Relationship between wintering site and survival in a migratory waterbird using different migration routes
Ferreira, H.R.S.; Champagnon, J.; Alves, J.A.; Lok, T. (2024). Relationship between wintering site and survival in a migratory waterbird using different migration routes. Oecologia 204(3): 613-624. https://dx.doi.org/10.1007/s00442-024-05518-x
In: Oecologia. Springer: Heidelberg; Berlin. ISSN 0029-8549; e-ISSN 1432-1939, more
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Author keywords |
Apparent survival; Capture-recapture; Cormack–Jolly–Seber models; Life history; Platalea leucorodia; Pre-breeding migration; Resighting probability; Seasonal migration; Wintering strategies |
Authors | | Top |
- Ferreira, H.R.S.
- Champagnon, J.
- Alves, J.A.
- Lok, T., more
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Abstract |
When wintering at different sites, individuals from the same breeding population can experience different conditions, with costs and benefits that may have implications throughout their lifetime. Using a dataset from a longitudinal study on Eurasian Spoonbills from southern France, we explored whether survival rate varied among individuals using different wintering sites. In the last 13 years, more than 3000 spoonbills have been ringed as chicks in Camargue. These birds winter in five main regions that vary in both migratory flyway (East Atlantic vs. Central European) and migration distance (long-distance vs. short-distance vs. resident). We applied Cormack–Jolly–Seber models and found evidence for apparent survival to correlate with migration distance, but not with flyway. During the interval between the first winter sighting and the next breeding period, long-distance migrants had the lowest survival, independently of the flyway taken. Additionally, as they age, spoonbills seem to better cope with migratory challenges and wintering conditions as no differences in apparent survival among wintering strategies were detected during subsequent years. As dispersal to other breeding colonies was rarely observed, the lower apparent survival during this period is likely to be partly driven by lower true survival. This supports the potential role of crossing of natural barriers and degradation of wintering sites in causing higher mortality rates as recorded for a variety of long-distance migrants. Our work confirms variation in demographic parameters across winter distribution ranges and reinforces the importance of longitudinal studies to better understand the complex demographics of migratory species. |
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