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Large-scale source-sink dynamics in Tachycineta bicolor breeding
in southern Québec’s farmlands
- Justine Le Vaillant,
- Gabriel Pigeon,
- Dany Garant,
- Marc Belisle,
- Fanie Pelletier
Gabriel Pigeon
Université du Québec en Abitibi-Témiscamingue
Corresponding Author:gabriel.pigeon@uqat.ca
Author ProfileAbstract
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Avian insectivores have experienced population declines worldwide, with
intensification of agricultural practices as a major contributing
factor. To understand how species react to such human-driven
environmental changes, it is necessary to obtain detailed information on
their survival, reproduction and dispersal. This is particularly
important for declining species and populations, where immigration
contributed by dispersers from neighboring populations can influence
local population growth. We used multi-state Capture-Mark-Recapture
(CMR) models and 14 years of data (2004-2019) on individually marked
Tree Swallows (Tachycineta bicolor) breeding on farmlands in southern
Québec, Canada, to quantify the effects of agricultural intensity, local
weather, and interspecific competition on the vital rates and population
growth. Yearly population growth rates were highly dependent on both
immigration and adult return rates. Nest site competition by House
sparrows (Passer domesticus), mostly found within intensively cultivated
landscapes, had a strong negative effect on reproductive success and
adult return rates. Nevertheless, 43% of the variance in lambda was
attributed to unexplained differences between farms, suggesting that
microhabitat or other unmeasured environmental variables also drive
population growth rate. Our results clearly show that the studied
population would not persist without immigration, suggesting that
intensively cultivated farmlands may act as sinks. Our sampling design
may partly explain this result as nest boxes were installed in low
quality habitats. Understanding the ecology and demography of declining
aerial insectivore species therefore requires studying multiple
populations of the same species in a wide range of habitats and
geographic locations, as well as several species with contrasting life
histories.13 Nov 2024Submitted to Oikos 15 Nov 2024Submission Checks Completed
15 Nov 2024Assigned to Editor
15 Nov 2024Review(s) Completed, Editorial Evaluation Pending
03 Dec 2024Reviewer(s) Assigned