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

Morelli, Federico; Laursen, Karsten; Svitok, Marek; Benedetti, Yanina; Møller, Anders Pape

doi:10.1111/1365-2656.13498

Cited by 9 publications

(14 citation statements)

References 68 publications

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“…A relation found between fertilizers and mussels on the Wadden Sea would indicate that the availability of dissolved nutrients (DIN and DIP as linked to fertilizer use 58 ) can be used as a proxy for mussel abundance and quality in the southern Baltic Sea. The results shown for other seabird populations in that region 70 , 71 support this reasoning.…”

Section: Methodssupporting

confidence: 63%

“…5 ). The processes influencing long-tailed duck populations in these two habitats hypothetically are driven by different ecological interactions, for example predator-driven on the breeding grounds 12 , 14 , 80 and resource-driven on the wintering grounds 45 , 58 , 70 , 71 . For example, precipitation evidently influences lemming dynamics on the breeding grounds while temperature and nutrient runoff from the land are thought to affect mussel reproduction, growth and survival on the wintering grounds.…”

Section: Discussionmentioning

confidence: 99%

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Large-scale changes in marine and terrestrial environments drive the population dynamics of long-tailed ducks breeding in Siberia

Rintala¹,

Hario

Laursen

et al. 2022

Sci Rep

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Migratory animals experience very different environmental conditions at different times of the year, i.e., at the breeding grounds, during migration, and in winter. The long-tailed duck Clangula hyemalis breeds in the Arctic regions of the northern hemisphere and migrates to temperate climate zones, where it winters in marine environments. The breeding success of the long-tailed duck is affected by the abundances of predators and their main prey species, lemmings Lemmus sibiricus and Dicrostonyx torquatus, whose population fluctuation is subject to climate change. In the winter quarters, long-tailed ducks mainly eat the blue mussel Mytilus edulis. We examined how North-west Siberian lemming dynamics, assumed as a proxy for predation pressure, affect long-tailed duck breeding success and how nutrient availability in the Baltic Sea influences long-tailed duck population size via mussel biomass and quality. Evidence suggests that the long-tailed duck population dynamics was predator-driven on the breeding grounds and resource-driven on the wintering grounds. Nutrients from fertilizer runoff from farmland stimulate mussel stocks and quality, supporting high long-tailed duck population sizes. The applied hierarchical analysis combining several trophic levels can be used for evaluating large-scale environmental factors that affect the population dynamics and abundance of migrants from one environment to another.

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Section: Methodssupporting

confidence: 63%

Section: Discussionmentioning

confidence: 99%

Large-scale changes in marine and terrestrial environments drive the population dynamics of long-tailed ducks breeding in Siberia

Rintala¹,

Hario

Laursen

et al. 2022

Sci Rep

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“…Some long‐term studies have examined aspects of breeding in birds (e.g., song sparrows (Arcese et al, 1992); Seychelle warblers (Brouwer et al, 2012); acorn woodpeckers (Koenig et al, 2011); white‐throated dippers (Nilsson et al, 2011); eiders (Coulson, 2010; Morelli et al, 2021)), but causes of variation in avian breeding success have largely been inferred from short‐term, single‐factor correlations. In Eurasian boreal forest grouse, no previous study has looked at several potential factors operating simultaneously on the same population over a long period.…”

Section: Introductionmentioning

confidence: 99%

“…Aiming to identify the main drivers of annual variation in reproduction, we examine how breeding success varied with a range of bottom-up and top-down factors in two species of Eurasian boreal forest grouse, the capercaillie (Tetrao urogallus) and the black grouse (T. tetrix). Some long-term studies have examined aspects of breeding in birds (e.g., song sparrows (Arcese et al, 1992); Seychelle warblers (Brouwer et al, 2012); acorn woodpeckers (Koenig et al, 2011); white-throated dippers (Nilsson et al, 2011); eiders (Coulson, 2010;Morelli et al, 2021)), but causes of variation in avian breeding success have largely been inferred from short-term, single-factor correlations. In Eurasian boreal forest grouse, no previous study has looked at several potential factors operating simultaneously on the same population over a long period.…”

Section: Introductionmentioning

confidence: 99%

Annual variation in breeding success in boreal forest grouse: Four decades of monitoring reveals bottom‐up drivers to be more important than predation

Wegge

Moss²,

Rolstad

2022

Ecology and Evolution

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Knowledge of the temporal variation in reproductive success and its key driving factors is crucial in predicting animal population persistence. Few studies have examined the effects of a range of explanatory factors operating simultaneously on the same population over a long period. Based on 41 years of monitoring , we tested prevailing hypotheses about drivers of annual variation in breeding success in two sympatric species of boreal forest grouse-the capercaillie (Tetrao urogallus) and the black grouse (T. tetrix)-in a 45 km 2 boreal forest landscape. From counts in early August, we measured breeding success (chicks/hen) along with potential determining factors. We formulated five main hypotheses on causes of variation (hen condition, chick weather, chick food, predation, demographic characteristics) and derived 13 associated explanatory variables for analysis. We first tested the five hypotheses separately and then used model selection (AICc) to rank the best predictive models irrespective of hypotheses. Lastly, we used path analysis to illuminate potential causal relationships. Barring demographic characteristics, all hypotheses were supported, most strongly for chick food and predation. Among predictor variables, chick food (insect larvae and bilberry fruit crops), vole and fox abundances, the winter-NAO index, and temperature after hatching, had the strongest effect sizes in both species. Precipitation after hatching had no detectable effect. Model selection indicated bottom-up factors to be more important than predation, but confounding complicated interpretation. Path analysis suggested that the high explanatory power of bilberry fruiting was due not only to its direct positive effect on chick food quality but also to an indirect positive effect on vole abundance, which buffers predation. The two components of breeding success-proportion of hens with broods and number of chicks per brood-were uncorrelated, the former having the strongest effect. The two components had different ecological correlates that often varied asynchronously, resulting in overall breeding success fluctuating around low to moderate levels. Our study highlights the complexity of key explanatory drivers and the importance of considering multiple hypotheses of breeding success. Although chick food appeared to

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“…Due to these ongoing declines, the European population is now listed as endangered [ 1 ]. Many factors may be contributing to the observed decline, including increased predation pressure [ 12 , 13 , 14 ], inappropriate hunting management [ 11 ], reduction in food availability linked to natural yearly fluctuations in mussel stocks, and intensification of commercial mussel exploitation [ 15 , 16 , 17 ], as well as Pasteurella (P.) multocida epidemics [ 18 , 19 ].…”

Section: Introductionmentioning

confidence: 99%

Health Status of Bycaught Common Eiders (Somateria mollissima) from the Western Baltic Sea

Schick

Wohlsein

Rautenschlein

et al. 2022

Animals

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The Common Eider (Somateria mollissima) inhabits the entire northern hemisphere. In northern Europe, the flyway population reaches from the southern Wadden Sea to the northern Baltic coast. The European population is classified as endangered due to declines in Common Eider numbers across Europe since 1990. In this study, we assessed 121 carcasses of Common Eiders, captured incidentally in gillnets in the Western Baltic between 2017 and 2019. The most common findings were parasitic infections of the intestine by acanthocephalans in 95 animals, which correlated with enteritis in 50% of the cases. Parasites were identified as Profilicollis botulus in 25 selected animals. Additionally, oesophageal pustules, erosions, and ulcerations, presumably of traumatic origin, were frequently observed. Nephritis and hepatitis were frequent, but could not be attributed to specific causes. Lung oedema, fractures and subcutaneous haemorrhages likely resulted from entangling and drowning. Two Common Eiders had mycobacterial infections and in one of these, Mycobacterium avium subspecies (ssp.) avium was identified. This study gives an overview of morphological changes and infectious diseases from one location of the European flyway population. It contributes to future health studies on Common Eiders in the Baltic and Wadden Seas by providing baseline information to compare with other areas or circumstances.

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

Cited by 9 publications

References 68 publications

Large-scale changes in marine and terrestrial environments drive the population dynamics of long-tailed ducks breeding in Siberia

Large-scale changes in marine and terrestrial environments drive the population dynamics of long-tailed ducks breeding in Siberia

Annual variation in breeding success in boreal forest grouse: Four decades of monitoring reveals bottom‐up drivers to be more important than predation

Health Status of Bycaught Common Eiders (Somateria mollissima) from the Western Baltic Sea

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