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Data from: Environmental and geographic conditions on the breeding grounds drive Bergmannian clines in nightjars Skinner, Aaron; Korpach, Alicia M.; Åkesson, Susanne; Bakermans, Marja H.; Bayne, Erin M.; Benson, Thomas J.; Boano, Giovanni; Brigham, R. Mark; Christiansen, Simon S.; Conway, Greg J.; Davy, Christina M.; Evens, Ruben; Fraser, Kevin C.; Harrison, Autumn‐Lynn; Hedenström, Anders; Henderson, Ian G.; Honkala, Juha; Jacobsen, Lars B.; Lathouwers, Michiel; Marra, Peter P.; Ng, Janet W.; Norevik, Gabriel; Scarpignato, Amy L.; Thorup, Kasper; Tonra, Christopher M.; Van Wilgenburg, Steven L.; Vitz, Andrew C.; Ward, Michael; Knight, Elly

Description

Abstract

Aim: To evaluate (1) whether three migratory nightjar species (Family Caprimulgidae) adhere to Bergmann's rule, (2) whether environmental factors on the breeding or wintering grounds determine body size, and (3) which mechanistic hypotheses best explain Bergmannian patterns in body size.

Location: North and South America; Europe, and Africa.
Taxon: Eastern whip‐poor‐will (Antrostomus vociferus), Common nighthawk (Chordeiles minor), and European nightjar (Caprimulgus europaeus).

Methods: We used GPS tracking and morphometric data to assess competing hypotheses explaining variation in body size for each species, based on their breeding (n = 3388) and wintering (n = 189) locations.

Results: All three species exhibited Bergmannian patterns in body size, providing the first evidence that nightjars conform to Bergmann's rule despite adaptations to severe environmental conditions. Environmental and geographic variables at breeding sites were stronger predictors of body size than wintering‐site variables. Although we found partial support for Bergmann's temperature regulation hypothesis, geographic variables, rather than specific environmental factors, emerged as the strongest predictors of body size variation.

Main conclusions: Latitude and longitude correlated strongly with environmental variables and migratory distance; thus, these geographical variables likely encompass many factors that influence body size in nightjars. The present study is among the first to use tracking data from individual birds to understand how environmental pressures across the annual cycle are related to body size. Our findings highlight the critical role of geographic breeding‐ground factors in shaping Bergmannian patterns, offering robust evidence to support nearly two centuries of research since Bergmann's rule was first described in 1847.



Item Metadata

Title
Data from: Environmental and geographic conditions on the breeding grounds drive Bergmannian clines in nightjars
Creator
Skinner, Aaron; Korpach, Alicia M.; Åkesson, Susanne; Bakermans, Marja H.; Bayne, Erin M.; Benson, Thomas J.; Boano, Giovanni; Brigham, R. Mark; Christiansen, Simon S.; Conway, Greg J.; Davy, Christina M.; Evens, Ruben; Fraser, Kevin C.; Harrison, Autumn‐Lynn; Hedenström, Anders; Henderson, Ian G.; Honkala, Juha; Jacobsen, Lars B.; Lathouwers, Michiel; Marra, Peter P.; Ng, Janet W.; Norevik, Gabriel; Scarpignato, Amy L.; Thorup, Kasper; Tonra, Christopher M.; Van Wilgenburg, Steven L.; Vitz, Andrew C.; Ward, Michael; Knight, Elly
Date Issued
2025-08-14
Description
Abstract

Aim: To evaluate (1) whether three migratory nightjar species (Family Caprimulgidae) adhere to Bergmann's rule, (2) whether environmental factors on the breeding or wintering grounds determine body size, and (3) which mechanistic hypotheses best explain Bergmannian patterns in body size.

Location: North and South America; Europe, and Africa.
Taxon: Eastern whip‐poor‐will (Antrostomus vociferus), Common nighthawk (Chordeiles minor), and European nightjar (Caprimulgus europaeus).

Methods: We used GPS tracking and morphometric data to assess competing hypotheses explaining variation in body size for each species, based on their breeding (n = 3388) and wintering (n = 189) locations.

Results: All three species exhibited Bergmannian patterns in body size, providing the first evidence that nightjars conform to Bergmann's rule despite adaptations to severe environmental conditions. Environmental and geographic variables at breeding sites were stronger predictors of body size than wintering‐site variables. Although we found partial support for Bergmann's temperature regulation hypothesis, geographic variables, rather than specific environmental factors, emerged as the strongest predictors of body size variation.

Main conclusions: Latitude and longitude correlated strongly with environmental variables and migratory distance; thus, these geographical variables likely encompass many factors that influence body size in nightjars. The present study is among the first to use tracking data from individual birds to understand how environmental pressures across the annual cycle are related to body size. Our findings highlight the critical role of geographic breeding‐ground factors in shaping Bergmannian patterns, offering robust evidence to support nearly two centuries of research since Bergmann's rule was first described in 1847.
Subject
Other; Bergmann's rule; Caprimulgidae; nightjars; annual cylce; migration distance; winter locations; Antrostomus vociferus; Chordeiles minor; Caprimulgus europaeus; Mass; Wing chord; Body size
Type
Dataset
Notes

Dryad version number: 5

Version status: submitted

Dryad curation status: Published

Sharing link: http://datadryad.org/dataset/doi:10.5061/dryad.pnvx0k6xw</p>

Storage size: 34891050

Visibility: public
Date Available
2025-08-11
Provider
University of British Columbia Library
License
CC0 1.0
DOI
10.14288/1.0449704
URI
https://doi.org/10.5683/SP3/BW4FK8
Publisher DOI
https://doi.org/10.5683/SP3/BW4FK8; https://doi.org/10.5061/dryad.pnvx0k6xw
Rights URI
http://creativecommons.org/publicdomain/zero/1.0
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