Annual spatiotemporal migration schedules in three larger insectivorous birds: European nightjar, common swift and common cuckoo

Lars Bo Jacobsen; Niels Odder Jensen; Mikkel Willemoes; Lars Hansen; Mark Desholm; Anthony David Fox; Anders P. Tøttrup; Kasper Thorup

doi:10.1186/s40317-017-0119-x

Annual spatiotemporal migration schedules in three larger insectivorous birds: European nightjar, common swift and common cuckoo

Lars Bo Jacobsen, Niels Odder Jensen, Mikkel Willemoes, Lars Hansen, Mark Desholm, Anthony David Fox, Anders P. Tøttrup, Kasper Thorup^*

^*Corresponding author for this work

15 Citations (Scopus)

79 Downloads (Pure)

Abstract

Background: Knowledge of spatiotemporal migration patterns is important for our understanding of migration ecology and ultimately conservation of migratory species. We studied the annual migration schedules of European nightjar, a large nocturnal insectivore and compared it with two other larger migratory insectivores, common swift and common cuckoo. All species breed in North Europe and winter in sub-Saharan Africa, but estimating their spatiotemporal non-breeding distributions from observations is complicated by the occurrence of similar local African species. We used geolocators to track the annual migrations of nightjars and swifts and compared these with satellite tracking of cuckoo migration. Results: Individuals of the three species migrated to wintering grounds centered in Central Africa, except some common swifts that remained in West Africa, crossing or circumventing the Sahara along different routes in spring and fall. Overall, all species showed similar regional and seasonal use of several stopover areas during migration. Among the three species, European nightjars and common cuckoos showed the most similar spatiotemporal migration patterns. The nightjars wintered in SW Central Africa and breeding and wintering made up by far the two longest stationary periods. Swifts were generally more mobile, and some individuals progressively visited areas further east in East Africa during winter and further west in West Africa on spring migration; this species also spent less time on stopovers, but more on wintering areas. Cuckoos were intermediate in their extent of movements. The speed of nightjar spring migration was equal to that of fall migration, in contrast to the two other species where spring return to breeding areas was faster. Conclusions: Ecological requirements are potentially useful for understanding spatiotemporal migration patterns and causes of declines in migratory species.

Original language	English
Article number	4
Journal	Animal Biotelemetry
Volume	5
Number of pages	11
ISSN	2050-3385
DOIs	https://doi.org/10.1186/s40317-017-0119-x
Publication status	Published - 8 Feb 2017

Keywords

European nightjar
Geolocators
Large insectivores
Long-distance migration
Migration speed and timing

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Jacobsen_2017_Annual_spatiotemporalFinal published version, 1.76 MBLicence: CC BY

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title = "Annual spatiotemporal migration schedules in three larger insectivorous birds: European nightjar, common swift and common cuckoo",

abstract = "Background: Knowledge of spatiotemporal migration patterns is important for our understanding of migration ecology and ultimately conservation of migratory species. We studied the annual migration schedules of European nightjar, a large nocturnal insectivore and compared it with two other larger migratory insectivores, common swift and common cuckoo. All species breed in North Europe and winter in sub-Saharan Africa, but estimating their spatiotemporal non-breeding distributions from observations is complicated by the occurrence of similar local African species. We used geolocators to track the annual migrations of nightjars and swifts and compared these with satellite tracking of cuckoo migration. Results: Individuals of the three species migrated to wintering grounds centered in Central Africa, except some common swifts that remained in West Africa, crossing or circumventing the Sahara along different routes in spring and fall. Overall, all species showed similar regional and seasonal use of several stopover areas during migration. Among the three species, European nightjars and common cuckoos showed the most similar spatiotemporal migration patterns. The nightjars wintered in SW Central Africa and breeding and wintering made up by far the two longest stationary periods. Swifts were generally more mobile, and some individuals progressively visited areas further east in East Africa during winter and further west in West Africa on spring migration; this species also spent less time on stopovers, but more on wintering areas. Cuckoos were intermediate in their extent of movements. The speed of nightjar spring migration was equal to that of fall migration, in contrast to the two other species where spring return to breeding areas was faster. Conclusions: Ecological requirements are potentially useful for understanding spatiotemporal migration patterns and causes of declines in migratory species.",

keywords = "European nightjar, Geolocators, Large insectivores, Long-distance migration, Migration speed and timing",

author = "Jacobsen, {Lars Bo} and Jensen, {Niels Odder} and Mikkel Willemoes and Lars Hansen and Mark Desholm and Fox, {Anthony David} and T{\o}ttrup, {Anders P.} and Kasper Thorup",

year = "2017",

month = feb,

day = "8",

doi = "10.1186/s40317-017-0119-x",

language = "English",

volume = "5",

journal = "Animal Biotelemetry",

issn = "2050-3385",

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T1 - Annual spatiotemporal migration schedules in three larger insectivorous birds

T2 - European nightjar, common swift and common cuckoo

AU - Jacobsen, Lars Bo

AU - Jensen, Niels Odder

AU - Willemoes, Mikkel

AU - Hansen, Lars

AU - Desholm, Mark

AU - Fox, Anthony David

AU - Tøttrup, Anders P.

AU - Thorup, Kasper

PY - 2017/2/8

Y1 - 2017/2/8

N2 - Background: Knowledge of spatiotemporal migration patterns is important for our understanding of migration ecology and ultimately conservation of migratory species. We studied the annual migration schedules of European nightjar, a large nocturnal insectivore and compared it with two other larger migratory insectivores, common swift and common cuckoo. All species breed in North Europe and winter in sub-Saharan Africa, but estimating their spatiotemporal non-breeding distributions from observations is complicated by the occurrence of similar local African species. We used geolocators to track the annual migrations of nightjars and swifts and compared these with satellite tracking of cuckoo migration. Results: Individuals of the three species migrated to wintering grounds centered in Central Africa, except some common swifts that remained in West Africa, crossing or circumventing the Sahara along different routes in spring and fall. Overall, all species showed similar regional and seasonal use of several stopover areas during migration. Among the three species, European nightjars and common cuckoos showed the most similar spatiotemporal migration patterns. The nightjars wintered in SW Central Africa and breeding and wintering made up by far the two longest stationary periods. Swifts were generally more mobile, and some individuals progressively visited areas further east in East Africa during winter and further west in West Africa on spring migration; this species also spent less time on stopovers, but more on wintering areas. Cuckoos were intermediate in their extent of movements. The speed of nightjar spring migration was equal to that of fall migration, in contrast to the two other species where spring return to breeding areas was faster. Conclusions: Ecological requirements are potentially useful for understanding spatiotemporal migration patterns and causes of declines in migratory species.

AB - Background: Knowledge of spatiotemporal migration patterns is important for our understanding of migration ecology and ultimately conservation of migratory species. We studied the annual migration schedules of European nightjar, a large nocturnal insectivore and compared it with two other larger migratory insectivores, common swift and common cuckoo. All species breed in North Europe and winter in sub-Saharan Africa, but estimating their spatiotemporal non-breeding distributions from observations is complicated by the occurrence of similar local African species. We used geolocators to track the annual migrations of nightjars and swifts and compared these with satellite tracking of cuckoo migration. Results: Individuals of the three species migrated to wintering grounds centered in Central Africa, except some common swifts that remained in West Africa, crossing or circumventing the Sahara along different routes in spring and fall. Overall, all species showed similar regional and seasonal use of several stopover areas during migration. Among the three species, European nightjars and common cuckoos showed the most similar spatiotemporal migration patterns. The nightjars wintered in SW Central Africa and breeding and wintering made up by far the two longest stationary periods. Swifts were generally more mobile, and some individuals progressively visited areas further east in East Africa during winter and further west in West Africa on spring migration; this species also spent less time on stopovers, but more on wintering areas. Cuckoos were intermediate in their extent of movements. The speed of nightjar spring migration was equal to that of fall migration, in contrast to the two other species where spring return to breeding areas was faster. Conclusions: Ecological requirements are potentially useful for understanding spatiotemporal migration patterns and causes of declines in migratory species.

KW - European nightjar

KW - Geolocators

KW - Large insectivores

KW - Long-distance migration

KW - Migration speed and timing

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U2 - 10.1186/s40317-017-0119-x

DO - 10.1186/s40317-017-0119-x

M3 - Journal article

AN - SCOPUS:85018485189

SN - 2050-3385

VL - 5

JO - Animal Biotelemetry

JF - Animal Biotelemetry

M1 - 4

ER -

Annual spatiotemporal migration schedules in three larger insectivorous birds: European nightjar, common swift and common cuckoo

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