Michael G. Rowley scite author profile

Michael G. Rowley

5Publications

9Citation Statements Received

86Citation Statements Given

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University of Maryland, Baltimore County

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Hierarchical distance sampling reveals increased population size and broader habitat use in the endangered Bahama Oriole

Rowley¹,

Stanley²,

Antalffy³

et al. 2021

ACE

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The Caribbean is home to over 20 passerine species listed by the International Union for Conservation of Nature as vulnerable, endangered or critically endangered. The Bahama Oriole (Icterus northropi) is listed as critically endangered and is now restricted to Andros, a single island complex in The Bahamas. We investigated this species' habitat use and produced the first statistically robust estimate of population size. We conducted point counts during the Bahama Oriole's breeding season in May and June 2017, extensively surveying the northern part of North Andros over a study area covering 713 km². Hierarchical distance sampling models estimated 1269-2765 individuals within our study area, a substantially larger population on North Andros than was indicated by the previously published estimates. Earlier studies, which disproportionately sampled anthropogenic and coppice habitats, likely underestimated this species' abundance in pine forest. We found that the Bahama Oriole is widespread, most abundant in pine forest, and not dependent on developed habitats during the breeding season. These findings provide a better outlook for the species' persistence and indicate that conserving pine forest would benefit this critically endangered species. Our results also emphasize the importance of rigorously evaluating habitat use when developing conservation plans for endangered species. Systematic population counts and statistical analyses that account for detection probability are needed for endangered and vulnerable endemic birds across the Caribbean, especially in the face of increased hurricane strength and sea level rise due to climate change. L'échantillonnage fondé sur la distance couplé à une approche hiérarchique révèle une taille de population plus élevée et une utilisation de l'habitat plus vaste chez l'Oriole des Bahamas, espèce en danger RÉSUMÉ. Les Caraïbes abritent plus de 20 espèces de passereaux classées par l'Union internationale pour la conservation de la nature comme vulnérables, en danger ou en danger critique d'extinction. L'Oriole des Bahamas (Icterus northropi) est classé comme en danger critique d'extinction et est désormais limité à Andros, un complexe insulaire unique des Bahamas. Nous avons étudié l'utilisation de l'habitat de cette espèce et calculé la première estimation statistiquement solide de la taille de la population. Nous avons effectué des dénombrements par points d'écoute pendant la saison de reproduction de cet oriole, en mai et juin 2017, en sillonnant la partie nord d'Andros Nord sur une aire couvrant 713 km². Des modèles hiérarchiques à partir des dénombrements fondés sur la distance ont permis d'établir le nombre d'individus à 1 269-2 765 dans notre aire d'étude, soit une population nettement plus importante sur Andros Nord que ce qui avait été rapporté précédemment. Les études antérieures, qui ont échantillonné de manière disproportionnée les milieux anthropiques et les taillis, ont probablement sous-estimé l'abondance de cette espèce dans les pinèdes. Nous avons constaté que l'...

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Comparing global and local maps of the Caribbean pine forests of Andros, home of the critically endangered Bahama Oriole

Antalffy

Rowley

Johnson

et al. 2021

Environ Monit Assess

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to assess the status of nine terrestrial habitats on Andros. Our Random Forest classification model predicted habitat classes with high overall accuracy. Caribbean pine was the dominant land class making up roughly one-third of the total terrestrial area. Whereas much of the pine forest area was found as small patches, most were close to other patches of pine suggesting isolation of forest patches is low. We compared our known intact forest areas to recent forest loss identified by the Hansen et al. Global Forest Change product and assessed areas of habitat disturbance in high-resolution imagery. Our results suggest that this global map overpredicted forest loss on Andros. The small degree of true forest loss on Andros was driven mostly by anthropogenic activity. A cross-tabulation of the Hansen forest loss with fire data showed that understory fires were frequently associated with falsely classified deforestation. Given the threats of climate change to this open forest type-intensifying fire regimes, strengthening hurricanes, and sea level rise-monitoring changes in open forest extent is a critical task across the Caribbean region and the world.

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Surveying Potential Predators to Protect a Critically Endangered Bahamian Songbird

Kane¹,

Stonko²,

Johnson³

et al. 2019

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Nest site characteristics of the Critically Endangered Bahama Oriole (Icterus northropi)

Yancy

Antalffy

Rowley

et al. 2020

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New documentation of pine forest nesting by the Critically Endangered Bahama Oriole (Icterus northropi)

Stonko¹,

Rolle²,

Smith³

et al. 2018

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Michael G. Rowley

Hierarchical distance sampling reveals increased population size and broader habitat use in the endangered Bahama Oriole

Comparing global and local maps of the Caribbean pine forests of Andros, home of the critically endangered Bahama Oriole

Surveying Potential Predators to Protect a Critically Endangered Bahamian Songbird

Nest site characteristics of the Critically Endangered Bahama Oriole (Icterus northropi)

New documentation of pine forest nesting by the Critically Endangered Bahama Oriole (Icterus northropi)

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