Long‐term trends in the survival rates of adult female Common Eider<i>Somateria mollissima</i>at three colonies in Iceland

Wood, Kevin A.; Thorstensen, Sverrir; Lúðvíksson, Smári J.; Brides, Kane; Petersen, Aevar

doi:10.1111/ibi.12893

Cited by 10 publications

(13 citation statements)

References 53 publications

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“…However, the relative contribution of these factors remains unknown. Adding to this uncertainty, the drivers of the decline may show geographic variation (Öst et al., 2016), and eider demographic rates vary also between breeding colonies within the same region (Wood et al., 2021).…”

Section: Introductionmentioning

confidence: 99%

Eiders, nutrients and eagles: Bottom‐up and top‐down population dynamics in a marine bird

Morelli

Laursen

Svitok

et al. 2021

Journal of Animal Ecology

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The main objective of this long‐term study (1978–2016) was to find the underlying factors behind the declining trends of eider Somateria mollissima in the Baltic/Wadden Sea. Specifically, we aimed at quantifying the bottom‐up effect of nutrients, through mussel stocks, on reproduction and abundance of eider, and the top‐down effects caused by white‐tailed eagle Haliaeetus albicilla predation. Bottom‐up effects increase marine primary productivity with subsequent effects on food availability for a major mussel predator. Top‐down effects may also regulate eider populations because during incubation female eiders are vulnerable to predation by eagles. Our structural equation modelling explained a large percentage of the variance in eider abundance. We conclude that the Baltic/Wadden Sea eider population was regulated directly by white‐tailed sea eagle predation on incubating females and indirectly by the amount of nutrients in seawater affecting both mussel stocks and the breeding success of eiders, reflecting density dependence. These findings may explain the decreasing trend in the Baltic/Wadden Sea eider population during the last decades as an additive effect of top‐down and bottom‐up factors, and likely as an interaction between them.

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Section: Introductionmentioning

confidence: 99%

Eiders, nutrients and eagles: Bottom‐up and top‐down population dynamics in a marine bird

Morelli

Laursen

Svitok

et al. 2021

Journal of Animal Ecology

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“…Although the separation between the two groups of marine resources is not strongly supported by the mixing model (high correlation between the posterior distributions and overlap of credibility intervals), it appears likely that marine resources like common eiders, which are the most common waterfowl available throughout the year and are widely distributed in coastal areas, could represent an important part of the diet of Icelandic Arctic foxes. However, predation on eiders in Iceland is thought to be lower than for other populations in other areas since their protection is one of the reasons for the Icelandic fox culling program [26, 57]. A high importance of common eider in Arctic fox diet is also contrary to findings from prey remains at dens [20], where fulmars were the most common species.…”

Section: Discussionmentioning

confidence: 99%

Long-term responses of Icelandic Arctic foxes to changes in marine and terrestrial ecosystems

Berthelot

Ehrich

Unnsteinsdóttir

et al. 2023

Preprint

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The long-term dynamics of predator populations may be driven by fluctuations in resource availability and reflect ecosystem changes such as those induced by climate change. The Icelandic Arctic fox (Vulpes lagopus) population has known major fluctuations in size since the 1950s. Using stable isotopes analysis of bone collagen over a long-time series (1979-2018), we aimed at identifying the main resources used by Icelandic Arctic foxes during periods of growth and decline to assess if the variations in their population size are linked to fluctuations in the availability of resources. We hypothesized that (1) the decline in seabirds abundance was responsible for the decrease in the fox population; and (2) that the growth in the fox population combined to fluctuations in main resources would lead to an increase in intra-specific competition, ultimately leading to variations in their isotopic niches at the population scale. The isotopic signatures of Arctic foxes as well as their temporal trends differed clearly between inland and coast. Inland foxes showed an overall shift towards more terrestrial preys, whereas coastal foxes displayed a relatively stable use of marine resources over the years. Stable isotopes mixing models suggested that marine resources and rock ptarmigans were the most important food sources, and highlighted a rather stable diet in coastal habitats compared to inland habitats where more fluctuations in dietary composition were observed. Coastal foxes had a broader niche than inland foxes, and there was more variation in niche size in the inland habitat. Our results are in agreement with a general decline in seabird populations driving the decline in Arctic foxes, especially in coastal habitats. For the inland foxes, our results suggest that the lack of marine resources might have led to an increase use of ptarmigans as well as other terrestrial resources such as geese and waders, especially during the most recent period.

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“…Clair et al 2010). For context, we recently examined adult survival in Arctic terns (Sterna paradisaea) and common eiders nesting on Flatey, and estimated rates were amongst the highest reported for each species (Petersen et al 2020;Wood et al 2021). The snipe apparent survival rate on Flatey could be a bit higher than elsewhere on mainland Iceland, where nesting birds may experience predation pressure from feral American mink (Neovison vison) and Arctic fox (Vulpes lagopus).…”

Section: Discussionmentioning

confidence: 99%

Adult survival and annual movement patterns of common snipe in Iceland

Petersen¹,

Thorstensen²,

Petersen

et al. 2023

Polar Research

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The common snipe (Gallinago gallinago) is a wader that breeds in subarctic regions from Iceland to Russia, and for which global populations are in decline. We studied snipe breeding in western Iceland between 1998 and 2020, locating nests and ringing birds annually. In 2019 and 2020, we deployed geolocators on nesting adults to estimate the timing of their annual migration and the location of overwintering areas. Birds moved principally between breeding locations in Iceland to wintering areas in Ireland, although some birds may winter farther north. We also found that apparent annual adult survival averaged 66%, but was higher in years with warmer, wetter winters. Given the similarity of our survival estimates to those from snipe elsewhere, we suggest that adult survival is unlikely a major contributor to declining populations, and other factors like habitat loss may be of more concern.

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Long‐term trends in the survival rates of adult female Common EiderSomateria mollissimaat three colonies in Iceland

Cited by 10 publications

References 53 publications

Eiders, nutrients and eagles: Bottom‐up and top‐down population dynamics in a marine bird

Eiders, nutrients and eagles: Bottom‐up and top‐down population dynamics in a marine bird

Long-term responses of Icelandic Arctic foxes to changes in marine and terrestrial ecosystems

Adult survival and annual movement patterns of common snipe in Iceland

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