Volume 126 Issue 4 | Ornithological Applications

Ornithological Applications

VOL. 126 · NO. 4 | November 2024

IN THIS ISSUE

PERSPECTIVE (1)

SPECIAL FEATURE (3)

RESEARCH ARTICLE (12)

BOOK REVIEW (3)

AWARDS (5)

ANNUAL THANKS TO REVIEWERS (1)

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PERSPECTIVE

Caught out in the cold: Anas platyrhynchos (Mallard) survival decreased during an extreme climatic event

Abigail G. Blake-Bradshaw, Nicholas M. Masto, Cory J. Highway, Allison C. Keever, Paul T. Link, Jamie C. Feddersen, Heath M. Hagy, Douglas C. Osborne, Bradley S. Cohen

Ornithological Applications 126 (4), 1-9, (18 June 2024) https://doi.org/10.1093/ornithapp/duae025

KEYWORDS: Anas platyrhynchos, climate change, extreme climatic events, mallard, polar vortex disruption, survival, waterfowl, Anas platyrhynchos, aves acuáticas, Cambio climático, disrupción de vórtice polar, eventos climáticos extremos, supervivencia

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Extreme climatic events (ECEs) can have profound impacts on individual fitness, affecting survival directly or indirectly. Late winter ECEs may be especially detrimental to fitness due to limited food resources and increased energetic requirements during this time. A polar vortex disruption ECE descended upon the mid-continental United States during February 7–20, 2021 with temperatures as low as –29°C in areas concurrent with ongoing research on Anas platyrhynchos (Mallard) movement ecology and survival in Arkansas, Louisiana, and Tennessee, United States spanning winters 2019–2022. Therefore, we opportunistically evaluated the effects of individual characteristics and latitude on daily survival during the ECE. We extended the survival analysis to March to test for lasting effects of the ECE on survival. We tracked 181 Global Positioning System (GPS)-marked A. platyrhynchos during February 2020, 256 in February 2021, and 324 in February 2022. We documented 22 mortalities during the February 2021 ECE (i.e., 9%), but only 6 mortalities during February 2020 (i.e., 2%) and 2022 (i.e., 1%) when conditions were average. February survival (e.g., 28-day survival) during the ECE was 0.908 (85% CI: 0.879–0.937) but was 0.982 (85% CI: 0.973–0.991) during the 2 non-ECE Februaries. The ECE effect on survival was isolated to February and did not affect March survival. Anas platyrhynchos was 5.4 times more likely to die during the ECE in 2021 compared to non-ECE Februaries. Although large-bodied waterfowl appear cold-tolerant and less sensitive to polar vortex disruptions compared to smaller-bodied passerines, direct mortalities can occur if conditions are severe enough and persist, highlighting the need to consider the influence of ECEs on common, seemingly robust species in future global climate change scenarios.

How to Cite Blake-Bradshaw, A. G., N. M. Masto, C. J. Highway, A. C. Keever, P. T. Link, J. C. Feddersen, H. M. Hagy, D. C. Osborne, and B. S. Cohen (2024). Caught out in the cold: Anas platyrhynchos (Mallard) survival decreased during an extreme climatic event. Ornithological Applications 126:duae025.

LAY SUMMARY

Understanding the effects of extreme climatic events (ECEs) on an individual's survival guides wildlife management in the face of future global climate change scenarios.
A 2-week long extreme winter weather event occurred in February 2021 and overlapped with our ongoing research monitoring Anas platyrhynchos (Mallard) using Global Positioning System (GPS) telemetry.
We evaluated the influence of the February 2021 ECE on A. platyrhynchos survival by comparing survival during the ECE to survival during February 2020 and 2022, with the assumption that there would be greater mortality during the 2021 ECE.
Anas platyrhynchos was 5 times more likely to die during the ECE compared to “normal” February conditions.
These results emphasize the need to monitor the effects of ECEs, even for common and cold-hardy species, as these extreme events become increasingly frequent and severe.

Los eventos climáticos extremos (ECEs) pueden tener impactos profundos en la aptitud biológica individual, afectando la supervivencia directa o indirectamente. Los ECEs de finales de invierno pueden ser especialmente perjudiciales para la aptitud biológica debido a las limitaciones de los recursos alimentarios y los mayores requerimientos energéticos durante este tiempo. Un ECE de disrupción de vórtice polar descendió sobre la región centro-continental de Estados Unidos durante el 7 al 20 de febrero 2021 con temperaturas tan bajas como – 29°C en áreas concurrentes con una investigación en curso sobre la ecología del movimiento y la supervivencia de Anas platyrhynchos en Arkansas, Luisiana y Tennessee, Estados Unidos, abarcando los inviernos de 2019 a 2022. Por lo tanto, de modo oportunista evaluamos los efectos de las características individuales y la latitud sobre la supervivencia diaria durante el ECE. Extendimos el análisis de supervivencia hasta marzo para probar los efectos duraderos del ECE sobre la supervivencia. Rastreamos 181 individuos de A. platyrhynchos marcados con GPS durante febrero 2020, 256 en febrero 2021 y 324 en febrero 2022. Documentamos 22 muertes durante el ECE de febrero 2021 (i.e., 9%), pero solo 6 muertes durante febrero 2020 (i.e., 2%) y 2022 (i.e., 1%) cuando las condiciones eran normales. La supervivencia en febrero (e.g., supervivencia de 28 días) durante el ECE fue de 0.908 (IC del 85% = 0.879–0.937) pero fue de 0.982 (IC del 85%: 0.973–0.991) durante los dos febreros sin ECE. El efecto del ECE sobre la supervivencia se limitó a febrero y no afectó la supervivencia en marzo. Los individuos de A. platyrhynchos tenían 5.4 veces más probabilidades de morir durante el ECE de 2021 en comparación con los febreros sin ECE. Aunque las aves acuáticas de gran tamaño parecen tolerantes al frío y menos sensibles a las disrupciones del vórtice polar en comparación con los paseriformes de tamaño más pequeño, pueden ocurrir muertes directas si las condiciones son lo suficientemente severas y persisten, destacando la necesidad de considerar la influencia de los ECEs en especies comunes y aparentemente robustas en futuros escenarios de cambio climático global.

SPECIAL FEATURE

Tree cavity density is a limiting factor for a secondary cavity nester in second-growth Andean temperate rainforests

Tomás A. Altamirano, Fernando Novoa, José Tomás Ibarra, Sergio A. Navarrete, Cristián Bonacic, Kathy Martin

Ornithological Applications 126 (4), 1-9, (22 July 2024) https://doi.org/10.1093/ornithapp/duae031

KEYWORDS: Aphrastura spinicauda, Chile, forest management, resource limitation, secondary cavity-nesting birds, temperate rainforests, Thorn-tailed Rayadito, Aphrastura spinicauda, bosques templados, Chile, limitación de recursos, manejo forestal, nidicadoras secundarias de cavidades

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Cavity-nesting bird populations are most frequently limited by the number of tree cavities available in second-growth forests. However, this possible limitation of a key resource is less clear in old-growth forests. We compared forest attributes (i.e., basal area, density of larger trees, density of dead trees, and tree cavity density) in second-growth and old-growth stands in Andean temperate rainforests in southern Chile. To examine the role of nest-site availability in limiting the populations of Aphrastura spinicauda (Thorn-Tailed Rayadito), we monitored their populations in both forest types during a 5-year period (2008-2013), while we conducted an experiment in which nest boxes were added and then, after two years, removed by blocking cavity entrances. In old-growth forests, as compared to second-growth forests, we found a more than double basal area (99.6 vs. 43.7 m² ha^–1), a 3 times higher density of larger trees (88.2 vs. 36.4 trees ha^–1), and a 1.5 times higher number of small cavities (25.9 vs. 10.3 cavities ha^–1). The density of cavities also strongly increased with tree diameter and basal area. In second-growth forests, A. spinicauda showed a strong response to the addition, and later to the removal of nest boxes, with population abundance increasing by 13% and then decreasing by 50%, respectively. In contrast, we found no impact on old-growth stands. Our experiment emphasizes the importance of maintaining large and dead trees in second-growth, disturbed, and managed forests. These trees provide suitable cavities for A. spinicauda, and likely many other secondary cavity nesters, increasing their abundance in a Globally significant Biodiversity Hotspot in southern South America. A Spanish translation of this manuscript is available as Supplementary Material (duae031_suppl_supplementary_material.pdf).

How to Cite Altamirano,T. A., F. Novoa, J.T. Ibarra, S. A. Navarrete, C. Bonacic, and K. Martin (2024).Tree cavity density is a limiting factor for a secondary cavity nester in second-growth Andean temperate rainforests. Ornithological Applications 126:duae031.

LAY SUMMARY

Cavity availability is considered a limiting factor, potentially regulating the breeding population density of avian cavity nesters.
We compared forest attributes in second-growth and old-growth stands and assessed the role of nest-site availability in limiting populations of Aphrastura spinicauda (Thorn-Tailed Rayaditos) in Andean temperate rainforests in southern Chile.
We conducted an experiment in which nest boxes were added and removed in both forest types during a 5-year period (2008–2013).
In old-growth forests compared to second-growth forests, we found 2.3 times higher basal area, 2.4 times higher density of larger trees, and a 2.5 times higher number of small cavities.
In second-growth forests, A. spinicauda populations increased by 13% after the nest box addition, and then decreased by 50% after removal, in contrast to no change in old-growth forests.
Our findings highlight the importance of maintaining larger trees that provide suitable cavities for this species in second-growth forests.

Las poblaciones de aves que nidifican en cavidades están frecuentemente limitadas por el número de cavidades disponibles en bosques de crecimiento secundario. Sin embargo, esta posible limitación de este recurso clave es menos clara en bosques antiguos. Comparamos los atributos del bosque (i.e., área basal, densidad de árboles grandes, densidad de árboles muertos y densidad de cavidades de árboles) en bosques templados andinos de crecimiento secundario y antiguo del sur de Chile. Para examinar el rol de la disponibilidad de sitios de nidificación en la limitación de poblaciones de Aphrastura spinicauda, monitoreamos sus poblaciones en ambos tipos de bosques durante un periodo de 5 años (2008-2013), mientras realizamos un experimento en el que se agregaron cajas nido y, luego de dos años, se removieron bloqueando la entrada. En los bosques antiguos, en comparación con los bosques de crecimiento secundario, encontramos un área basal de más del doble (99.6 vs. 43.7 m² ha^–1), una densidad de árboles grandes tres veces mayor (88.2 vs. 36.4 árboles ha^–1) y un número de cavidades pequeñas 1.5 veces mayor (25.9 vs. 10.3 cavidades ha^–1). La densidad de cavidades también aumentó fuertemente con el diámetro de los árboles y el área basal. En los bosques de crecimiento secundario, A. spinicauda mostró una fuerte respuesta a la adición y subsecuente eliminación de cajas nido, con un aumento en la abundancia poblacional del 13% y luego una disminución del 50%, respectivamente. En contraste, no encontramos impacto en los bosques antiguos. Nuestro experimento enfatiza la importancia de mantener árboles grandes y muertos en los bosques de crecimiento secundario, degradados y/o manejados. Estos árboles proporcionan cavidades adecuadas para A. spinicauda, y probablemente para muchas otras aves que se reproducen en estas, aumentando sus abundancias en un bosque prioritario para la conservación de biodiversidad a nivel mundial en el cono sur de Sudamérica. Una versión en español de este manuscrito está disponible como material suplementario.

Ecosystem engineers show variable impacts on habitat availability for cavity nesters in South American temperate forests

Cecilia Cuatianquiz Lima, Tomás A. Altamirano, Rocío Jara, Edwin R. Price, Fernando J. Novoa, José Tomás Ibarra

Ornithological Applications 126 (4), 1-12, (23 August 2024) https://doi.org/10.1093/ornithapp/duae039

KEYWORDS: Cavity characteristics, Chile, ecosystem engineers, habitat attributes, native birds, secondary cavity nesters, Atributos del hábitat, aves nativas, características de cavidades, Chile, ingenieros de ecosistemas, nidificadores secundarios de cavidades

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Ecosystem engineers are organisms that impact their environment and co-existing species by creating or modifying habitats, and thus they play important roles as drivers of community assembly. We examined whether cavity characteristics and/or habitat attributes associated with cavities provided by 4 ecosystem engineers influence the presence of nests of 3 secondary cavity-nesting birds—Aphrastura spinicauda (Thorn-tailed Rayadito), Tachycineta leucopyga (Chilean Swallow), and Troglodytes aedon (Southern House Wren)—and whether these variations influence their reproductive success. We tested this by: (1) assessing nest presence in cavities supplied by ecosystem engineers and (2) quantifying the reproductive success of secondary cavity nesters as a function of cavity characteristics and habitat attributes supplied by ecosystem engineers. Between 2009 and 2022, we recorded 757 cavities in 546 trees in old-growth and second-growth forests in a Global Biodiversity Hotspot in the Andes of southern Chile. Insect/fungi and Pygarrhichas albogularis (White-throated Treerunner) play a key role as the primary producers of cavities. Insect/fungi generated the cavities for 82% of A. spinicauda nests and 95% of T. aedon nests; in contrast, 57% of T. leucopyga nests were cavities excavated by P. albogularis. Characteristics of cavities (size of cavity entrance, volume, and height above ground) were associated with nest presence of secondary cavity nesters and with reproductive success of A. spinicauda and T. aedon. Habitat attributes such as tree density and canopy cover influenced nest presence for A. spinicauda and T. leucopyga, but did not correlate with the reproductive success of any secondary cavity nester. Bamboo density and forest type were related to reproductive success of A. spinicauda and T. aedon. Diameter at Breast Height of trees was related to the reproductive success of T. leucopyga. This study contributes to understanding the importance of various ecosystem engineers for the conservation of secondary cavity-nesting birds in temperate forests and beyond.

How to Cite Cuatianquiz Lima, C., T. A. Altamirano, R. Jara, E. R. Price, F. J. Novoa, and J. T. Ibarra (2024). Ecosystem engineers show variable impacts on habitat availability for cavity nesters in South American temperate forests. Ornithological Applications 126:duae039.

LAY SUMMARY

Ecosystem engineers are organisms that impact their environment and co-existing species by creating or modifying habitats, and thus they play important roles as drivers of community assembly.
We examined the presence of nests of 3 species of secondary cavity nesters and their reproductive success in cavities supplied by 4 ecosystem engineers.
Between 2009 and 2022, we recorded 757 cavities in 546 trees in old-growth and second-growth forests in a Global Biodiversity Hotspot in the Andes of southern Chile.
Insect/fungi and Pygarrhichas albogularis played a key role as the primary producers of cavities for secondary cavity nesters. The characteristics of cavities were associated with the presence of nests and showed a weaker association with the reproductive success of secondary cavity nesters.
Habitat attributes showed a weak association with the presence of nests and the reproductive success of 3 secondary cavity nesters.
This study contributes to understanding the importance of various ecosystem engineers for the conservation of secondary cavity-nesting birds.

Los ingenieros de ecosistemas son organismos que influyen en su entorno y en las especies coexistentes creando o modificando hábitats, por lo que desempeñan un papel importante como impulsores de la formación de comunidades. Examinamos si las características de las cavidades y/o los atributos de hábitat asociados con las cavidades proporcionados por cuatro ingenieros de ecosistemas influyen en la presencia de los nidos de tres aves que anidan en cavidades secundarias (Aphrastura spinicauda, Tachycineta leucopyga y Troglodytes aedon), y si estas variaciones influyen en su éxito reproductivo. Esto se comprobó: i) evaluando la presencia de nidos en cavidades suministradas por los ingenieros de ecosistemas y ii) cuantificando el éxito reproductivo de los nidificadores secundarios en función de las características de las cavidades y los atributos del hábitat suministrados por los ingenieros de ecosistemas. Entre 2009 y 2022, registramos 757 cavidades en 546 árboles de bosques antiguos y de segundo crecimiento a lo largo de un Hotspot de Biodiversidad Global en los Andes del sur de Chile. Los insectos/hongos y el Pygarrhichas albogularis desempeñaron un papel clave como principales productores de cavidades. Los insectos/hongos generaron el 82% de los nidos de A. spinicauda y el 95% de los nidos de T. aedon; en contraste, el 57% de los nidos de T. leucopyga fueron cavidades excavadas por P. albogularis. Las características de las cavidades (tamaño de la entrada de la cavidad, volumen y altura sobre el suelo) se asociaron con la presencia de nidos de los nidificadores secundarios y con el éxito reproductivo de A. spinicauda y T. aedon. Los atributos del hábitat, como la densidad de árboles y la cobertura del dosel, influyeron en la presencia de nidos de A. spinicauda y T. leucopyga, pero no de T. aedon, y no afectaron el éxito reproductor de ninguno de los nidificadores secundarios. La densidad de bambú y el tipo de bosque se relacionaron con el éxito reproductivo de A. spinicauda y T. aedon. El Diámetro a la Altura del Pecho de los árboles se relacionó con el éxito reproductivo de T. leucopyga. Este estudio contribuye a comprender la importancia de varios ingenieros de ecosistemas para la conservación de aves que anidan en cavidades secundarias en el bosque templado y más allá.

Ecology and conservation of cavity-nesting birds in the Neotropics: Recent advances, future directions, and contributions to ornithology

Eugenia Bianca Bonaparte, Cecilia Cuatianquiz Lima, Hipólito D. Ferreira-Xavier, Jéssica S. da Hora, Facundo G. Di Sallo, Fernando G. López, Kristina L. Cockle, María Gabriela Núñez Montellano

Ornithological Applications 126 (4), 1-21, (30 August 2024) https://doi.org/10.1093/ornithapp/duae042

KEYWORDS: cavity-nesting birds, cavity facilitation, conservation, excavators, Global South, Neotropics, nest web, nest-site selection, resource limitation, aves excavadoras, aves que anidan en cavidades, conservación, facilitación de cavidades, Neotrópico, recurso limitante, red de nidos, selección de sitios para anidar, Sur Global

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About 35% of tree-cavity-nesting bird species inhabit the Neotropics, a region crucial to understanding their breeding ecology, conservation, and roles in social-ecological systems. Sixteen years ago, Cornelius et al. (2008) reviewed published knowledge and identified research priorities for Neotropical cavity-nesting birds. Advances since 2008 have not been synthesized and many remain excluded from dominant ornithology because of barriers that disproportionately affect people and ideas from the Global South. Here, we review recent advances in knowledge about Neotropical cavity-nesting birds, introduce the Special Feature series “Ecology and conservation of cavity nesters in the Neotropics,” and outline possible directions for future research. Research in the Neotropics has advanced knowledge of breeding biology, demonstrated that nest sites are limited and birds compete for cavities (mainly in humid forests), identified non-excavated cavities (formed by wood decay) as the main source of cavities and demonstrated the importance of understanding Indigenous and local community relationships to birds. With field studies across the Neotropics, the Special Feature series shows how environment, people's common imaginaries, vegetation management, and behavior of avian excavators can interact to influence cavity availability, with ecological consequences for many cavity-using organisms. In the future, researchers should center ethno-knowledge and natural history to create an accurate list of cavity-nesting birds in the Neotropics, and integrate this knowledge into studies of population and community ecology. It is also important to study factors that influence cavity dynamics, especially using a social-ecological systems framework and especially in arid and semi-arid regions. We recommend expanding the concept of nest webs (ecological networks of cavity nesters) to incorporate additional cavity substrates (e.g., termitaria, cliffs), cavity alternatives (e.g., bulky enclosed stick nests of many Furnariidae), and cavity-using taxa beyond birds and mammals (e.g., social insects, snakes), which abound in the Neotropics but were not contemplated in the original nest web formulation. Translated versions of this article are available in Supplementary Material 1 (duae042_suppl_supplementary_material_s1.docx) (Spanish) and Supplementary Material 2 (duae042_suppl_supplementary_material_s1.docx) (Portuguese).

How to Cite Bonaparte, E. B., C. Cuatianquiz Lima, H. D. Ferreira-Xavier, J. S. da Hora, F. G. Di Sallo, F. G. López, K. L. Cockle, and M. G. Núñez Montellano (2024). Ecology and conservation of cavity-nesting birds in the Neotropics: Recent advances, future directions, and contributions to ornithology. Ornithological Applications 126:duae042.

LAY SUMMARY

In the Neotropics, many bird species shelter, roost, or breed in tree cavities, a key resource for populations and communities.
We synthesize recent studies on cavity-nesting in the Neotropics and introduce the Special Feature “Ecology and conservation of cavity nesters in the Neotropics,” with field studies from Patagonia to Mexico.
Cavities were sometimes limited and were generally produced by wood decay rather than avian excavators (e.g., woodpeckers).
Nest-site characteristics depended on local context, body size, social system, and excavation ability.
Local communities and Indigenous Peoples maintain deeply-rooted relationships to cavity-nesting birds (e.g., as relatives, signs, spirits, and symbols), but ornithologists understand little about these relationships or how they influence bird populations, human well-being, and collective resistance to cultural assimilation.
We recommend future field studies rooted in respect for Indigenous and local community knowledge and natural history, with attention to arid and urban environments and substrates beyond trees.

Alrededor del 35% de las especies de aves que anidan en cavidades de árboles habitan en el Neotrópico, una región crucial para comprender su ecología reproductiva, su conservación y su papel en los sistemas socioecológicos. Hace dieciséis años, Cornelius et al. (2008) revisaron los conocimientos publicados e identificaron las prioridades de investigación para las aves neotropicales que anidan en cavidades. Los avances desde 2008 no han sido sintetizados y muchos siguen excluidos de la ornitología dominante debido a barreras que afectan desproporcionadamente a personas e ideas del Sur Global. Aquí revisamos los avances recientes en el conocimiento de las aves neotropicales que anidan en cavidades, presentamos la colección especial “Ecología y conservación de las aves que anidan en cavidades en el Neotrópico” y esbozamos posibles direcciones para futuras investigaciones. La investigación en el Neotrópico ha avanzado en el conocimiento de la biología reproductiva, ha demostrado que los sitios de nidificación son limitados y que las aves compiten por las cavidades (principalmente en bosques húmedos), ha identificado las cavidades no excavadas (formadas por la descomposición de la madera) como la principal fuente de cavidades y ha demostrado la importancia de comprender las relaciones de las comunidades indígenas y locales con las aves. Con estudios de campo en todo el Neotrópico, la colección especial muestra cómo el medio ambiente, los imaginarios comunes de las personas, el manejo de la vegetación y el comportamiento de las aves excavadoras pueden interactuar para influir en la disponibilidad de cavidades, con consecuencias ecológicas para muchos organismos usuarios de cavidades. En el futuro, los investigadores deberán centrarse en el conocimiento etnológico y la historia natural para crear una lista precisa de las aves que anidan en cavidades en el Neotrópico, e integrar este conocimiento en los estudios de ecología de poblaciones y comunidades. También es importante estudiar los factores que influyen en la dinámica de las cavidades, sobre todo utilizando un marco de sistemas socioecológicos y especialmente en regiones áridas y semiáridas. Recomendamos ampliar el concepto de redes de nidos (redes ecológicas de nidificadores en cavidades) para incorporar otros sustratos de cavidades (p. ej., termiteros, acantilados), alternativas a las cavidades (p. ej., los voluminosos nidos de palos cerrados de muchos Furnariidae) y taxones usuarios de cavidades más allá de aves y mamíferos (p. ej., insectos sociales, serpientes), que abundan en el Neotrópico pero no se contemplaron en la formulación original de las redes de nidos. Versiones traducidas de este artículo están disponibles en Material Suplementario 1 (español) y Material Suplementario 2 (portugués).

RESEARCH ARTICLE

Despite short-lived changes, COVID-19 pandemic had minimal large-scale impact on citizen science participation in India

Karthik Thrikkadeeri, Ashwin Viswanathan

Ornithological Applications 126 (4), 1-14, (11 June 2024) https://doi.org/10.1093/ornithapp/duae024

KEYWORDS: birdwatcher behavior, citizen science, COVID-19 pandemic, data characteristics, eBird, características de los datos, ciencia ciudadana, comportamiento de los observadores de aves, eBird, pandemia de COVID-19

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Many parts of the world lack the large and coordinated volunteer networks required for systematic monitoring of bird populations. In these regions, citizen science (CS) programs offer an alternative with their semi-structured data, but the utility of these data are contingent on how, where, and how comparably birdwatchers watch birds, year on year. Trends inferred from the data can be confounded during years when birdwatchers may behave differently, such as during the COVID-19 pandemic. We wanted to ascertain how the data uploaded from India to one such CS platform, eBird, were impacted by this deadly global pandemic. To understand whether eBird data from the pandemic years in India are comparable to data from adjacent years, we explored several characteristics of the data, such as how often people watched birds in groups or at public locations, at multiple spatial and temporal scales. We found that the volume of data generated increased during the pandemic years 2020–2021 compared to 2019. Data characteristics changed largely only during the peak pandemic months (April–May 2020 and April–May 2021) associated with high fatality rates and strict lockdowns. These changes in data characteristics (e.g., greater site fidelity and less group birding) were possibly due to the decreased human mobility and social interaction in these periods. The data from the remainder of these restrictive years remained similar to those of the adjacent years, thereby reducing the impact of the aberrant peak months on any annual inference. Our findings show that birdwatchers in India as contributors to CS rapidly returned to their pre-pandemic behavior, and that the effects of the pandemic on birdwatching effort and birdwatcher behavior are scale- and context-dependent. In summary, eBird data from the pandemic years in India remain useful for abundance trend estimation and similar large-scale applications, but will benefit from preliminary data quality checks when utilized at a fine scale.

How to Cite Thrikkadeeri, K., and A. Viswanathan (2024). Despite short-lived changes, COVID-19 pandemic had minimal large-scale impact on citizen science participation in India. Ornithological Applications 126:duae024.

LAY SUMMARY

Citizen science platforms like eBird comprise vast repositories of data generated by casual birdwatching.
Such data are vital to understanding bird population trends, but large changes in how birdwatchers watch birds from year to year can be very challenging to account for when estimating trends.
Given the impact of the COVID-19 pandemic on our everyday lives, we investigated whether it also impacted the way people reported birds, thereby potentially reducing the value of the data for trend analyses.
We analyzed data uploaded to eBird from India and found that the impacts of the pandemic on how these data were collected were largely restricted to April and May 2020. During these months that coincided with the greatest health impacts and movement restrictions, birdwatchers made fewer traveling lists, and made fewer lists in groups and at public locations.
Birdwatchers were quick to bounce back from these difficult periods, and soon started birdwatching like they had done before the pandemic.
Because the pandemic impact on characteristics of eBird data from India was limited to short periods, we conclude that the data still remain useful for analyses of bird abundance trends.

Muchas partes del mundo carecen de las grandes y coordinadas redes de voluntarios necesarias para el monitoreo sistemático de las poblaciones de aves. En estas regiones, los programas de ciencia ciudadana ofrecen una alternativa con sus datos semiestructurados, pero la utilidad de estos datos depende de cómo, dónde y cuán comparativamente los observadores de aves censan las aves, año tras año. Las tendencias inferidas de los datos pueden verse confundidas durante años en los que los observadores de aves pueden comportarse de manera diferente, como durante la pandemia de COVID-19. Queríamos determinar cómo los datos subidos desde la India a una de las plataformas de ciencia ciudadana, eBird, se vieron afectados por esta mortal pandemia global. Para entender si los datos de eBird de los años de pandemia en la India son comparables con los datos de años adyacentes, exploramos varias características de los datos, como la frecuencia con que la gente observaba aves en grupos o en lugares públicos, a múltiples escalas espaciales y temporales. Encontramos que el volumen de datos generados aumentó durante los años de pandemia 2020–2021 en comparación con 2019. Las características de los datos cambiaron en gran medida solo durante los meses pico de la pandemia (abril-mayo de 2020 y abril-mayo de 2021), asociados con altas tasas de mortalidad y confinamientos estrictos. Estos cambios en las características de los datos (e.g., mayor fidelidad al sitio y menos observación de aves en grupo) se debieron posiblemente a la disminución de la movilidad humana y de la interacción social en estos períodos. Los datos del resto de estos años restrictivos se mantuvieron similares a los de los años adyacentes, reduciendo así el impacto de los meses con distorsiones pico en cualquier inferencia anual. Nuestros hallazgos muestran que los observadores de aves en la India, como contribuyentes a la ciencia ciudadana, regresaron rápidamente a su comportamiento previo a la pandemia, y que los efectos de la pandemia en el esfuerzo de observación de aves y en el comportamiento de los observadores de aves dependen de la escala y el contexto. En resumen, los datos de eBird de los años de pandemia en la India siguen siendo útiles para la estimación de tendencias de abundancia y aplicaciones similares a gran escala, pero puede ser beneficioso verificar preliminarmente la calidad de los datos cuando se utilicen a una escala fina.

Positive correlation between Ammospiza caudacuta (Saltmarsh Sparrow) capture and productivity supports use of a novel rapid assessment monitoring protocol

Arthur Sanchez Jr., Mackenzie R. Roeder, Brian J. Olsen, Elisa C. Elizondo, Katharine J. Ruskin, Alice M. Hotopp, Chris S. Elphick, Sam E. Apgar, Christopher R. Field, Jonathan B. Cohen, Alison R. Kocek, Adrienne I. Kovach, Rebecca A. Longenecker, W. Gregory Shriver

Ornithological Applications 126 (4), 1-11, (11 July 2024) https://doi.org/10.1093/ornithapp/duae027

KEYWORDS: Ammospiza caudacuta, nest survival, population monitoring, tidal marsh, Ammospiza caudacuta, marisma de marea, monitoreo de población, supervivencia del nido

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Salt marshes in the northeastern United States provide critical breeding habitat for tidal marsh specialist birds like the Ammospiza caudacuta (Saltmarsh Sparrow). The Ammospiza caudacuta population declined by 9% annually from 1998 to 2012, necessitating immediate conservation actions for this vulnerable species. However, estimating species vital rates across a large geographic region is logistically challenging and cost prohibitive. Therefore, we developed and tested a rapid assessment monitoring protocol focused on reproductive metrics to enhance future conservation planning. We used 3 years (2018, 2019, and 2021) of intensive demographic data from 12 sites to estimate daily nest survival, nest period success, fledglings produced per female, and successful broods per female. We implemented the rapid assessment protocol co-located at intensive sites in the same years to estimate the number of captured females and juveniles. We used Pearson's correlation analyses to determine the association of intensive metrics with rapid metrics. We found that the sum of Ammospiza caudacuta female and juvenile captures was positively correlated with daily nest survival (r = 0.61, P = 0.01), nest period success (r = 0.70, P = 0.002), fledglings produced per female (r = 0.82, P < 0.001), and successful broods per female (r = 0.82, P < 0.001). Our results demonstrate that fixed-effort mist-netting from our rapid assessment protocol is an informative and time-efficient sampling method that can aid in making informed management decisions related to Ammospiza caudacuta conservation.

How to Cite Sanchez Jr., A., M. R. Roeder, B. J. Olsen, E. C. Elizondo, K. J. Ruskin, A. M. Hotopp, C. S. Elphick, S. E. Apgar, C. R. Field, J. B. Cohen, A. R. Kocek, A. I. Kovach, R. A. Longenecker, and W. G. Shriver (2024). Positive correlation between Ammospiza caudacuta (Saltmarsh Sparrow) capture and productivity supports use of a novel rapid assessment monitoring protocol. Ornithological Applications 126:duae027.

LAY SUMMARY

Long-term monitoring is an important tool for understanding population status and trends, especially when a species is facing predicted extinction. It is also important to develop novel monitoring methods that can inform us about how species demographic parameters respond to management actions designed to aid in their recovery.
We developed and tested an informative and time-efficient sampling method for determining Ammospiza caudacuta (Saltmarsh Sparrow) productivity. Our protocol can be used to inform where specific management actions can be taken as well as monitor the outcome of those actions.
We found positive correlations between intensive and rapid assessment monitoring protocols for the Ammospiza caudacuta providing justification for using the rapid assessment monitoring protocol to assess Ammospiza caudacuta productivity.
The rapid assessment protocol was substantially more efficient and spatially extensive than the intensive demographic protocol.

Los pantanos salados en el noreste de los Estados Unidos proporcionan un hábitat de reproducción crítico para aves especialistas en marismas de marea como Ammospiza caudacuta. La población de A. caudacuta disminuyó un 9% anualmente desde 1998 hasta 2012, lo que requiere acciones de conservación inmediatas para esta especie vulnerable. Sin embargo, estimar las tasas vitales de las especies en una región geográfica grande es logísticamente desafiante y prohibitivo en términos de costos. Por lo tanto, desarrollamos y probamos un protocolo de monitoreo de evaluación rápida enfocado en métricas reproductivas para mejorar la planificación de la conservación futura. Utilizamos 3 años (2018, 2019 y 2021) de datos demográficos intensivos provenientes de 12 sitios para estimar la supervivencia diaria del nido, el éxito del período del nido, los volantones producidos por hembra y las nidadas exitosas por hembra. Implementamos el protocolo de evaluación rápida ubicado en sitios intensivos en los mismos años para estimar el número de hembras y juveniles capturados. Utilizamos análisis de correlación de Pearson para determinar la asociación de métricas intensivas con métricas rápidas. Encontramos que la suma de capturas de hembras y juveniles de A. caudacuta estaba positivamente correlacionada con la supervivencia diaria del nido (r = 0.61, P = 0.01), el éxito del período del nido (r = 0.70, P = 0.002), los volantones producidos por hembra (r = 0.82, P < 0.001) y las nidadas exitosas por hembra (r = 0.82, P < 0.001). Nuestros resultados demuestran que el uso de redes de niebla con esfuerzo fijo empleando nuestro protocolo de evaluación rápida es un método de muestreo informativo y eficiente en cuanto a tiempo que puede ayudar a tomar decisiones de manejo informadas relacionadas con la conservación de A. caudacuta.

Extreme weather has variable effects on reproductive success of grassland songbirds at the northern extent of their range

Ryan J. Fisher, Stephen K. Davis

Ornithological Applications 126 (4), 1-14, (16 July 2024) https://doi.org/10.1093/ornithapp/duae028

KEYWORDS: fledging success, grassland bird, Great Plains, nest survival, Precipitation, reproductive success, temperature, succès d'envol, oiseau des prairies, grandes plaines, survie du nid, précipitations, succès reproducteur, température

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Grassland songbirds breeding in Canada and the United States have experienced significant population declines likely because of habitat loss and degradation. Many climate change models predict an increase in the frequency, intensity, and duration of extreme precipitation and temperature events that could place further pressures on declining species. We monitored the fate of 1,868 individual nesting attempts of 7 grassland songbird species in response to various precipitation and temperature measures over a 10-yr period (1997 to 2002 and 2004 to 2008) in Saskatchewan, Canada. Daily nest survival rates of 5 species, including 3 at-risk species, were negatively influenced by high levels of precipitation, although the amount of precipitation where declines in daily nest survival occurred varied. Daily nest survival rates of 2 species were negatively correlated with high temperatures. We failed to detect any relationship between precipitation or temperature and the number of fledglings produced from successful nests. Extreme weather events could add additional stressors to declining populations of grassland birds in Canada. Increases in the frequency and intensity of extreme weather, specifically extreme precipitation events and short-term high temperatures, will likely lead to lower reproductive success for several species compared to current levels. This may be especially problematic for management of Anthus spragueii (Sprague's Pipit) and Centronyx bairdii (Baird's Sparrow), where a large proportion (> 75%) of the breeding population occurs near the northern edge of the Great Plains. The continuing loss and degradation of northern grasslands may limit the ability of these species to disperse and find favorable climate conditions.

How to Cite Fisher, R. J., and S. K. Davis (2024). Extreme weather has variable effects on reproductive success of grassland songbirds at the northern extent of their range. Ornithological Applications 126:duae028.

LAY SUMMARY

Precipitation and temperature extremes may adversely affect reproductive success of grassland songbirds.
We studied how inclement weather affected reproductive success of seven grassland songbird species in Saskatchewan, Canada—an area at the northern extent of many of these species' ranges.
Passerculus sandwichensis (Savannah Sparrow), Anthus spragueii (Sprague's Pipit), Centronyx bairdii (Baird's Sparrow), and Poecetes gramineus (Vesper Sparrow) all experienced lower reproductive success after periods of heavy rain. Daily nest survival of Calcarius ornatus (Chestnut-collared Longspur) was highest at intermediate levels of precipitation. Spizella pallida (Clay-colored Sparrow) reproductive success increased after periods of heavy rain.
Reproductive success of P. sandwichensis started to decrease when mean daily maximum temperature was 25 °C and similarly, A. spragueii daily nest survival started to decrease when mean minimum temperatures exceeded 15 °C. Poecetes gramineus reproductive success increased with increased temperature.
Current and climate-change induced increases in the frequency, intensity, and duration of extreme weather could adversely affect multiple grassland songbird species.

Les oiseaux chanteurs des prairies se reproduisant au Canada et aux États-Unis ont connu un déclin important de leurs populations, probablement en raison de la perte et de la dégradation de leur habitat. De nombreux modèles de changements climatiques prédisent une augmentation de la fréquence, de l'intensité et de la durée des événements de précipitations et de températures extrêmes, ce qui pourrait accroître la pression sur les espèces en déclin. Nous avons évalué la survie des nids dans 1 868 tentatives de nidification individuelles de 7 espèces d'oiseaux chanteurs des prairies en réponse à divers niveaux de précipitations et de température sur une période de 10 ans (1997-2002 et 2004-2008) en Saskatchewan, au Canada. Les taux de survie quotidiens des nids de 5 espèces, incluant 3 espèces en péril, ont été influencés négativement par des niveaux élevés de précipitations, bien que la quantité de précipitations au moment des diminutions dans la survie quotidienne des nids ait varié. Les taux de survie quotidiens des nids de 2 espèces étaient négativement corrélés avec des températures élevées. Nous n'avons pas détecté de relation entre les précipitations ou la température et le nombre d'oisillons ayant atteint l'envol. Les événements météorologiques extrêmes pourraient ajouter un stress supplémentaire pour les populations d'oiseaux des prairies en déclin au Canada. L'augmentation de la fréquence et de l'intensité des conditions météorologiques extrêmes, en particulier les événements de précipitations extrêmes et les températures élevées de courte durée, entraînera probablement une baisse du succès reproducteur chez plusieurs espèces par rapport aux niveaux actuels. Ceci pourrait être particulièrement problématique pour la gestion d'Anthus spragueii et de Centronyx bairdii, pour lesquels une grande partie de la population reproductrice (> 75 %) niche près de la limite nord des Grandes Plaines. La perte et la dégradation continues des prairies nordiques peut limiter la capacité de ces espèces à se disperser et à trouver des conditions climatiques favorables.

Two listeners detect slightly more birds than a single listener when interpreting acoustic recordings

David T. Iles, Charles M. Francis, Adam C. Smith, Russ Weeber, Christian Friis, Lindsay Daly

Ornithological Applications 126 (4), 1-9, (16 July 2024) https://doi.org/10.1093/ornithapp/duae030

KEYWORDS: abundance, acoustic recordings, Breeding Bird Survey, disagreement, multiple listeners, occurrence, population estimate, species list, abondance, enregistrements acoustiques, relevé des oiseaux nicheurs, désaccord, auditeurs multiples, occurrence, estimation de la population, liste d'espèces

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Acoustic recorders are increasingly important for monitoring bird populations and have potential to augment existing monitoring programs such as the North American Breeding Bird Survey (BBS). An advantage of acoustic recordings is that they can be reviewed multiple times by multiple experts, potentially yielding improved estimates of species abundance and community richness. Yet, few studies have examined how frequently successive listeners disagree on acoustic interpretations and how strongly estimates of species richness and abundance are altered when multiple experts review each recording. We assigned multiple expert listeners to interpret recordings at 690 BBS stops, and subsequently assigned second listeners to conduct a review of first listeners' interpretations. We examined the extent to which listeners agreed with each other and quantified the effect of disagreements on resultant estimates of species occurrence, abundance, and stop-level richness. We also compared estimates from acoustic recordings to those obtained during simultaneous field surveys. Estimates were highly correlated for number of species per stop (r = 0.92) and detection probabilities of species (r = 0.97) based on first and second-listener data. Second listeners disagreed with ∼9% of first listeners' interpretations and added an average of ∼15% additional species and 16% additional birds not reported by first listeners. Estimates based on acoustic recordings were also highly correlated with those obtained from field surveys, though listeners were unable to count flocks. A single expert reviewer can provide a reasonable approximation of the relative abundance and species composition of birds available for acoustic detection during BBSs. However, acoustic review by multiple listeners may still be important for species that are rare, difficult to identify, or of high conservation concern.

How to Cite Iles, D. T., C. M. Francis, A. C. Smith, R. Weeber, C. Friis, and L. Daly (2024). Two listeners detect slightly more birds than a single listener when interpreting acoustic recordings. Ornithological Applications 126:duae030.

LAY SUMMARY

Acoustic recordings have become an important tool for monitoring bird populations, but few studies have examined how often experts disagree about their interpretations of recordings. If experts disagree often, it may be important to have multiple experts review each recording to achieve consensus.
In our study, experts “tagged” individual birds heard on each of 690 field recordings, and additional experts reviewed their tags. We asked: (1) how often do experts agree with the original listener, and (2) how much do the species lists and total bird counts change when 2 listeners review each recording?
We found that second listeners agreed with the vast majority (>90%) of first listener's tags, and only added a small number of extra birds and species.
The effects of second listeners were small, on average, but may still be important for species that are rare, difficult to identify, or of high conservation concern.

Les enregistreurs acoustiques sont de plus en plus importants pour le suivi des populations d'oiseaux et ils ont le potentiel d'améliorer les programmes de suivi existants, comme le Relevé des oiseaux nicheurs de l'Amérique du Nord (BBS). L'un des avantages des enregistrements acoustiques est qu'ils peuvent être examinés plusieurs fois par plusieurs experts, ce qui permet potentiellement d'améliorer les estimations d'abondance spécifique et de richesse des communautés. Cependant, peu d'études ont examiné la fréquence à laquelle des auditeurs successifs sont en désaccord sur les interprétations acoustiques et comment les estimations de richesse spécifique et d'abondance spécifique sont altérées lorsque plusieurs experts examinent chaque enregistrement. Nous avons demandé à plusieurs auditeurs experts d'interpréter les enregistrements de 690 stations du BBS et nous avons demandé à de seconds auditeurs de revoir les interprétations des premiers auditeurs. Nous avons examiné dans quelle mesure les auditeurs étaient d'accord entre eux et nous avons quantifié l'effet des désaccords sur les estimations de la présence, de l'abondance et de la richesse des espèces au niveau des stations. Nous avons aussi comparé les estimations issues des enregistrements acoustiques à celles obtenues par des inventaires au terrain simultanés. Les estimations étaient fortement corrélées pour le nombre d'espèces par station (r = 0,92) et les probabilités de détection des espèces (r = 0,97) sur la base des données des premiers et seconds auditeurs. Les seconds auditeurs n'étaient pas d'accord avec ∼9 % des interprétations des premiers auditeurs et ont ajouté en moyenne ∼15 % d'espèces additionnelles et 16 % d'oiseaux additionnels non rapportés par les premiers auditeurs. Les estimations basées sur les enregistrements acoustiques étaient également fortement corrélées à celles obtenues à partir d'inventaires au terrain, bien que les auditeurs n'aient pas été en mesure de compter les groupes d'oiseaux. Un seul réviseur expert peut fournir une approximation raisonnable de l'abondance relative et de la composition spécifique des oiseaux disponibles pour la détection acoustique pendant le BBS. Cependant, l'examen acoustique par plusieurs auditeurs peut encore être important pour les espèces rares, difficiles à identifier ou dont la conservation est très préoccupante.

Nonbreeding distributions of four declining Nearctic–Neotropical migrants are predicted to contract under future climate and socioeconomic scenarios

Ryan E. Brodie, Nicholas J. Bayly, Ana M. González, Jessica Hightower, Jeffery L. Larkin, Rebecca L. M. Stewart, Scott Wilson, Amber M. Roth

Ornithological Applications 126 (4), 1-18, (23 July 2024) https://doi.org/10.1093/ornithapp/duae032

KEYWORDS: climate change, conservation planning, distribution contraction, focal areas, land cover change, land use change, migratory birds, Neotropics, áreas focales, aves migratorias, Cambio climático, cambio de uso del suelo, cambio en la cobertura del suelo, contracción de la distribución, Neotrópico, planes de conservación

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Climate and land use/land cover change are expected to influence the stationary nonbreeding distributions of 4 Nearctic–Neotropical migrant bird species experiencing population declines: Cardellina canadensis (Canada Warbler), Setophaga cerulea (Cerulean Warbler), Vermivora chrysoptera (Golden-winged Warbler), and Hylocichla mustelina (Wood Thrush). Understanding how and where these species' distributions shift in response to environmental drivers is critical to inform conservation planning in the Neotropics. For each species, we quantified current (2012 to 2021) and projected future (2050) suitable climatic and land use/land cover conditions as components of stationary nonbreeding distributions. Multi-source occurrence data were used in an ensemble modeling approach with covariates from 3 global coupled climate models (CMCC-ESM2, FIO-ESM-2-0, MIROC-ES2L) and 2 shared socioeconomic pathways (SSP2-RCP4.5, SSP5-RCP8.5) to predict distributions in response to varying climatic and land use/land cover conditions. Our findings suggest that distribution contraction, upslope elevational shifts in suitable conditions, and limited shifts in latitude and longitude will occur in 3 of 4 species. Cardellina canadensis and S. cerulea are expected to experience a moderate distribution contraction (7% to 29% and 19% to 43%, respectively), primarily in response to expected temperature changes. The V. chrysoptera distribution was modeled by sex, and females and males were projected to experience a major distribution contraction (56% to 79% loss in suitable conditions for females, 46% to 65% for males), accompanied by shifts in peak densities to higher elevations with minimal changes in the upper elevation limit. Expected changes in precipitation had the greatest effect on V. chrysoptera. Hylocichla mustelina experienced the smallest distribution change, consistent with the species' flexibility in habitat selection and broader elevational range. We recommend defining priority areas for conservation as those where suitable conditions are expected to remain or arise in the next 25 years. For V. chrysoptera in particular, it is urgent to ensure that mid-elevation forests in Costa Rica and Honduras are adequately managed and protected.

How to Cite Brodie, R. E., N. J. Bayly, A. M. González, J. Hightower, J. L. Larkin, R. L. M. Stewart, S. Wilson, and A. M. Roth (2024). Nonbreeding distributions of four declining Nearctic–Neotropical migrants are predicted to contract under future climate and socioeconomic scenarios. Ornithological Applications 126:duae032.

LAY SUMMARY

We predicted nonbreeding distribution changes between current (2012 to 2021) and future (2050) timeframes for 4 at-risk migratory landbirds wintering in the Neotropics.
The distribution of each species is predicted to notably contract and shift minimally in latitude and longitude.
Cardellina canadensis (Canada Warbler) and Setophaga cerulea (Cerulean Warbler) occupy similar habitats in northern South America and respond to climate and land use/land cover change by shifting upslope in elevation.
Precipitation patterns had the greatest influence on the distribution of Vermivora chrysoptera (Golden-winged Warbler), and distribution contraction was most severe for this species.
Hylocichla mustelina (Wood Thrush) is predicted to be the least affected of the 4 species studied by changing environments.
Methods used in this study can improve identification and prioritization of protected and conserved areas in the near-term that can be applied to conservation planning.

Se espera que el cambio climático y los cambios en el uso/cobertura del suelo influyen en la distribución no-reproductiva de cuatro especies de aves migratorias neártico-neotropicales en declive: Cardellina canadensis, Setophaga cerulea, Vermivora chrysoptera y Hylocichla mustelina. Comprender cómo y dónde cambian las distribuciones de estas especies en respuesta a los factores detonantes ambientales es fundamental para informar a los procesos de conservación en el Neotrópico. Para cada especie, cuantificamos las condiciones climáticas y las coberturas del suelo óptimas para el periodo actual (2012 a 2021) y para el futuro (2050), como componentes de la distribución no reproductiva estacionaria. Al juntar datos de múltiples fuentes sobre la presencia de aves, utilizamos el método de modelos de conjuntos con covariables de tres modelos climáticos globales (CMCC-EMS2, FIO-ESM-2-0, MIROC-ES2L) y dos trayectorias socioeconómicas compartidas (SSP2-RCP4.5, SSP5-RCP8.5) para predecir la distribución de las aves en respuesta a diferentes condiciones climáticas y de uso del suelo. Nuestros hallazgos sugieren que 3 de las 4 especies estudiadas experimentarán una contracción en su distribución, acompañada por un desplazamiento en las condiciones óptimas hacia elevaciones mayores y cambios limitados en latitud y longitud. Se encontró que C. canadensis y S. cerulea sufrirán una contracción moderada de distribución (7 al 29% y 19 al 43%, respectivamente) en respuesta a los cambios esperados, principalmente por aumentos en temperatura. La distribución no-reproductiva de V. chrysoptera se modeló por sexo, y se proyectó que las hembras (♀) y los machos (♂) experimentarán una fuerte contracción de distribución (una reducción de 56 al 79% en las condiciones aptas para ♀ y de 46 al 65% para ♂), acompañado por aumentos en abundancia a elevaciones mayores, pero con un cambio mínimo en el límite de elevación superior. Los cambios esperados en los patrones de precipitación tuvieron el mayor efecto en V. chrysoptera. Los cambios esperados en H. mustelina fueron menores, lo cual es consistente con su flexibilidad ante la selección de hábitat y su uso de un amplio rango de elevaciones. Recomendamos definir áreas prioritarias para la conservación como aquellas donde se espera que las condiciones óptimas se mantengan o aparecerán en los próximos 25 años. Para V. chrysoptera, en particular, es urgente asegurar la gestión y protección adecuada para los bosques a elevaciones medias en Costa Rica y Honduras.

The Amazon Basin's rivers and lakes support Nearctic-breeding shorebirds during southward migration

Jennifer A. Linscott, Enzo Basso, Rosalyn Bathrick, Juliana Bosi de Almeida, Alexandra M. Anderson, Fernando Angulo-Pratolongo, Bart M. Ballard, Joël Bêty, Stephen C. Brown, Katherine S. Christie, Sarah J. Clements, Christian Friis, Callie Gesmundo, Marie-Andrée Giroux, Autumn-Lynn Harrison, Christopher M. Harwood, Jason M. Hill, James A. Johnson, Bart Kempenaers, Benoit Laliberté, Jean-Francois Lamarre, Richard B. Lanctot, Christopher Latty, Nicolas Lecomte, Laura A. McDuffie, Juan G. Navedo, Erica Nol, Zachary M. Pohlen, Jennie Rausch, Rosalind B. Renfrew, Jorge Ruiz, Mike Russell, Daniel R. Ruthrauff, Sarah T. Saalfeld, Brett K. Sandercock, Shiloh A. Schulte, Paul A. Smith, Audrey R. Taylor, T. Lee Tibbitts, Mihai Valcu, Mitch D. Weegman, James R. Wright, Nathan R. Senner

Ornithological Applications 126 (4), 1-18, (9 August 2024) https://doi.org/10.1093/ornithapp/duae034

KEYWORDS: Amazon Basin, migration, Shorebirds, stopover sites, aves playeras, cuenca amazónica, migración, sitios de parada

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Identifying the migration routes and stopover sites used by declining species is critical for developing targeted conservation actions. Long-distance migratory shorebirds are among the groups of birds declining most rapidly, yet we frequently lack detailed knowledge about the routes and stopover sites they use during their hemisphere-spanning migrations. This is especially true for species that migrate through mid-continental regions in the Western Hemisphere. We therefore used satellite transmitters to track 212 individuals of 6 shorebird species during their southward migrations—Pluvialis dominica (American Golden-Plover), Limosa haemastica (Hudsonian Godwit), Tringa flavipes (Lesser Yellowlegs), Calidris subruficollis (Buff-breasted Sandpiper), C. melanotos (Pectoral Sandpiper), and Bartramia longicauda (Upland Sandpiper)—as they crossed the Amazon Basin of South America, a region from which reports of shorebird numbers are increasing but remain relatively rare. Our results make clear that the Amazon Basin provides stopover habitat for a large number of shorebirds: more than 74% of individuals tracked crossing the Amazon Basin stopped over in the region for an average of 2–14 days, with some spending the entire nonbreeding season there. All species selected stopover sites along the region's many rivers and lakes, while within stopover sites each species exhibited distinct habitat preferences. The timing of stopovers within sub-basins of the Amazon Basin also coincided with periods of low water, when the muddy, shallow water habitats preferred by most shorebirds are likely plentiful. Together, our results highlight the need for detailed investigations into shorebird abundance and distribution within the Amazon Basin, threats to shorebirds within particular subbasins, and links between shorebird conservation efforts and those targeting the myriad other species that inhabit this dynamic, hyper-diverse region.

How to Cite Linscott, J. A., E. Basso, R. Bathrick, J. Bosi de Almeida, A. M. Anderson, F. Angulo-Pratolongo, B. M. Ballard, J. Bêty, S. C. Brown, K. S. Christie, S. J. Clements, C. Friis, C. Gesmundo, M.-A. Giroux, A.-L. Harrison, C. M. Harwood, J. M. Hill, J. A. Johnson, B. Kempenaers, B. Laliberté, J.-F. Lamarre, R. B. Lanctot, C. Latty, N. Lecomte, L. A. McDuffie, J. G. Navedo, E. Nol, Z. M. Pohlen, J. Rausch, R. B. Renfrew, J. Ruiz, M. Russell, D. R. Ruthrauff, S. T. Saalfeld, B. K. Sandercock, S. A. Schulte, P. A. Smith, A. R. Taylor, T. L. Tibbitts, M. Valcu, M. D. Weegman, J. R. Wright, and N. R. Senner (2024). The Amazon Basin's rivers and lakes support Nearctic-breeding shorebirds during southward migration. Ornithological Applications 126:duae034.

LAY SUMMARY

Long-distance migratory shorebirds are declining worldwide. For many of these species, we lack essential information about their habitats throughout the year, including the stopover sites they use during migration.
In the Western Hemisphere, information is particularly lacking for the midcontinent of South America, a region that several shorebird species may cross during their southward migrations.
We examine satellite tracking data from 6 shorebird species to show that stops in the Amazon Basin are surprisingly common, occurring in more than 74% of southward migratory tracks.
Shorebirds selected stopover sites along rivers and lakes and exhibited distinct local-scale habitat preferences.These results highlight the need for detailed investigations into shorebird abundance and stopover site characteristics within the Amazon Basin, as well as potential links to broader conservation efforts.

Identificar las rutas migratorias y los sitios de parada utilizados por las especies en declive es crucial para desarrollar acciones de conservación específicas. Las aves playeras migratorias de larga distancia están entre los grupos de aves que disminuyen más rápidamente, pero con frecuencia carecemos de conocimientos detallados sobre las rutas y los sitios de parada que utilizan durante sus migraciones de magnitud hemisférica. Esto es especialmente cierto para las especies que migran a través de las regiones medio-continentales del Hemisferio Occidental. Por lo tanto, utilizamos transmisores satelitales para rastrear a 212 individuos de 6 especies de aves playeras durante sus migraciones hacia el sur—Pluvialis dominica, Limosa haemastica,Tringa flavipes, Calidris subruficollis, C. melanotos y Bartramia longicauda—mientras cruzaban la cuenca amazónica de América del Sur, una región en la cual los estudios sobre el número de aves playeras están aumentando, pero siguen siendo relativamente raros. Nuestros resultados dejan claro que la cuenca amazónica proporciona hábitat de parada para un gran número de aves playeras: más del 74% de los individuos rastreados que cruzaron la cuenca amazónica se detuvieron en la región durante un promedio de 2 a 14 días, y algunos pasaron toda la temporada no reproductiva allí. Todas las especies seleccionaron sitios de parada a lo largo de los numerosos ríos y lagos de la región, mientras que dentro de los sitios de parada cada especie mostró preferencias de hábitat distintas. El momento de las paradas dentro de las subcuencas de la cuenca amazónica también coincidió con períodos de aguas bajas, cuando los hábitats de aguas poco profundas y fangosas preferidos por la mayoría de las aves playeras son probablemente abundantes. En conjunto, nuestros resultados destacan la necesidad de investigaciones detalladas sobre la abundancia y distribución de las aves playeras dentro de la cuenca amazónica, las amenazas a las aves playeras dentro de subcuencas particulares, y los vínculos entre los esfuerzos de conservación de las aves playeras y aquellos dirigidos a la miríada de otras especies que habitan esta región dinámica y de gran diversidad.

Cellular network measurements can unravel spatiotemporal properties of bird movement to enhance basic and applied knowledge globally

Daniel Ben Moshe, Hagit Messer, Yuval Werber, Nir Sapir

Ornithological Applications 126 (4), 1-8, (10 August 2024) https://doi.org/10.1093/ornithapp/duae035

KEYWORDS: bird movement, cellular networks, commercial microwave links, global bird bioflow, long-term monitoring, radar ornithology, remote sensing, signal attenuation, atenuación de señal, bioflujo global de aves, enlaces de microondas comerciales, monitoreo a largo plazo, movimiento de aves, ornitología por radar, redes celulares, teledetección

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A major problem in studying bird movement in many countries is data scarcity, precluding information about the spatial and temporal properties of avian distribution and dynamics as well as their consequences for human lives. We address this problem by proposing an innovative approach based on the relation between counts of signal attenuation of wireless communication to the presence of birds across or near wireless links of cellular backhaul networks. Wireless point-to-point communication links, on either ground level or earth-satellite links, cover the globe. We statistically relate between signal attenuation in terrestrial Commercial Microwave Links (CMLs) and bird migration. Because modern communication systems measure and often log signal levels routinely, we propose using existing signal level measurements of cellular and other wireless communication systems around the world as sensors for monitoring bird movement. Using actual measurements from operational CMLs, we show that the daily cycle of signal attenuation during bird migration periods matched that of the water-bird migration traffic rate recorded by nearby bird radar. This demonstrates the potential of the proposed method for opportunistic bird movement monitoring by CMLs across the globe, with no additional hardware installation, maintenance, or communication costs.

How to Cite Ben Moshe, D., H. Messer, Y. Werber, and N. Sapir (2024). Cellular network measurements can unravel spatiotemporal properties of bird movement to enhance basic and applied knowledge globally. Ornithological Applications 126:duae035.

LAY SUMMARY

Data deficiency is substantially hampering our knowledge of bird movement and its implications. By relating counts of signal attenuation of cellular communication networks to counts of migrating birds, we can opportunistically monitor bird movement with no installation, maintenance, or communication costs.
We propose that existing cellular network infrastructure can be used to characterize bird movement and demonstrate it by comparing attenuation distribution between spring (migration season) and summer (no migration season), and by relating hourly patterns of attenuation to the number of water birds counted by a nearby radar during spring migration in Southern Israel.
The further development and future application of this method could enhance our understanding of bird movement, including long-term monitoring, detection of phenological patterns and spatial gradients, as well as providing essential information for the mitigation of human-wildlife conflicts—especially bird–aircraft collisions at low altitudes by providing early warning of bird presence where radar coverage is limited.

Un problema importante en el estudio del movimiento de las aves en muchos países es la escasez de datos, lo que impide obtener información sobre las propiedades espaciales y temporales de la distribución y dinámica de las aves, así como sus consecuencias para la vida humana. Abordamos este problema proponiendo un enfoque innovador basado en la relación entre el conteo de la atenuación de la señal de la comunicación inalámbrica y la presencia de aves a lo largo o cerca de los enlaces inalámbricos de las redes de retorno de telefonía celular. Los enlaces de comunicación inalámbrica punto a punto, ya sea a nivel del suelo o tierra-satélite, cubren el globo. Relacionamos estadísticamente la atenuación de la señal en los Enlaces de Microondas Comerciales (EMC) terrestres y la migración de aves. Dado que los sistemas de comunicación modernos miden y registran rutinariamente los niveles de señal, proponemos utilizar las mediciones del nivel de señal existentes de los sistemas de comunicación de telefonía celular y otros sistemas de comunicación inalámbrica en todo el mundo como sensores para el monitoreo del movimiento de las aves. Usando mediciones reales de EMC operacionales, mostramos que el ciclo diario de atenuación de la señal durante los períodos de migración de las aves coincidió con la tasa de tráfico de migración de aves acuáticas registrada por un radar de aves cercano. Esto demuestra el potencial del método propuesto para el monitoreo oportunista del movimiento de las aves mediante EMC en todo el mundo, sin costos adicionales de instalación de hardware, mantenimiento o comunicación.

Despite regional variation, Gymnorhinus cyanocephalus (Pinyon Jay) densities generally increase with local pinyon–juniper cover and heterogeneous ground cover

Nicholas J. Van Lanen, Adrian P. Monroe, Cameron L. Aldridge

Ornithological Applications 126 (4), 1-13, (21 August 2024) https://doi.org/10.1093/ornithapp/duae036

KEYWORDS: conifer removal, Gymnorhinus cyanocephalus, habitat relationship, Pinyon jay, restoration, sagebrush, eliminación de coníferas, Gymnorhinus cyanocephalus, relación de hábitat, restauración, Artemisa

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Traditionally, local-scale habitat relationship models are developed over small spatial extents, limiting model transferability and inference outside the study area. Thus, habitat managers frequently lack fine-scale information regarding the influence of vegetation composition and structure on site suitability or species abundance. Gymnorhinus cyanocephalus (Pinyon Jay) represents one declining species for which managers have limited information regarding the influence that vegetation composition and structure have on abundance at broad scales.To address this need, we developed a hierarchical Bayesian abundance model using summertime bird and vegetation data collected under the Integrated Monitoring in Bird Conservation Regions program to explain jay abundance as a function of local conditions. Our G. cyanocephalus abundance model allowed abundance relationships with pinyon pine (Pinus edulis and P. monophylla) and juniper (Juniperus spp.) to vary by ecoregion, thereby accounting for potential regional differences in habitat associations. We found G. cyanocephalus abundance was generally positively associated with pinyon pine and juniper cover; however, habitat relationships varied by ecoregion. Additionally, we found positive associations between jay abundance and grass cover, sagebrush cover, and percent bare ground. Our results agree with prior research suggesting mechanical removal of pinyon pine and juniper trees for sagebrush restoration or fuel treatments may negatively affect G. cyanocephalus. Managers wishing to reduce pinyon and juniper tree cover without negatively affecting G. cyanocephalus may benefit from targeting sites where both large-scale distribution models and our local habitat relationships suggest G. cyanocephalus are likely to occur in low numbers. Additionally, our modeled relationships indicate restoration that increases grass cover, sagebrush cover, and bare ground, while maintaining pinyon and (or) juniper cover, may lead to increased local densities of G. cyanocephalus.

How to Cite Van Lanen, N. J., A. P. Monroe, and C. L. Aldridge (2024). Despite regional variation, Gymnorhinus cyanocephalus (Pinyon Jay) densities generally increase with local pinyon–juniper cover and heterogeneous ground cover. Ornithological Applications 126:duae036.

LAY SUMMARY

Gymnorhinus cyanocephalus (Pinyon Jay) have recently been proposed for listing under the Endangered Species Act due to range-wide population declines over the past several decades.
Drivers of jay population declines are largely unknown leaving managers unsure of which vegetation treatments might negatively or positively influence populations.
We employed a hierarchical Bayesian modeling approach to develop local-scale G. cyanocephalus abundance–habitat associations throughout much of the G. cyanocephalus range using vegetation and point-count data collected under the Integrated Monitoring in Bird Conservation Regions program (2008 to 2020). These associations can inform restoration efforts to enhance G. cyanocephalus habitat and populations.
We found G. cyanocephalus abundance was generally positively associated with pinyon pine and juniper cover; however, habitat relationships varied regionally. Jay abundance was also positively associated and grass cover, sagebrush cover, and percent bare ground.
Habitat management that increases cover values of the above characteristics may aid in the population recovery of G. cyanocephalus.

Tradicionalmente, los modelos de relación de hábitat a escala local se desarrollan en extensiones espaciales pequeñas, limitando la transferibilidad del modelo y la inferencia fuera del área de estudio. Por lo tanto, los gestores de hábitats frecuentemente carecen de información a escala fina sobre la influencia de la composición y estructura de la vegetación en la conveniencia del sitio o la abundancia de la especie. Gymnorhinus cyanocephalus representa una especie en declive para la cual los gestores tienen información limitada sobre la influencia que la composición y estructura de la vegetación tienen en la abundancia a gran escala. Para abordar esta necesidad, desarrollamos un modelo jerárquico bayesiano de abundancia utilizando datos de aves y de vegetación de verano recopilados bajo el programa de Monitoreo Integrado en Regiones de Conservación de Aves para explicar la abundancia de G. cyanocephalus en función de las condiciones locales. Nuestro modelo de abundancia de G. cyanocephalus permitió que las relaciones de abundancia con el pino piñonero (Pinus edulis y P. monophylla) y el enebro (Juniperus spp.) variaran según la ecorregión, teniendo en cuenta las posibles diferencias regionales en las asociaciones de hábitat. Encontramos que la abundancia de G. cyanocephalus generalmente se asociaba positivamente con la cobertura de pino piñonero y enebro; sin embargo, las relaciones de hábitat variaban según la ecorregión. Además, encontramos asociaciones positivas entre la abundancia de G. cyanocephalus y la cobertura de hierba, la cobertura de artemisa y el porcentaje de suelo desnudo. Nuestros resultados concuerdan con investigaciones previas que sugieren que la eliminación mecánica de árboles de pino piñonero y enebro para la restauración de artemisa o los tratamientos de combustible pueden afectar negativamente a G. cyanocephalus. Los gestores que deseen reducir la cobertura de árboles de pino piñonero y enebro sin afectar negativamente a G. cyanocephalus pueden beneficiarse de seleccionar sitios donde tanto los modelos de distribución a gran escala como nuestras relaciones de hábitat local sugieran que G. cyanocephalus se presente probablemente en números bajos. Además, nuestras relaciones modeladas indican que la restauración que aumente la cobertura de hierba, la cobertura de artemisa y el suelo desnudo, mientras se mantiene la cobertura de pino piñonero y (o) enebro, puede conducir a un aumento de las densidades locales de G. cyanocephalus.

Reduced representation sequencing reveals weak genetic differentiation between Canadian and European Larus hyperboreus (Glaucous Gull)

Emma Lachance Linklater, Sarah A. Sonsthagen, Gregory J. Robertson, Lila Colston-Nepali, Freydís Vigfúsdóttir, Vicki L. Friesen

Ornithological Applications 126 (4), 1-11, (26 August 2024) https://doi.org/10.1093/ornithapp/duae037

KEYWORDS: Arctic, ddRADseq, hybridization, Larus hyperboreus, population genetic structure, seabirds, Arctique, ddRADseq, hybridation, Larus hyperboreus, structure génétique des populations, oiseaux marins

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Climate change poses a significant threat to Arctic ecosystems. Evaluation of genetic diversity within and differentiation among populations is needed to effectively conserve Arctic species and ensure genetic variation is appropriately managed.This research examined the population genetic structure in Larus hyperboreus (Glaucous Gull), a circumpolar Arctic species that is declining in parts of its range. Population genetic information is needed to help delineate management units, including information on genetic differences among related species, among subspecies (currently distinguished by subtle morphometric and plumage differences), and among colonies in North America. We conducted double-digest restriction site-associated DNA sequencing for 62 L. hyperboreus, 18 L. argentatus smithsonianus (American Herring Gull), 6 L. a. argentatus (European Herring Gull), and 15 L. glaucescens (Glaucous-winged Gull) sampled across the Canadian and European Arctic. Interspecific analyses using 2,145 loci were unable to distinguish between all members of this species complex. Despite the geographic distance among sampling locations, molecular assignments and principal coordinates analyses based on 621 loci uncovered only weak population genetic differentiation among sampled European and Canadian colonies of L. hyperboreus. As L. hyperboreus occupying the eastern Canadian Arctic appears to be acting as a single panmictic population, conservation plans that protect Arctic habitat may help slow or reverse population declines. Proactive conservation strategies will benefit both L. hyperboreus and associated coastal Arctic ecosystems.

How to Cite Lachance Linklater, E., S. A. Sonsthagen, G. J. Robertson, L. Colston-Nepali, F. Vigfúsdóttir, and V. L. Friesen (2024). Reduced representation sequencing reveals weak genetic differentiation between Canadian and European Larus hyperboreus (Glaucous Gull). Ornithological Applications 126:duae037.

LAY SUMMARY

Larus hyperboreus (Glaucous Gull) is a circumpolar species experiencing local declines, but currently has scant population genetic information or genetic management plans.
DNA sequencing was conducted on L. hyperboreus, and 3 closely related gull taxa from the Canadian and European Arctic.
Our 2,145 loci were not sufficient to distinguish among 4 closely related gull taxa, which formed 3 genetic groups.
Weak population genetic differentiation was discovered between L. hyperboreus populations in Europe and Canada.
Larus hyperboreus in the Canadian Arctic appears to be acting as a panmictic population, and we suggest that the species could be managed as a single unit.

Les changements climatiques constituent une menace importante pour les écosystèmes arctiques. L'évaluation de la diversité génétique au sein des populations et la différentiation entre les populations est nécessaire pour une conservation efficace des espèces arctiques et pour s'assurer que la variation génétique est gérée de manière appropriée. Cette recherche a examiné la structure génétique des populations de Larus hyperboreus, une espèce arctique circumpolaire qui est en déclin dans certaines parties de son aire de répartition. Des données génétiques sur les populations sont nécessaires pour aider à délimiter des unités de gestion, y compris des données sur les différences génétiques entre espèces apparentées, entre sous-espèces (qui se distinguent actuellement par de subtiles différences morphométriques et de plumage) et entre les colonies de l'Amérique du Nord. Nous avons réalisé un séquençage de fragments d'ADN associés à des sites de restriction (ddRADseq) chez 62 L. hyperboreus, 18 L. argentatus smithsonianus, 6 L. a. argentatus et 15 L. glaucescens échantillonnés dans l'Arctique canadien et européen. Les analyses interspécifiques utilisant 2 145 loci n'ont pas permis de distinguer les membres de ce complexe d'espèces. Malgré la distance géographique entre les sites d'échantillonnage, les assignations moléculaires et les analyses de coordonnées principales basées sur 621 loci n'ont révélé qu'une faible différenciation génétique parmi les colonies canadiennes et européennes de L. hyperboreus échantillonnées. Puisque L. hyperboreus habitant l'est de l'Arctique canadien semble agir comme une seule population panmictique, les plans de conservation qui protègent l'habitat arctique peuvent contribuer à ralentir ou à inverser les déclins des populations. Les stratégies de conservation proactives seront bénéfiques aux populations de L. hyperboreus et aux écosystèmes arctiques côtiers auxquels elles sont associées.

Home ranges, habitat selection, and energy expenditure of Strix varia (Barred Owls): Understanding the full diel cycle matters for enhancing urban landscapes

Vitek Jirinec, Alessandra M. Bresnan, Marion A. Clément, Melanie R. Colón, Ashley M. Long, Garrett S. Rhyne, Patricia F. Rodrigues, Eliza D. Stein, Anna A. Pérez-Umphrey, Christina P. Varian, S. Tyler Williams, Sabrina S. Taylor

Ornithological Applications 126 (4), 1-18, (20 August 2024) https://doi.org/10.1093/ornithapp/duae038

KEYWORDS: Barred Owl, diel cycle, Energy expenditure, habitat selection, home range, Strix varia, urban environments, ciclo diario, entornos urbanos, gasto energético, rango de hogar, selección de hábitat, Strix varia

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We integrated GPS and accelerometer data to examine habitat selection and energy expenditure patterns across the diel cycle in Strix varia (Barred Owls), addressing a critical gap in wildlife research that often overlooks activity during the “inactive” phase. Owls in Baton Rouge, Louisiana, selected forests with tall canopies and open understories, particularly in affluent neighborhoods, supporting the “luxury effect” in urban biodiversity. Nocturnal home ranges were larger (31.8 ha) compared to diurnal home ranges (8.9 ha), indicating broader habitat use at night. The total area of preferred nocturnal habitat was 33% of the Baton Rouge study area, whereas preferred diurnal habitat comprised only 5%. Energy expenditure was inversely related to preference in nocturnal home ranges but increased with preference in diurnal home ranges. Our models were validated using independent data from Clemson, South Carolina, supporting the robustness of our analysis and revealing generalities in owl habitat selection across these regions. This research contributes to a deeper understanding of urban ecology, highlighting habitat components preferred by owls and possibly other forest-dwelling species. It emphasizes the difference in nocturnal and diurnal home range sizes, the scarcity of daytime refuges for S. varia in urban landscapes, and the variation in energy expenditure in preferred habitats. Our findings advocate for urban designs that accommodate wildlife activity throughout the day and night, and highlight the positive correlation between preferred owl habitat and affluent neighborhoods, underscoring the need for equitable distribution of green spaces to foster biodiversity across socioeconomic gradients. These insights will help develop strategies to enhance the ecological value of urban environments and the conservation of S. varia and associated forest-dwelling species in rapidly urbanizing areas.

How to Cite Jirinec, V., A. M. Bresnan, M. A. Clément, M. R. Colón, A. M. Long, G. S. Rhyne, P. F. Rodrigues, E. D. Stein, A. A. Pérez-Umphrey, C. P. Varian, S. T. Williams, and S. S. Taylor (2024). Home ranges, habitat selection, and energy expenditure of Strix varia (Barred Owls): Understanding the full diel cycle matters for enhancing urban landscapes. Ornithological Applications 126:duae038.

LAY SUMMARY

Preserving wildlife in urban areas benefits both local ecosystems and humans, and Strix varia (Barred Owls) may serve as a proxy species for conservation planning in urban forests.
We tracked S. varia in Baton Rouge, Louisiana, to understand how they use urban forests, the influence of home range size on energy expenditures, and associations between Barred Owl habitat selection and human affluence.
Strix varia primarily used forests, but we found differences in the distribution of diurnal versus nocturnal habitat, and the former was scarcer in the urbanized landscape we studied.
Use of preferred nocturnal habitat equated to lower energy expenditure, and preferred habitat was more prevalent in affluent neighborhoods. • The research highlights the importance of examining temporal variation in wildlife habitat selection and the value of urban green spaces.

Integramos datos de GPS y acelerómetros para examinar los patrones de selección de hábitat y gasto energético a lo largo del ciclo diario de Strix varia, abordando un vacío crítico en la investigación de la vida silvestre que a menudo pasa por alto la actividad durante la fase “inactiva.” Los búhos en Baton Rouge, Luisiana, seleccionaron bosques con copas altas y sotobosques abiertos, particularmente en vecindarios acomodados, apoyando el “efecto de lujo” en la biodiversidad urbana. Los rangos de hogar nocturnos fueron más grandes (31.8 ha) en comparación con los rangos de hogar diurnos (8.9 ha), lo que indica un uso más amplio del hábitat durante la noche. El área total del hábitat nocturno preferido fue un 33% del área de estudio en Baton Rouge, mientras que el hábitat diurno preferido comprendió solo un 5%. El gasto energético se relacionó inversamente con la preferencia en los rangos de hogar nocturnos, pero aumentó con la preferencia en los rangos de hogar diurnos. Nuestros modelos fueron validados utilizando datos independientes de Clemson, Carolina del Sur, respaldando la solidez de nuestro análisis y revelando generalidades en la selección de hábitat de los búhos en estas regiones. Esta investigación contribuye a una comprensión más profunda de la ecología urbana, destacando los componentes del hábitat preferidos por los búhos y posiblemente por otras especies que habitan en bosques. Se enfatiza la diferencia en los tamaños de los rangos de hogar nocturnos y diurnos, la escasez de refugios diurnos para S. varia en paisajes urbanos, y la variación en el gasto energético en los hábitats preferidos. Nuestros hallazgos abogan por diseños urbanos que consideren la actividad de la vida silvestre durante el día y la noche, y destacan la correlación positiva entre el hábitat preferido de los búhos y los vecindarios acomodados, subrayando la necesidad de una distribución equitativa de espacios verdes para fomentar la biodiversidad en los gradientes socioeconómicos. Estos hallazgos ayudarán a desarrollar estrategias para mejorar el valor ecológico de los entornos urbanos y la conservación de S. varia y las especies asociadas que habitan en bosques en áreas de rápida urbanización.

Spatial survival analysis accounts for female-biased breeding dispersal and provides realistic estimates of true annual survival in migratory warblers

Ronald L. Mumme

Ornithological Applications 126 (4), 1-13, (23 August 2024) https://doi.org/10.1093/ornithapp/duae040

KEYWORDS: annual survival, breeding dispersal, heavy-tailed dispersal kernel, migratory warblers, Parulidae, Setophaga citrina, spatial Cormack-Jolly-Seber models, currucas migratorias, dispersión reproductiva, modelos espaciales de Cormack-Jolly-Seber, núcleo de dispersión de cola pesada, Parulidae, Setophaga citrina, supervivencia anual

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Breeding dispersal—between-season change in breeding location—is usually female-biased in birds and creates problems in accurately estimating annual survival, as conventional Cormack-Jolly-Seber (CJS) survival models cannot discriminate between mortality and undetected emigration. Recently, spatial CJS (s-CJS) models have been developed that use data on breeding dispersal within a population to account for undetected emigration and provide corrected estimates of true annual survival, a development that promises to advance avian conservation initiatives that require accurate estimates of annual survival. Using a 14-year dataset on a color-banded population of Setophaga citrina (Hooded Warbler) in northwest Pennsylvania, I examined female-biased breeding dispersal and performance of an s-CJS model in estimating true annual survival of females and males. I also compared my findings to published literature on other migratory North American warblers, a group with many species of high conservation concern. Breeding dispersal in the S. citrina study population is strongly female-biased, with median dispersal distances of 151 m for females (n = 227) and 51 m (n = 336) for males. Although most individuals disperse short distances, the observed pattern of breeding dispersal within the study site was best modeled using a heavy-tailed Cauchy dispersal kernel, a model that indicates the presence of a substantial tail of undetected long-distance dispersal, particularly in females. Using the Cauchy model, s-CJS analysis yielded realistic estimates of S. citrina true annual survival, 0.61 for both sexes, and resolved ambiguities evident in much lower estimates of apparent annual survival, 0.45 for females and 0.54 for males, derived from conventional CJS analysis. Because long-distance breeding dispersal is widespread in migratory warblers and especially frequent in females, analyses of warbler survival should employ s-CJS methods whenever possible, as estimates of apparent annual survival derived from conventional CJS methods will in most cases poorly approximate true annual survival.

How to Cite Mumme, R. L. (2024). Spatial survival analysis accounts for female-biased breeding dispersal and provides realistic estimates of true annual survival in migratory warblers. Ornithological Applications 126:duae040.

LAY SUMMARY

In birds, between-year changes in breeding location are usually greater in females than males and make it difficult to distinguish mortality from undetected emigration.
Recently, methods called spatial CJS (s-CJS) models have been developed that use data on dispersal within a population to account for undetected emigration and provide corrected estimates of true annual survival.
I evaluated the performance of an s-CJS model in estimating true annual survival of Setophaga citrina (Hooded Warbler), based on a 14-year study of a color-banded population in Pennsylvania.
The s-CJS analysis accounted for female-biased breeding dispersal, producing realistic estimates of true annual survival—0.61 for both sexes—and resolving ambiguities evident in estimates derived from conventional methods.
s-CJS methods show considerable promise in providing accurate estimates of annual survival in migratory warblers, many of which are species of high conservation concern.

La dispersión reproductiva—cambio de lugar de cría entre estaciones—suele estar sesgada hacia las hembras en las aves y crea problemas en la estimación precisa de la supervivencia anual, ya que los modelos convencionales de supervivencia de Cormack-Jolly-Seber (CJS) no pueden diferenciar entre mortalidad y emigración no detectada. Recientemente, se han desarrollado modelos espaciales de CJS (e-CJS) que utilizan datos sobre la dispersión reproductiva dentro de una población para tener en cuenta la emigración no detectada y proporcionar estimaciones corregidas de la supervivencia anual real, un desarrollo que promete impulsar las iniciativas de conservación de aves que requieren estimaciones precisas de la supervivencia anual. Utilizando un set de datos de 14 años de una población de la curruca Setophaga citrina marcada con anillos de colores en el noroeste de Pensilvania, examiné la dispersión reproductiva sesgada hacia las hembras y el desempeño de un modelo e-CJS en la estimación de la supervivencia anual real de hembras y machos. También comparé mis hallazgos con la literatura publicada sobre otras currucas migratorias norteamericanas, un grupo con muchas especies de gran preocupación para la conservación. La dispersión reproductiva en la población de estudio de S. citrina está fuertemente sesgada hacia las hembras, con distancias medianas de dispersión de 151 m para hembras (n = 227) y 51 m (n = 336) para machos. Aunque la mayoría de los individuos se dispersan distancias cortas, el patrón observado de dispersión reproductiva dentro del sitio de estudio se modeló mejor utilizando un núcleo de dispersión de Cauchy de cola pesada, un modelo que indica la presencia de una cola sustancial de dispersión a larga distancia no detectada, particularmente en hembras. Usando el modelo de Cauchy, el análisis e-CJS produjo estimaciones realistas de la supervivencia anual real de S. citrina, 0,61 para ambos sexos, y resolvió las ambigüedades evidentes en estimaciones mucho más bajas de la supervivencia anual aparente, 0,45 para hembras y 0,54 para machos, derivadas del análisis convencional de CJS. Debido a que la dispersión reproductiva a larga distancia es algo común en las currucas migratorias y especialmente frecuente en las hembras, los análisis de supervivencia de las currucas deberían emplear métodos e-CJS siempre que sea posible, ya que las estimaciones de la supervivencia anual aparente derivadas de los métodos convencionales de CJS en la mayoría de los casos aproximarán mal la supervivencia anual real.

Informative priors can account for location uncertainty in stop-level analyses of the North American Breeding Bird Survey, allowing fine-scale ecological analyses

Ryan C. Burner, Alan Kirschbaum, Jeffrey A. Hostetler, David J. Ziolkowski Jr., Nicholas M. Anich, Daniel Turek, Eli D. Striegel, Neal D. Niemuth

Ornithological Applications 126 (4), 1-17, (14 September 2024) https://doi.org/10.1093/ornithapp/duae041

KEYWORDS: conservation planning, forest cover, grasslands, informative prior, location error, National Land Cover Database, North American Breeding Bird Survey, stop-level analyses, análisis a nivel de parada, Base de Datos Nacional de Cobertura del Suelo, Censo de Aves Reproductoras de América del Norte, cobertura forestal, error de ubicación, pastizales, planificación de la conservación, valores informativos previos

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Ecological inferences are often based on the locations at which species are present, but many species records have substantial uncertainty in spatial metadata, limiting their utility for fine-scale analyses. This is especially prevalent in historical records such as museum specimens, and in some citizen-science data. For example, the North American Breeding Bird Survey (BBS) has 55+ years of bird data from regular transects (“routes”) across the continent but was not designed to capture the spatial component of point count events, limiting analyses of species-habitat relationships for which it would otherwise be well suited. We present a new methodology for quantifying location uncertainty in BBS records using digitized estimated stop locations, deriving the corresponding environmental covariate uncertainty distributions, and incorporating this information into hierarchical species distribution models using informative Bayesian priors. This approach allows for estimation of species–environment relationships in a way that fully accounts for underlying spatial uncertainty. We quantify stop-location uncertainty in BBS data across the central United States, model bird–land cover relationships in the upper Midwest, and validate our method by comparing posterior land cover estimates to known covariate values for a subset of Global Positioning System (GPS)-digitized stop locations. We provide code for implementing this method in R. Posterior land cover estimates (forest, grass/hay, and developed land cover), based on our informative priors, were highly correlated with known land cover values from GPS-digitized stop locations. Our approach thus makes it possible to responsibly leverage large historical and citizen-science databases, such as the BBS, for fine-scale ecological analyses.

How to Cite Burner, R. C., A. Kirschbaum, J. A. Hostetler, D. J. Ziolkowski Jr., N. M. Anich, D. Turek, E. D. Striegel, and N. D. Niemuth (2024). Informative priors can account for location uncertainty in stop-level analyses of the North American Breeding Bird Survey (BBS), allowing fine-scale ecological analyses. Ornithological Applications 126:duae041.

LAY SUMMARY

Ecologists can learn a lot about species by studying the precise locations in which they do (and do not) occur, but the location information associated with many species records is imprecise.
This is true of the North American Breeding Bird Survey (BBS), in which volunteer observers have surveyed birds at points along consistent routes across the United States for over 55 years.
As the BBS was designed for large-scale analyses, detailed location information for each bird count is not recorded.
We estimate location uncertainty in point count locations for BBS data and present a modeling method that accounts for this uncertainty in a way that opens new possibilities for fine-scale uses of this extensive dataset, unlocking its potential to advance the study of the relationships between birds and their immediate habitat.

Las inferencias ecológicas a menudo se basan en las ubicaciones en las que están presentes las especies, pero muchos registros de especies tienen una incertidumbre sustancial en los metadatos espaciales, lo que limita su utilidad para análisis a escala fina. Esto es especialmente frecuente en registros históricos, como los especímenes de museos, y en algunos datos de ciencia ciudadana. Por ejemplo, el Censo de Aves Reproductoras de América del Norte (BBS por sus siglas en inglés) tiene más de 55 años de datos de aves de transectos regulares (“rutas”) a lo largo del continente, pero no fue diseñado para capturar el componente espacial de los eventos de conteo puntual, lo que limita los análisis de las relaciones especie-hábitat para los cuales, de otro modo, sería adecuado. Presentamos una nueva metodología para cuantificar la incertidumbre de la ubicación en registros de BBS utilizando ubicaciones de paradas estimadas digitalizadas, derivando las correspondientes distribuciones de incertidumbre de covariables ambientales e incorporando esta información en modelos jerárquicos de distribución de especies utilizando valores bayesianos informativos previos. Este enfoque permite estimar las relaciones especie-ambiente de una manera que tiene en cuenta completamente la incertidumbre espacial subyacente. Cuantificamos la incertidumbre de las ubicaciones de parada en los datos de BBS en el centro de los Estados Unidos, modelamos las relaciones entre aves y cobertura del suelo en la parte superior del Medio Oeste, y validamos nuestro método comparando las estimaciones posteriores de la cobertura del suelo con valores conocidos de covariables para un subconjunto de ubicaciones de paradas digitalizadas con GPS. Proporcionamos el código para implementar este método en R. Las estimaciones posteriores de la cobertura del suelo (bosques, pastizales/hierba, y cobertura desarrollada), basadas en nuestros valores informativos previos, estuvieron altamente correlacionadas con los valores conocidos de cobertura del suelo de las ubicaciones de paradas digitalizadas con GPS. Nuestro enfoque, por lo tanto, hace posible aprovechar de manera responsable grandes bases de datos históricos y de ciencia ciudadana, como la BBS, para análisis ecológicos a escala fina.

BOOK REVIEW

The Glitter in the Green: In Search of Hummingbirds

Jay Jinsing Falk, Alyssa J. Sargent

Ornithological Applications 126 (4), 1-2, (30 July 2024) https://doi.org/10.1093/ornithapp/duae026

No abstract available

Baby Bird Identification: A North American Guide

Renee Schott

Ornithological Applications 126 (4), 1-2, (28 December 2024) https://doi.org/10.1093/ornithapp/duae029

No abstract available

Journeys with Emperors: Tracking the World's Most Extreme Penguins

Eric Wagner

Ornithological Applications 126 (4), 1-2, (28 December 2024) https://doi.org/10.1093/ornithapp/duae033

No abstract available

AWARDS

2024 AOS Peter R. Stettenheim Service Award to Jennifer Owen and a posthumous honorary award to Reed Bowman

Michael S. Webster, Sara Ann Kaiser, Erica Nol, Sharon A. Gill, W. Alice Boyle, Melinda Pruett-Jones, Judith Scarl

Ornithological Applications 126 (4), 1-2, (28 December 2024) https://doi.org/10.1093/ornithapp/duae043

No abstract available

2024 AOS Brina C. Kessel Award to Andrew J. Laughlin

Sara Oyler-McCance, Brooke Bateman, Nathan W. Cooper, Kevin Fraser, Elizabeth MacDougall-Shackleton, Chris Guglielmo, Jose Maria Cardoso da Silva, Adrianne Tossas, Casey Youngflesh

Ornithological Applications 126 (4), 1-2, (28 December 2024) https://doi.org/10.1093/ornithapp/duae044

No abstract available

2024 AOS Katma Award to Emily DuVal

Sara Oyler-McCance, Brooke Bateman, Nathan W. Cooper, Kevin Fraser, Elizabeth MacDougall-Shackleton, Chris Guglielmo, Jose Maria Cardoso da Silva, Adrianne Tossas, Casey Youngflesh

Ornithological Applications 126 (4), 1, (28 December 2024) https://doi.org/10.1093/ornithapp/duae045

No abstract available

2024 AOS Conservation Practitioner Award to Nestor Fariña and Olga Esther Villaba

Anna D. Chalfoun, Patricia A. McGill, Kenneth V. Rosenberg, Jeffrey R. Walters, Nicole L. Michel, Scott R. Loss, Christopher A. Lepczyk, Arvind O. Panjabi, Stanley E. Senner, Kristen C. Ruegg, Jeffrey D. Brawn, Andrew Cox, Sarah W. Kendrick, Camila Gomez, Alejandra Martínez-Salinas, Angelina Ruiz Sanchez

Ornithological Applications 126 (4), 1-2, (28 December 2024) https://doi.org/10.1093/ornithapp/duae046

No abstract available

2024 AOS Early Professional Awards to Sheela P. Turbek, Jessie L. Williamson, and Gavin M. Jones

Christopher C. Witt, Peter A. Hosner, Daniel T. Baldassarre, Mary Caswell Stoddard, Glaucia Del Rio, Sara E. Lipshutz

Ornithological Applications 126 (4), 1-2, (28 December 2024) https://doi.org/10.1093/ornithapp/duae047

No abstract available

ANNUAL THANKS TO REVIEWERS

Thank you to the reviewers of the 2024 Ornithological Applications, volume 126

Catherine Lindell, Judit K. Szabo

Ornithological Applications 126 (4), 1-2, (20 November 2024) https://doi.org/10.1093/ornithapp/duae057

No abstract available

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