Weak evidence of carry-over effects of overwinter climate and habitat productivity on spring passage of migratory songbirds at a northern stopover site in Ontario

Reduced rainfall in tropical regions decreases the availability of food resources for overwintering songbirds, with negative impacts on their body condition. Increasingly dry conditions at tropical wintering sites as a result of climate change may impact the ability of temperate-breeding songbirds t...

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Bibliographic Details
Published in:Ornithological Applications 2021-05, Vol.123 (2), p.1-16
Main Authors: Horn, Lisa C., Remmel, Tarmo K., Stutchbury, Bridget J. M.
Format: Article
Language:English
Subjects:
Availability
Banding
Bird migration
body condition
cambio climático
carry-over effects
Climate change
Climate effects
condición corporal
cronología de la migración de invierno
Datasets
efectos de arrastre
El Nino
El Niño–Southern Oscillation
Food availability
Food resources
Food security
Habitats
Migratory birds
Normalized Difference Vegetation Index
Normalized difference vegetative index
Ornithology
Oscilación del Sur El Niño
Overwintering
Passeri
productividad del hábitat de invernada
Productivity
Rainfall
RESEARCH ARTICLE
Resource availability
Songbirds
Southern Oscillation
Species
Spring (season)
spring migration timing
Tropical environment
Tropical environments
winter habitat productivity
Índice de Vegetación de Diferencia Normalizada
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Summary:Reduced rainfall in tropical regions decreases the availability of food resources for overwintering songbirds, with negative impacts on their body condition. Increasingly dry conditions at tropical wintering sites as a result of climate change may impact the ability of temperate-breeding songbirds to prepare for and execute their spring migration. We studied the carryover effects of natural climatic fluctuations created by the El Niño–Southern Oscillation (ENSO) in tropical overwintering areas on 7 long-distance migratory songbirds at a Canadian stopover site. We used the Normalized Difference Vegetation Index as a proxy for tropical habitat productivity and resource availability and a 34-year bird banding dataset from Long Point, Ontario, Canada to assess migration timing and stopover body condition. To increase our ability to detect potential carry-over effects, we employed a novel approach of using recent migratory connectivity studies to restrict the wintering ranges to areas most likely used by individuals passing through southern Ontario. Using linear models, we found that overwinter habitat productivity was significantly negatively influenced by dry ENSO events in the overwintering ranges in 3 of 7 species, with a fourth near-significant. Subregional differences in the effect of ENSO on precipitation patterns may explain why we did not detect a consistent effect of ENSO on overwinter habitat productivity for all species. Despite restricting the wintering range and using a robust dataset for species with diverse life histories, we detected only weak and often conflicting evidence of population-level carry-over effects from dry ENSO events and overwinter habitat productivity. Negative carry-over effects may be strongest and most evident during the earlierstages of migration because birds may be able to compensate to some extent for poor departure condition and late departure while en route. LAY SUMMARY Increasingly dry conditions in the tropics have been shown to reduce food availability and thus body condition of overwintering songbirds. Low food availability at wintering sites is hypothesized to cause negative carry-over effects by delaying spring migration and reducing body condition while on migration. We used 34 years of bird banding data at a northern stopover site to assess how migratory birds have historically responded to dry conditions in their tropical overwintering areas. We found only weak negative effects from dry winters on the body con
ISSN:0010-5422
2732-4621
DOI:10.1093/ornithapp/duab012