Data from: Forecasting spring from afar? Timing of migration and predictability of phenology along different migration routes of an avian herbivore [Barents Sea data]

Citation
van der Jeugd H, Osterbeek K, Ens BJ, Shamoun-Baranes J, Exo K. 2014. Data from: Forecasting spring from afar? Timing of migration and predictability of phenology along different migration routes of an avian herbivore [Barents Sea data]. Movebank Data Repository. https://doi.org/10.5441/001/1.ps244r11
Abstract
1. Herbivorous birds are hypothesized to migrate in spring along a seasonal gradient of plant profitability towards their breeding grounds (green wave hypothesis). For Arctic-breeding species in particular, following highly profitable food is important, so that they can replenish resources along the way and arrive in optimal body condition to start breeding early. 2. We compared the timing of migratory movements of Arctic-breeding geese on different flyways to examine whether flyways differed in the predictability of spring conditions at stopovers, and whether this was reflected in the degree to which birds were following the green wave. 3. Barnacle geese (Branta leucopsis) were tracked with solar Argos/GPS PTTs from their wintering grounds to breeding sites in Greenland (N = 7), Svalbard (N = 21) and the Barents Sea (N = 12). The numerous stopover sites of all birds were combined into a set of 16 general stopover regions. 4. The predictability of climatic conditions along the flyways was calculated as the correlation and slope between onsets of spring at consecutive stopovers. These values differed between sites, mainly because of the presence or absence of ecological barriers. Goose arrival at stopovers was more closely tied to the local onset of spring when predictability was higher and when geese attempted breeding that year. 5. All birds arrived at early stopovers after the onset of spring and arrived at the breeding grounds before the onset of spring, thus overtaking the green wave. This is in accordance with patterns expected for capital breeders: first they must come into condition; at intermediate stopovers arrival with the food quality peak is important to stay in condition and at the breeding grounds early arrival is favoured so that hatching of young can coincide with the peak of food quality. 6. Our results suggest that a chain of correlations between climatic conditions at subsequent stopovers enables geese to closely track the green wave. However, the birds’ precision of migratory timing seems uninfluenced by ecological barriers, indicating partly fixed migration schedules. These might become non-optimal due to climate warming and preclude accurate timing of long-distance migrants in the future.
Keywords
Branta leucopsis,animal tracking,Argos,barnacle goose,Branta leucopsis,capital breeding,climatic barrier,green wave hypothesis,migration flyway,onset of spring
Taxa
Taxon
Branta leucopsis
Barnacle Goose
Sensors
Sensor
GPS
Related Workflows
BibTex
@misc{001/1_ps244r11,
  title = {Data from: Forecasting spring from afar? Timing of migration and predictability of phenology along different migration routes of an avian herbivore [Barents Sea data]},
  author = {van, der, Jeugd, H and Osterbeek, K and Ens, BJ and Shamoun-Baranes, J and Exo, K},
  year = {2014},
  URL = {http://dx.doi.org/10.5441/001/1.ps244r11},
  doi = {doi:10.5441/001/1.ps244r11},
  publisher = {Movebank data repository}
}
RIS
TY  - DATA
ID  - doi:10.5441/001/1.ps244r11
T1  - Data from: Forecasting spring from afar? Timing of migration and predictability of phenology along different migration routes of an avian herbivore [Barents Sea data]
AU  - van der Jeugd, Henk
AU  - Osterbeek, Kees
AU  - Ens, Bruno J
AU  - Shamoun-Baranes, Judy
AU  - Exo, Klaus-Michael
Y1  - 2014/09/01
KW  - Branta leucopsis
KW  - animal migration
KW  - animal tracking
KW  - Argos
KW  - barnacle goose
KW  - Branta leucopsis
KW  - capital breeding
KW  - climatic barrier
KW  - green wave hypothesis
KW  - migration flyway
KW  - onset of spring
KW  - Branta leucopsis
PB  - Movebank data repository
UR  - http://dx.doi.org/10.5441/001/1.ps244r11
DO  - doi:10.5441/001/1.ps244r11
ER  -
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