606 distance‐sampling point counts across the Colombian Andes, spanning elevations from 253 to 3,708 m, a range of precipitation regimes and representative land covers. We then employed a novel application of a multispecies hierarchical modeling approach to evaluate how elevation, local land cover, aboveground woody biomass, cloud cover, precipitation, and seasonality in precipitation shape the abundance of the migratory land bird community in the Andes. We detected 1,824 individuals of 29 species of migratory land birds, six of which were considered incidental in our study region. We modeled the abundance of the remaining 23 species, while considering observer and time of day effects on detectability. We found that both elevation and land cover had an overriding influence on the abundance of migratory species across the Andes, with strong evidence for a mid‐elevation peak in abundance, and species‐specific responses to both variables. As a community, migratory birds had the highest mean abundance in shade coffee plantations, secondary forest, and mature forest. Aboveground woody biomass did not affect the abundance of all species as a group, but a few showed strong responses to this variable. Contrary to predictions of a positive correlation between abundance and precipitation, we found no evidence for community‐level responses to precipitation, aside for a weak tendency for birds to select areas with intermediate levels of precipitation. This novel use of a multispecies model sheds new light on the mechanisms shaping the winter distribution of migratory birds and highlights the importance of elevation and land cover types over climatic variables in the context of the Colombian Andes. [ABSTRACT FROM AUTHOR]
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- 2022
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4. Migratory connectivity then and now: a northward shift in breeding origins of a long-distance migratory bird wintering in the tropics.
- Author
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Gómez, Camila, Hobson, Keith A., Bayly, Nicholas J., Rosenberg, Kenneth V., Morales-Rozo, Andrea, Cardozo, Paula, and Cadena, Carlos Daniel
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WINTERING of birds ,MIGRATORY birds ,BIOLOGICAL evolution ,MIGRATORY animals ,BIRD populations ,POPULATION ecology ,BIRD declines - Abstract
Temporal variation in the connectivity of populations of migratory animals has not been widely documented, despite having important repercussions for population ecology and conservation. Because the long-distance movements of migratory animals link ecologically distinct and geographically distant areas of the world, changes in the abundance and migratory patterns of species may reflect differential drivers of demographic trends acting over various spatial scales. Using stable hydrogen isotope analyses (δ
2 H) of feathers from historical museum specimens and contemporary samples obtained in the field, we provide evidence for an approximately 600 km northward shift over 45 years in the breeding origin of a species of songbird of major conservation concern (blackpoll warbler, Setophaga striata) wintering in the foothills of the eastern Andes of Colombia. Our finding mirrors predictions of range shifts for boreal-breeding species under warming climate scenarios and habitat loss in the temperate zone, and underscores likely drivers of widespread declines in populations of migratory birds. Our work also highlights the value of natural history collections to document the effects of global change on biodiversity. [ABSTRACT FROM AUTHOR]- Published
- 2021
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5. Earlier and slower or later and faster: Spring migration pace linked to departure time in a Neotropical migrant songbird.
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González, Ana M., Bayly, Nicholas J., Hobson, Keith A., and Hoye, Bethany
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WINTERING of birds , *MIGRATORY birds , *SONGBIRDS , *COFFEE plantations , *ENVIRONMENTAL quality - Abstract
Migratory birds travel vast distances and the timing of migratory flights can affect survival and the ability to reproduce. For Neotropical migrant songbirds, early spring departure from wintering sites, early arrival to the breeding grounds and higher reproductive success have been related to the use of suitable habitats and environmental conditions during the non‐breeding season. However, how migratory strategies are shaped by winter habitat choice is largely unknown due to the general inability to track birds from specific wintering habitats to stopovers or breeding destinations.We assessed how winter habitat (native forest vs. shade‐grown coffee plantations) relates to spring departure date and migration pace in Swainson's Thrush Catharus ustulatus. We also determined the effect of departure date and total migration duration on the arrival date of birds detected near or within their breeding range.We used a novel application of Motus radiotelemetry arrays to track individuals from their wintering grounds in the Andes of South America along their migratory journey to North America.We found variation in migratory strategies between habitats, with birds wintering in native forest departing later than birds in coffee. We present isotopic evidence for native forest being of higher quality than shade‐coffee for Swainson's Thrush and hypothesize that moister conditions in forest, as shown by stable isotope (δ13C) analysis of thrush whole blood, provides favourable pre‐migratory conditions allowing birds to delay departure from wintering grounds. Habitat, between‐site and ‐year variation in departure date, suggests that birds made facultative adjustments to winter habitat quality and environmental conditions. Independent of habitat, birds that departed later migrated faster and this pattern was maintained along the migration route (n = 44). Migrating earlier and slower or later and faster was unlikely to result in significant differences in arrival time to breeding destinations.Our findings reveal underappreciated complexity in migratory decisions by long‐distance migrants that contrast with the current paradigm of earlier departures and arrival from optimal habitats. The next step is to understand the relative fitness benefits of early versus late schedules or whether each strategy is an equally good response to experienced conditions. [ABSTRACT FROM AUTHOR]
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- 2020
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6. Topography of the Andes Mountains shapes the wintering distribution of a migratory bird.
- Author
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González‐Prieto, Ana M., Bayly, Nicholas J., Colorado, Gabriel J., Hobson, Keith A., and Duncan, Richard
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TOPOGRAPHY , *MIGRATORY birds , *CONSERVATION biology , *GLOBAL environmental change - Abstract
Aim In birds, patterns of migratory connectivity are influenced by landscape structure experienced throughout the annual cycle. Assessing how landscape patterns drive the movements and distributions of migratory species is important for understanding the evolution of migration and determining conservation priorities. We determined migratory connectivity in the Canada Warbler ( Cardellina canadensis), a declining Neotropical migratory bird, and evaluated the degree to which the Andean mountains influence winter population distribution in this montane forest specialist. Location Seven study regions across the Western, Central, and Eastern Andes of Colombia. Methods We inferred breeding and natal origins of Canada Warblers overwintering in Colombia by analysing stable hydrogen isotope values (δ2H) in feathers and assigning wintering populations to breeding origins using an established feather δ2H isoscape for North America. Results We found strong evidence for parallel migration between breeding and wintering sites, giving rise to moderately strong migratory connectivity between breeding and wintering regions. The model best explaining population distribution in the Colombian Andes implied that populations were most similar within basins or valleys. Such segregation is notable, given that basins are separated by less than 300 km on the wintering grounds, while breeding populations may be separated by more than 3000 km from east to west. Main conclusions Our results suggest that the high spine of each Andean cordillera acts to shape the winter distribution of individuals from different breeding populations. To our knowledge, this is the first demonstration that the topography of the Andean mountains can act to shape the winter distribution of populations of a migratory bird. The strength of migratory connectivity found in Canada Warblers may inhibit evolutionary responses to environmental change, and the more rapid population declines recorded in some eastern breeding populations may be related to habitat loss and local environmental conditions in the Eastern Andes, where individuals from these populations were more likely to overwinter. [ABSTRACT FROM AUTHOR]
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- 2017
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7. Shade coffee or native forest? Indicators of winter habitat quality for a long-distance migratory bird in the Colombian Andes.
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González, Ana M., Bayly, Nicholas J., Wilson, Scott, and Hobson, Keith A.
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MIGRATORY birds , *FOREST declines , *FOREST conservation , *BIRD conservation , *COFFEE plantations , *TREE farms - Abstract
• Measures of survival were similar between habitats. • Body condition and density were higher in forest than in coffee. • Native forest is a higher-quality winter habitat than shade-grown coffee. • Indicators of habitat quality can be misleading when density is not considered. • The conservation of forest must be a priority wherever possible. Neotropical migratory songbirds overwintering at mid elevations in the Andes of northern South America depend on remnants of native forest and shade-grown coffee plantations. The quality of such habitats is one of the primary ecological factors limiting survival of migratory birds during the non-breeding season. We assessed the relative quality of shade-grown coffee plantations vs. forest in the Colombian Andes as winter habitat for Swainson's Thrush (Catharus ustulatus). We hypothesized that native forest has a higher intrinsic value (i.e., food abundance) than shade-coffee plantations, as native forest was the original habitat for Swainsońs Thrush. We compared thrush physical condition, density, feather corticosterone values, and apparent annual survival as indicators of habitat quality in these two habitats. Measures of body condition and density were higher in forest than in shade-grown coffee, while survival was similar between habitats. This implies that forest had a higher carrying capacity than shade coffee and therefore had higher intrinsic value. Seasonal trends in body condition revealed a decline in the quality of forest with the onset of the dry season in early winter and an increase during late winter in line with increasing rainfall, suggesting that the timing of the rainy season likely offsets the negative effects of seasonal drought. Feather corticosterone levels were higher in forest, possibly as a result of a density-dependent stress response, however, we cannot rule out the effects of food availability or its distribution in space on stress levels. Our indicators suggested that native forest is a higher-quality winter habitat than shade-grown coffee. Our findings highlight how individual indicators of habitat quality can be misleading and emphasize the value of using multiple measures. While shade coffee is a critical habitat in the absence of native forest and its importance for the conservation of migratory birds is widely accepted, our results indicate that the conservation of native forest must be a conservation priority wherever possible. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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- View/download PDF
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