Seasonal and directional dispersal behavior in an ongoing dove invasion

Slager, David

doi:10.1111/jav.02332

Cited by 7 publications

(4 citation statements)

References 59 publications

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“…We used observer field notes as an additional method for identifying glacier and snowfield habitat use by birds. eBird users report a wide array of field notes that represent a largely untapped source of descriptive data (Slager 2020). As a separate count of habitat use, we identified field notes from the full checklist set (not filtered by habitat polygons) that included the keywords "glacier" and "snowfield" as well as variations of each (e.g., "snowfield" or "snow field").…”

Section: Using Observer Notes To Understand Habitat Usage and Behaviormentioning

confidence: 99%

Community science for enigmatic ecosystems: using eBird to assess avian biodiversity on glaciers and snowfields

Boersma¹,

Paprocki²,

Wimberger³

et al. 2023

JFO

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Mountain glaciers and snowfields are rapidly receding because of climate warming. Species living in these habitats remain poorly studied, likely because of the remoteness and ruggedness of their terrain. We leveraged community science data from eBirdan online database of bird observations from around the world-to characterize bird use of mountain glaciers and snowfields. We estimated total bird biodiversity and preference for glaciers and snowfields over nearby, ice-adjacent habitats. We used field notes from eBird users and breeding codes to extend our data set to include insight into habitat usage and behavior. Finally, we compared our community-science approach to previous studies that used traditional (i.e., professional) field survey methods. We identified considerable avian biodiversity in glacier and snowfield habitat (46 species) with four specialists that appeared to prefer glaciers and snowfields over nearby, ice-adjacent habitats. Birds appeared to primarily use the glacier and snowfield habitats for foraging. When community science data was compared to traditional methods, results were similar, but community science resulted in a higher species diversity estimate. Our findings suggest glacier and snowfield retreat threatens specialist species via loss of nutrient resources. Additionally, community science data appears valuable for characterizing difficult to access areas, but traditional surveys are still useful for more rigorous quantification of avian biodiversity.RESUMEN. Glaciales de montaña y campos de nieve están retrocediendo rápidamente por causa del calentamiento climático. Las especies que viven en estos hábitats aún son poco estudiadas, probablemente por ser lugares remotos y tener terreno rugoso. Aprovechamos los datos de la ciencia comunitaria de eBird-una base de datos en línea de las observaciones de aves alrededor del mundo-para caracterizar el uso de los glaciares de montaña y campos de nieve por aves. Estimamos la biodiversidad total de aves y la preferencia por glaciares y campos de nieve cercanos sobre los hábitats adyacentes al hielo. Utilizamos las notas de campo de usuarios de eBird y códigos de reproducción para extender nuestro conjunto de datos e incluir conocimiento sobre el uso del hábitat y comportamiento. Finalmente comparamos nuestra aproximación basada en la ciencia comunitaria con estudios previos que usaron métodos de estudio de campo tradicionales (i.e. profesionales). Identificamos una biodiversidad de aves considerable en hábitats glaciales y campos de nieve (46 especies) con cuatro especies especialistas que aparentemente prefirieron glaciales y campos de nieve sobre hábitats adyacentes al hielo. Las aves aparentemente utilizan hábitats glaciales y campos de nieve principalmente para forrajear. Cuando comparamos los datos de la ciencia comunitaria con los de los métodos tradicionales, los resultados fueron similares, pero la ciencia comunitaria resulto en una diversidad más alta de especies estimadas. Nuestros resultados sugieren que el retroceso de los glaciales ...

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Section: Using Observer Notes To Understand Habitat Usage and Behaviormentioning

confidence: 99%

Community science for enigmatic ecosystems: using eBird to assess avian biodiversity on glaciers and snowfields

Boersma¹,

Paprocki²,

Wimberger³

et al. 2023

JFO

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“…I additionally calculated spherical distance of each record from shore in km. eBird checklists hold valuable descriptive data entered by users including various descriptive tags and a free text eld where users may enter their comments (40,41). I extracted keywords from eld descriptions and age tags to determine the relative proportion of adults and juveniles offshore.…”

Section: Data Acquisition and Lteringmentioning

confidence: 99%

Lost at sea: interference with navigational senses and failed social route learning may drive offshore vagrancy in passerines

Brooks

2023

Preprint

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Background Migratory birds possess remarkable navigational adaptations. Vagrants, few individuals who migrate to incorrect locations, offer a unique opportunity to study how navigation is accomplished. Vagrancy may occur due to external factors forcing birds off course, such as strong wings, or navigational errors. Natural disruptions in the Earth’s magnetic field may cause navigational errors interfering with bird magnetoreception. Failures of other navigation tools like visual landmark recognition and social route learning may also contribute to vagrancy, but these factors are difficult to quantify.Methods I used eBird, a community science dataset comprising millions of bird observations, to study the relative likelihood of offshore vagrancy under different external factors including weather, geomagnetic disturbance, and solar activity using mixed effects logistic regression. Then, I studied how variation in species vagrancy propensity is be driven by morphology and migration distance using multiple linear regression, or inheritances of vagrancy alleles with phylogenetic analysis.Results High geomagnetic disturbance and low visibility increased offshore vagrancy, and winds did not appear to blow birds off course. Most variation in offshore vagrancy stemmed species specific differences, best explained by an interaction between wing pointedness and migration. A longer migration distance was strongly correlated with increased vagrancy in birds with rounded wings, but the relationship was absent in birds with a pointed wing shape. Brown-headed Cowbirds were notably more prone to vagrancy than any other passerine.Conclusions External factors primarily cause vagrancy by interfering with magnetic and visual senses, rather than physically forcing birds off course. Species with longer migrations have more time to encounter these vagrancy causing events, but a more pointed wing shape may allow birds to reorient more efficiently. While migration routes are primarily genetic in passerines, I found evidence of an overlooked role of social learning in route inheritance. I contend that as a brood parasite, solitary juvenile Brown-headed Cowbirds experience more difficulty in joining migratory flocks, thus missing out on social route learning opportunities. These results clarify the relative role of different navigational adaptations in migratory birds and demonstrate the utility of studying vagrants to understand bird migration.

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“…We used observer field notes as an additional method for identifying glacier and snowfield habitat use by birds. eBird users report a wide array of field notes that represent a largely untapped source of descriptive data (Slager, 2020). We identified field notes containing habitat descriptions that included the keywords glacier and snowfield as well as variations of each (e.g.…”

Section: Using Observer Notes To Understand Habitat Usage and Behaviormentioning

confidence: 99%

Community science for enigmatic ecosystems: Using eBird to assess avian biodiversity on glaciers and snowfields

Brooks

Boersma

Paprocki

et al. 2022

Preprint

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Aim: To quantify avian biodiversity and habitat preference and describe behavior in an enigmatic, understudied ecosystem: mountain glaciers and snowfields. Location: Mountains in the Pacific Northwest of western North America: British Columbia (CA), Washington and Oregon (USA). Taxon: Birds observed within our study area and focal habitat. Methods: We used community science data from eBird-an online database of bird observations from around the world-to estimate bird biodiversity and abundance in glacier and snowfield ecosystems as well as nearby, ice-adjacent habitats. We used field notes from eBird users and breeding codes to extend our data set to include insight into habitat usage and behavior. Finally, we compared our community-science approach to previous studies that used traditional survey methods. Results: We identified considerable avian biodiversity in glacier and snowfield habitat (46 species) with four specialists that appeared to prefer glaciers and snowfields over nearby, ice-adjacent habitat. Combined with field notes by eBird users, our efforts increased the known global total of avian species associated with ice and snow habitats by 14%. When community science data was compared to traditional methods, we found similar species diversity but differences in abundance. Main conclusions: Despite the imminent threat of glacier and snowfield melt due to climate change, species living in these habitats remain poorly studied, likely due to the remoteness and ruggedness of their terrain. Glaciers and snowfields hold notable bird diversity, however, with a specialized set of species appearing to preferentially forage in these habitats. Our results show that community science data can provide a valuable starting point for studying difficult to access areas, but traditional surveys are still useful for more rigorous quantification of avian biodiversity.

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Seasonal and directional dispersal behavior in an ongoing dove invasion

Cited by 7 publications

References 59 publications

Community science for enigmatic ecosystems: using eBird to assess avian biodiversity on glaciers and snowfields

Community science for enigmatic ecosystems: using eBird to assess avian biodiversity on glaciers and snowfields

Lost at sea: interference with navigational senses and failed social route learning may drive offshore vagrancy in passerines

Community science for enigmatic ecosystems: Using eBird to assess avian biodiversity on glaciers and snowfields

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