Markus Öst scite author profile

The phenology of spring migration depends on the severity of the preceding winter and approaching spring. This severity can be quantified using the North Atlantic Oscillation (NAO) index; positive values indicate mild winters. Although milder winters are correlated with earlier migration in many birds in temperate regions, few studies have addressed how climate-induced variation in spring arrival relates to breeding success. In northern Europe, the NAO-index correlates with ice cover and timing of ice break-up of the Baltic Sea. Ice cover plays an important role for breeding waterfowl, since the timing of ice break-up constrains both spring arrival and onset of breeding. We studied the effects of the winter-NAO-index and timing of ice break-up on spring migration, laying date, clutch size, female body condition at hatching and fledging success of a shortdistance migrant common eider (Somateria mollissima) population from SW Finland, the Baltic Sea, 1991Sea, -2004Sea, (migration data 1979Sea, -2004. We also examined the correlation between the NAO-index and the proportion of juvenile eiders in the Danish hunting bag, which reflects the breeding success on a larger spatial scale. The body condition of breeding females and proportion of juveniles in the hunting bag showed significant positive correlations with the NAO, whereas arrival dates showed positive correlations and clutch size and fledging success showed negative correlations with the timing of ice break-up. The results suggest that climate, which also affects ice conditions, has an important effect on the fledging success of eiders. Outbreaks of duckling disease epidemics may be the primary mechanism underlying this effect. Eider females are in poorer condition after severe winters and cannot allocate as much resources to breeding, which may impair the immune defense of ducklings. Global climate warming is expected to increase the future breeding success of eiders in our study population.

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Philopatric predisposition to predation-induced ecological traps: habitat-dependent mortality of breeding eiders

Ekroos

et al. 2012

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Because population size is sensitive to changes in adult survival, adult survival may be buffered against environmental variability. Philopatry may be adaptive in changing environments, but it could also constrain breeding habitat selection under changing conditions such as shifting predation regimes. Habitat preference and quality could become decoupled in long-lived philopatric species that evolved in stable environments when suddenly faced by increased adult predation risk, as dispersal may be triggered by past reproductive failure. We evaluated whether the Baltic eider (Somateria m. mollissima) population may currently face a predation-induced ecological trap. Eiders are philopatric and nest on open and forested islands. We hypothesized that open-nesting females would be disproportionately affected by increased predation. We compared female annual survival in these two habitats in 1996-2010. We also tested for effects of time trends, winter severity (NAO), female body condition, and habitat-specific predation pressure on survival. Our results revealed the lowest survival recorded for this species (Φ = 0.720), and survival on open islands was significantly lower (Φ = 0.679) than on forested islands (Φ = 0.761). Nonetheless, only 0.7 % of females changed breeding habitat type despite ample availability of alternative islands, and breeding phenology in both habitats was similar. Female survival increased with body condition, while it was unrelated to winter climate and stable over time. Open islands had a higher predation pressure on incubating females. Breeding philopatry results in a predator-mediated ecological trap for open-nesting eiders. Our results contribute to explaining the drastic decline of the Baltic eider population.

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Stress responsiveness, age and body condition interactively affect flight initiation distance in breeding female eiders

et al. 2012

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Markus Öst

Winter climate affects subsequent breeding success of common eiders

Philopatric predisposition to predation-induced ecological traps: habitat-dependent mortality of breeding eiders

Stress responsiveness, age and body condition interactively affect flight initiation distance in breeding female eiders

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