Flock Size Predicts Niche Breadth and Focal Wintering Regions for a Rapidly Declining Boreal-Breeding Passerine, the Rusty Blackbird

Flock Size Predicts Niche Breadth and Focal Wintering Regions for a Rapidly Declining Boreal-Breeding Passerine, the Rusty Blackbird

Once exceptionally abundant, the Rusty Blackbird (<i>Euphagus carolinus</i>) has declined precipitously over at least the last century. The species breeds across the Boreal forest, where it is so thinly distributed across such remote areas that it is extremely challenging to monitor or r...

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Bibliographic Details
Main Authors: Brian S. Evans, Luke L. Powell, Dean W. Demarest, Sinéad M. Borchert, Russell S. Greenberg
Format: Article
Language:English
Published: MDPI AG 2021-02-01
Series:Diversity
Subjects:
Black Belt Prairie
citizen science
conservation
machine learning
niche modeling
group size
Online Access:https://www.mdpi.com/1424-2818/13/2/62
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spelling doaj-0b9f9e2e5aa54e43bfa08693df4f15a92021-02-05T00:04:56ZengMDPI AGDiversity1424-28182021-02-0113626210.3390/d13020062Flock Size Predicts Niche Breadth and Focal Wintering Regions for a Rapidly Declining Boreal-Breeding Passerine, the Rusty BlackbirdBrian S. Evans0Luke L. Powell1Dean W. Demarest2Sinéad M. Borchert3Russell S. Greenberg4Migratory Bird Center, Smithsonian Conservation Biology Institute, National Zoological Park, P.O. Box 37012, Washington, DC 20013-7012, USAMigratory Bird Center, Smithsonian Conservation Biology Institute, National Zoological Park, P.O. Box 37012, Washington, DC 20013-7012, USAU.S. Fish & Wildlife Service, Division of Migratory Birds, Atlanta, GA 30345, USAU.S. Fish & Wildlife Service, Panama City Field Office, Panama City, FL 32405, USAMigratory Bird Center, Smithsonian Conservation Biology Institute, National Zoological Park, P.O. Box 37012, Washington, DC 20013-7012, USAOnce exceptionally abundant, the Rusty Blackbird (<i>Euphagus carolinus</i>) has declined precipitously over at least the last century. The species breeds across the Boreal forest, where it is so thinly distributed across such remote areas that it is extremely challenging to monitor or research, hindering informed conservation. As such, we employed a targeted citizen science effort on the species’ wintering grounds in the more (human) populated southeast United States: The Rusty Blackbird Winter Blitz. Using a MaxEnt machine learning framework, we modeled patterns of occurrence of small, medium, and large flocks (<20, 20–99, and >99 individuals, respectively) in environmental space using both Blitz and eBird data. Our primary objective was to determine environmental variables that best predict Rusty Blackbird occurrence, with emphasis on (1) examining differences in key environmental predictors across flock sizes, (2) testing whether environmental niche breadth decreased with flock size, and (3) identifying regions with higher predicted occurrence (hotspots). The distribution of flocks varied across environmental predictors, with average minimum temperature (~2 °C for medium and large flocks) and proportional coverage of floodplain forest having the largest influence on occurrence. Environmental niche breadth decreased with increasing flock size, suggesting an increasingly restrictive range of environmental conditions capable of supporting larger flocks. We identified large hotspots in floodplain forests in the Lower Mississippi Alluvial Valley, the South Atlantic Coastal Plain, and the Black Belt Prairie.https://www.mdpi.com/1424-2818/13/2/62Black Belt Prairiecitizen scienceconservationmachine learningniche modelinggroup size
collection DOAJ
language English
format Article
sources DOAJ
author Brian S. Evans
Luke L. Powell
Dean W. Demarest
Sinéad M. Borchert
Russell S. Greenberg
spellingShingle Brian S. Evans
Luke L. Powell
Dean W. Demarest
Sinéad M. Borchert
Russell S. Greenberg
Flock Size Predicts Niche Breadth and Focal Wintering Regions for a Rapidly Declining Boreal-Breeding Passerine, the Rusty Blackbird
Diversity
Black Belt Prairie
citizen science
conservation
machine learning
niche modeling
group size
author_facet Brian S. Evans
Luke L. Powell
Dean W. Demarest
Sinéad M. Borchert
Russell S. Greenberg
author_sort Brian S. Evans
title Flock Size Predicts Niche Breadth and Focal Wintering Regions for a Rapidly Declining Boreal-Breeding Passerine, the Rusty Blackbird
title_short Flock Size Predicts Niche Breadth and Focal Wintering Regions for a Rapidly Declining Boreal-Breeding Passerine, the Rusty Blackbird
title_full Flock Size Predicts Niche Breadth and Focal Wintering Regions for a Rapidly Declining Boreal-Breeding Passerine, the Rusty Blackbird
title_fullStr Flock Size Predicts Niche Breadth and Focal Wintering Regions for a Rapidly Declining Boreal-Breeding Passerine, the Rusty Blackbird
title_full_unstemmed Flock Size Predicts Niche Breadth and Focal Wintering Regions for a Rapidly Declining Boreal-Breeding Passerine, the Rusty Blackbird
title_sort flock size predicts niche breadth and focal wintering regions for a rapidly declining boreal-breeding passerine, the rusty blackbird
publisher MDPI AG
series Diversity
issn 1424-2818
publishDate 2021-02-01
description Once exceptionally abundant, the Rusty Blackbird (<i>Euphagus carolinus</i>) has declined precipitously over at least the last century. The species breeds across the Boreal forest, where it is so thinly distributed across such remote areas that it is extremely challenging to monitor or research, hindering informed conservation. As such, we employed a targeted citizen science effort on the species’ wintering grounds in the more (human) populated southeast United States: The Rusty Blackbird Winter Blitz. Using a MaxEnt machine learning framework, we modeled patterns of occurrence of small, medium, and large flocks (<20, 20–99, and >99 individuals, respectively) in environmental space using both Blitz and eBird data. Our primary objective was to determine environmental variables that best predict Rusty Blackbird occurrence, with emphasis on (1) examining differences in key environmental predictors across flock sizes, (2) testing whether environmental niche breadth decreased with flock size, and (3) identifying regions with higher predicted occurrence (hotspots). The distribution of flocks varied across environmental predictors, with average minimum temperature (~2 °C for medium and large flocks) and proportional coverage of floodplain forest having the largest influence on occurrence. Environmental niche breadth decreased with increasing flock size, suggesting an increasingly restrictive range of environmental conditions capable of supporting larger flocks. We identified large hotspots in floodplain forests in the Lower Mississippi Alluvial Valley, the South Atlantic Coastal Plain, and the Black Belt Prairie.
topic Black Belt Prairie
citizen science
conservation
machine learning
niche modeling
group size
url https://www.mdpi.com/1424-2818/13/2/62
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