Activity and migratory flights of individual free-flying songbirds throughout the annual cycle: method and first case study

Research output: Contribution to journalJournal articleResearchpeer-review

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Activity and migratory flights of individual free-flying songbirds throughout the annual cycle : method and first case study. / Bäckman, Johan; Andersson, Arne; Alerstam, Thomas; Pedersen, Lykke; Sjöberg, Sissel; Thorup, Kasper; Tøttrup, Anders P.

In: Journal of Avian Biology, Vol. 48, No. 2, 2017, p. 309-319.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Bäckman, J, Andersson, A, Alerstam, T, Pedersen, L, Sjöberg, S, Thorup, K & Tøttrup, AP 2017, 'Activity and migratory flights of individual free-flying songbirds throughout the annual cycle: method and first case study', Journal of Avian Biology, vol. 48, no. 2, pp. 309-319. https://doi.org/10.1111/jav.01068

APA

Bäckman, J., Andersson, A., Alerstam, T., Pedersen, L., Sjöberg, S., Thorup, K., & Tøttrup, A. P. (2017). Activity and migratory flights of individual free-flying songbirds throughout the annual cycle: method and first case study. Journal of Avian Biology, 48(2), 309-319. https://doi.org/10.1111/jav.01068

Vancouver

Bäckman J, Andersson A, Alerstam T, Pedersen L, Sjöberg S, Thorup K et al. Activity and migratory flights of individual free-flying songbirds throughout the annual cycle: method and first case study. Journal of Avian Biology. 2017;48(2):309-319. https://doi.org/10.1111/jav.01068

Author

Bäckman, Johan ; Andersson, Arne ; Alerstam, Thomas ; Pedersen, Lykke ; Sjöberg, Sissel ; Thorup, Kasper ; Tøttrup, Anders P. / Activity and migratory flights of individual free-flying songbirds throughout the annual cycle : method and first case study. In: Journal of Avian Biology. 2017 ; Vol. 48, No. 2. pp. 309-319.

Bibtex

@article{b686c36622834a048ee640ab76562e5f,
title = "Activity and migratory flights of individual free-flying songbirds throughout the annual cycle: method and first case study",
abstract = "We describe a method and device (< 1.2 g) for recording, processing and storing data about activity and location of individuals of free-living songbirds throughout the annual cycle. Activity level was determined every five minutes from five 100 ms samples of accelerometer data with 5 s between the sampling events. Activity levels were stored on an hourly basis throughout the annual cycle, allowing periods of resting/sleep, continuous flight and intermediate activity (foraging, breeding) to be distinguished. Measurements from a light sensor were stored from preprogrammed key stationary periods during the year to provide control information about geographic location. Successful results, including annual actogram, were obtained for a red-backed shrike Lanius collurio carrying out its annual loop migration between northern Europe and southern Africa. The shrike completed its annual migration by performing > 66 (max. 73) nocturnal migratory flights (29 flights in autumn and > 37, max. 44, in spring) adding up to a total of > 434 (max. 495) flight hours. Migratory flights lasted on average 6.6 h with maximum 15.9 h. These flights were aggregated into eight travel episodes (periods of 4-11 nights when flights took place on the majority of nights). Daytime resting levels were much higher during the winter period compared to breeding and final part of spring migration. Daytime resting showed peaks during days between successive nocturnal flights across Sahara, continental Africa and the Arabian Peninsula, indicating that the bird was mostly sleeping between these long migratory flights. Annual activity and flight data for free-living songbirds will open up many new research possibilities. Main topics that can be addressed are e.g. migratory flight performance (total flight investment, numbers and characteristics of flights), timing of stationary periods, activity patterns (resting/sleep, activity level) in different phases of the annual cycle and variability in the annual activity patterns between and within individuals.",
author = "Johan B{\"a}ckman and Arne Andersson and Thomas Alerstam and Lykke Pedersen and Sissel Sj{\"o}berg and Kasper Thorup and T{\o}ttrup, {Anders P.}",
year = "2017",
doi = "10.1111/jav.01068",
language = "English",
volume = "48",
pages = "309--319",
journal = "Journal of Avian Biology",
issn = "0908-8857",
publisher = "Wiley-Blackwell",
number = "2",

}

RIS

TY - JOUR

T1 - Activity and migratory flights of individual free-flying songbirds throughout the annual cycle

T2 - method and first case study

AU - Bäckman, Johan

AU - Andersson, Arne

AU - Alerstam, Thomas

AU - Pedersen, Lykke

AU - Sjöberg, Sissel

AU - Thorup, Kasper

AU - Tøttrup, Anders P.

PY - 2017

Y1 - 2017

N2 - We describe a method and device (< 1.2 g) for recording, processing and storing data about activity and location of individuals of free-living songbirds throughout the annual cycle. Activity level was determined every five minutes from five 100 ms samples of accelerometer data with 5 s between the sampling events. Activity levels were stored on an hourly basis throughout the annual cycle, allowing periods of resting/sleep, continuous flight and intermediate activity (foraging, breeding) to be distinguished. Measurements from a light sensor were stored from preprogrammed key stationary periods during the year to provide control information about geographic location. Successful results, including annual actogram, were obtained for a red-backed shrike Lanius collurio carrying out its annual loop migration between northern Europe and southern Africa. The shrike completed its annual migration by performing > 66 (max. 73) nocturnal migratory flights (29 flights in autumn and > 37, max. 44, in spring) adding up to a total of > 434 (max. 495) flight hours. Migratory flights lasted on average 6.6 h with maximum 15.9 h. These flights were aggregated into eight travel episodes (periods of 4-11 nights when flights took place on the majority of nights). Daytime resting levels were much higher during the winter period compared to breeding and final part of spring migration. Daytime resting showed peaks during days between successive nocturnal flights across Sahara, continental Africa and the Arabian Peninsula, indicating that the bird was mostly sleeping between these long migratory flights. Annual activity and flight data for free-living songbirds will open up many new research possibilities. Main topics that can be addressed are e.g. migratory flight performance (total flight investment, numbers and characteristics of flights), timing of stationary periods, activity patterns (resting/sleep, activity level) in different phases of the annual cycle and variability in the annual activity patterns between and within individuals.

AB - We describe a method and device (< 1.2 g) for recording, processing and storing data about activity and location of individuals of free-living songbirds throughout the annual cycle. Activity level was determined every five minutes from five 100 ms samples of accelerometer data with 5 s between the sampling events. Activity levels were stored on an hourly basis throughout the annual cycle, allowing periods of resting/sleep, continuous flight and intermediate activity (foraging, breeding) to be distinguished. Measurements from a light sensor were stored from preprogrammed key stationary periods during the year to provide control information about geographic location. Successful results, including annual actogram, were obtained for a red-backed shrike Lanius collurio carrying out its annual loop migration between northern Europe and southern Africa. The shrike completed its annual migration by performing > 66 (max. 73) nocturnal migratory flights (29 flights in autumn and > 37, max. 44, in spring) adding up to a total of > 434 (max. 495) flight hours. Migratory flights lasted on average 6.6 h with maximum 15.9 h. These flights were aggregated into eight travel episodes (periods of 4-11 nights when flights took place on the majority of nights). Daytime resting levels were much higher during the winter period compared to breeding and final part of spring migration. Daytime resting showed peaks during days between successive nocturnal flights across Sahara, continental Africa and the Arabian Peninsula, indicating that the bird was mostly sleeping between these long migratory flights. Annual activity and flight data for free-living songbirds will open up many new research possibilities. Main topics that can be addressed are e.g. migratory flight performance (total flight investment, numbers and characteristics of flights), timing of stationary periods, activity patterns (resting/sleep, activity level) in different phases of the annual cycle and variability in the annual activity patterns between and within individuals.

UR - http://www.scopus.com/inward/record.url?scp=84979782502&partnerID=8YFLogxK

U2 - 10.1111/jav.01068

DO - 10.1111/jav.01068

M3 - Journal article

AN - SCOPUS:84979782502

VL - 48

SP - 309

EP - 319

JO - Journal of Avian Biology

JF - Journal of Avian Biology

SN - 0908-8857

IS - 2

ER -

ID: 173089448