A conceptual framework on the role of magnetic cues in songbird migration ecology

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A conceptual framework on the role of magnetic cues in songbird migration ecology. / Karwinkel, Thiemo ; Peter, Annika; Holland, Richard et al.
Yn: Biological Reviews, Cyfrol 99, Rhif 4, 08.2024, t. 1576-1593.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Karwinkel, T, Peter, A, Holland, R, Thorup, K, Bairlein, F & Schmaljohann, H 2024, 'A conceptual framework on the role of magnetic cues in songbird migration ecology', Biological Reviews, cyfrol. 99, rhif 4, tt. 1576-1593. https://doi.org/10.1111/brv.13082

APA

Karwinkel, T., Peter, A., Holland, R., Thorup, K., Bairlein, F., & Schmaljohann, H. (2024). A conceptual framework on the role of magnetic cues in songbird migration ecology. Biological Reviews, 99(4), 1576-1593. https://doi.org/10.1111/brv.13082

CBE

Karwinkel T, Peter A, Holland R, Thorup K, Bairlein F, Schmaljohann H. 2024. A conceptual framework on the role of magnetic cues in songbird migration ecology. Biological Reviews. 99(4):1576-1593. https://doi.org/10.1111/brv.13082

MLA

VancouverVancouver

Karwinkel T, Peter A, Holland R, Thorup K, Bairlein F, Schmaljohann H. A conceptual framework on the role of magnetic cues in songbird migration ecology. Biological Reviews. 2024 Awst;99(4):1576-1593. Epub 2024 Ebr 17. doi: 10.1111/brv.13082

Author

Karwinkel, Thiemo ; Peter, Annika ; Holland, Richard et al. / A conceptual framework on the role of magnetic cues in songbird migration ecology. Yn: Biological Reviews. 2024 ; Cyfrol 99, Rhif 4. tt. 1576-1593.

RIS

TY - JOUR

T1 - A conceptual framework on the role of magnetic cues in songbird migration ecology

AU - Karwinkel, Thiemo

AU - Peter, Annika

AU - Holland, Richard

AU - Thorup, Kasper

AU - Bairlein, Franz

AU - Schmaljohann, Heiko

N1 - 1 year embargo at publication

PY - 2024/8

Y1 - 2024/8

N2 - ABSTRACTMigrating animals perform astonishing seasonal movements by orienting and navigating over thousands of kilometres with great precision. Many migratory species use cues from the sun, stars, landmarks, olfaction and the Earth's magnetic field for this task. Among vertebrates, songbirds are the most studied taxon in magnetic‐cue‐related research. Despite multiple studies, we still lack a clear understanding of when, where and how magnetic cues affect the decision‐making process of birds and hence, their realised migratory behaviour in the wild. This understanding is especially important to interpret the results of laboratory experiments in an ecologically appropriate way. In this review, we summarise the current findings about the role of magnetic cues for migratory decisions in songbirds. First, we review the methodological principles for orientation and navigation research, specifically by comparing experiments on caged birds with experiments on free‐flying birds. While cage experiments can show the sensory abilities of birds, studies with free‐flying birds can characterise the ecological roles of magnetic cues. Second, we review the migratory stages, from stopover to endurance flight, in which songbirds use magnetic cues for their migratory decisions and incorporate this into a novel conceptual framework. While we lack studies examining whether and when magnetic cues affect orientation or navigation decisions during flight, the role of magnetic cues during stopover is relatively well studied, but mostly in the laboratory. Notably, many such studies have produced contradictory results so that understanding the biological importance of magnetic cues for decisions in free‐flying songbirds is not straightforward. One potential explanation is that reproducibility of magnetic‐cue experiments is low, probably because variability in the behavioural responses of birds among experiments is high. We are convinced that parts of this variability can be explained by species‐specific and context‐dependent reactions of birds to the study conditions and by the bird's high flexibility in whether they include magnetic cues in a decision or not. Ultimately, this review should help researchers in the challenging field of magnetoreception to design experiments meticulously and interpret results of such studies carefully by considering the migration ecology of their focal species.

AB - ABSTRACTMigrating animals perform astonishing seasonal movements by orienting and navigating over thousands of kilometres with great precision. Many migratory species use cues from the sun, stars, landmarks, olfaction and the Earth's magnetic field for this task. Among vertebrates, songbirds are the most studied taxon in magnetic‐cue‐related research. Despite multiple studies, we still lack a clear understanding of when, where and how magnetic cues affect the decision‐making process of birds and hence, their realised migratory behaviour in the wild. This understanding is especially important to interpret the results of laboratory experiments in an ecologically appropriate way. In this review, we summarise the current findings about the role of magnetic cues for migratory decisions in songbirds. First, we review the methodological principles for orientation and navigation research, specifically by comparing experiments on caged birds with experiments on free‐flying birds. While cage experiments can show the sensory abilities of birds, studies with free‐flying birds can characterise the ecological roles of magnetic cues. Second, we review the migratory stages, from stopover to endurance flight, in which songbirds use magnetic cues for their migratory decisions and incorporate this into a novel conceptual framework. While we lack studies examining whether and when magnetic cues affect orientation or navigation decisions during flight, the role of magnetic cues during stopover is relatively well studied, but mostly in the laboratory. Notably, many such studies have produced contradictory results so that understanding the biological importance of magnetic cues for decisions in free‐flying songbirds is not straightforward. One potential explanation is that reproducibility of magnetic‐cue experiments is low, probably because variability in the behavioural responses of birds among experiments is high. We are convinced that parts of this variability can be explained by species‐specific and context‐dependent reactions of birds to the study conditions and by the bird's high flexibility in whether they include magnetic cues in a decision or not. Ultimately, this review should help researchers in the challenging field of magnetoreception to design experiments meticulously and interpret results of such studies carefully by considering the migration ecology of their focal species.

U2 - 10.1111/brv.13082

DO - 10.1111/brv.13082

M3 - Article

VL - 99

SP - 1576

EP - 1593

JO - Biological Reviews

JF - Biological Reviews

SN - 1464-7931

IS - 4

ER -