Migratory connectivity and effects of winter temperatures on migratory behaviour of the European robin Erithacus rubecula: a continent‐wide analysis

Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver of such variability through its differential effects on sedentary and migratory individuals. Based on long‐term (1947–2011) bird ringing data, we...

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Published in	The Journal of animal ecology Vol. 85; no. 3; pp. 749 - 760
Main Authors	Ambrosini, Roberto, Cuervo, José Javier, du Feu, Chris, Fiedler, Wolfgang, Musitelli, Federica, Rubolini, Diego, Sicurella, Beatrice, Spina, Fernando, Saino, Nicola, Møller, Anders Pape
Format	Journal Article
Language	English
Published	England Blackwell Scientific Publ 01.05.2016 John Wiley & Sons Ltd Blackwell Publishing Ltd
Subjects	Animal Migration - physiology Animals Biogeography Bird migration Climate climate change Climate ecology Erithacus rubecula Europe European robin mortality partial migration phenotypic differentiation Seasons Songbirds - physiology Temperature Winter British Isles Scandinavia Western European region mortality partial migration phenotypic differentiation European robin Erithacus rubecula climate change
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Abstract	Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver of such variability through its differential effects on sedentary and migratory individuals. Based on long‐term (1947–2011) bird ringing data, we analysed phenotypic differentiation of migratory behaviour among populations of the European robin Erithacus rubecula across Europe. We showed that clusters of populations sharing breeding and wintering ranges varied from partial (British Isles and Western Europe, NW cluster) to completely migratory (Scandinavia and north‐eastern Europe, NE cluster). Distance migrated by birds of the NE (but not of the NW) cluster decreased through time because of a north‐eastwards shift in the wintering grounds. Moreover, when winter temperatures in the breeding areas were cold, individuals from the NE cluster also migrated longer distances, while those of the NW cluster moved over shorter distances. Climatic conditions may therefore affect migratory behaviour of robins, although large geographical variation in response to climate seems to exist.
AbstractList	1. Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver of such variability through its differential effects on sedentary and migratory individuals. 2. Based on long-term (1947-2011) bird ringing data, we analysed phenotypic differentiation of migratory behaviour among populations of the European robin Erithacus rubecula across Europe. 3. We showed that clusters of populations sharing breeding and wintering ranges varied from partial (British Isles and Western Europe, NW cluster) to completely migratory (Scandinavia and north-eastern Europe, NE cluster). 4. Distance migrated by birds of the NE (but not of the NW) cluster decreased through time because of a north-eastwards shift in the wintering grounds. Moreover, when winter temperatures in the breeding areas were cold, individuals from the NE cluster also migrated longer distances, while those of the NW cluster moved over shorter distances. 5. Climatic conditions may therefore affect migratory behaviour of robins, although large geographical variation in response to climate seems to exist. To assess the response of animal populations to changing climate, we need long time series of data. Ringing data are an invaluable tool for such analyses. They show that climatic conditions affect migratory behaviour of the European robin determining a reduction in migration distance and a shift in their wintering grounds. Summary Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver of such variability through its differential effects on sedentary and migratory individuals. Based on long-term (1947-2011) bird ringing data, we analysed phenotypic differentiation of migratory behaviour among populations of the European robin Erithacus rubecula across Europe. We showed that clusters of populations sharing breeding and wintering ranges varied from partial (British Isles and Western Europe, NW cluster) to completely migratory (Scandinavia and north-eastern Europe, NE cluster). Distance migrated by birds of the NE (but not of the NW) cluster decreased through time because of a north-eastwards shift in the wintering grounds. Moreover, when winter temperatures in the breeding areas were cold, individuals from the NE cluster also migrated longer distances, while those of the NW cluster moved over shorter distances. Climatic conditions may therefore affect migratory behaviour of robins, although large geographical variation in response to climate seems to exist. Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver of such variability through its differential effects on sedentary and migratory individuals. Based on long‐term (1947–2011) bird ringing data, we analysed phenotypic differentiation of migratory behaviour among populations of the European robin Erithacus rubecula across Europe. We showed that clusters of populations sharing breeding and wintering ranges varied from partial (British Isles and Western Europe, NW cluster) to completely migratory (Scandinavia and north‐eastern Europe, NE cluster). Distance migrated by birds of the NE (but not of the NW) cluster decreased through time because of a north‐eastwards shift in the wintering grounds. Moreover, when winter temperatures in the breeding areas were cold, individuals from the NE cluster also migrated longer distances, while those of the NW cluster moved over shorter distances. Climatic conditions may therefore affect migratory behaviour of robins, although large geographical variation in response to climate seems to exist. 1. Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver of such variability through its differential effects on sedentary and migratory individuals. 2. Based on long-term (1947-2011) bird ringing data, we analysed phenotypic differentiation of migratory behaviour among populations of the European robin Erithacus rubecula across Europe. 3. We showed that clusters of populations sharing breeding and wintering ranges varied from partial (British Isles and Western Europe, NW cluster) to completely migratory (Scandinavia and north-eastern Europe, NE cluster). 4. Distance migrated by birds of the NE (but not of the NW) cluster decreased through time because of a north-eastwards shift in the wintering grounds. Moreover, when winter temperatures in the breeding areas were cold, individuals from the NE cluster also migrated longer distances, while those of the NW cluster moved over shorter distances. 5. Climatic conditions may therefore affect migratory behaviour of robins, although large geographical variation in response to climate seems to exist. Summary Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver of such variability through its differential effects on sedentary and migratory individuals. Based on long‐term (1947–2011) bird ringing data, we analysed phenotypic differentiation of migratory behaviour among populations of the European robin Erithacus rubecula across Europe. We showed that clusters of populations sharing breeding and wintering ranges varied from partial (British Isles and Western Europe, NW cluster) to completely migratory (Scandinavia and north‐eastern Europe, NE cluster). Distance migrated by birds of the NE (but not of the NW) cluster decreased through time because of a north‐eastwards shift in the wintering grounds. Moreover, when winter temperatures in the breeding areas were cold, individuals from the NE cluster also migrated longer distances, while those of the NW cluster moved over shorter distances. Climatic conditions may therefore affect migratory behaviour of robins, although large geographical variation in response to climate seems to exist. To assess the response of animal populations to changing climate, we need long time series of data. Ringing data are an invaluable tool for such analyses. They show that climatic conditions affect migratory behaviour of the European robin determining a reduction in migration distance and a shift in their wintering grounds. Summary Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver of such variability through its differential effects on sedentary and migratory individuals. Based on long‐term (1947–2011) bird ringing data, we analysed phenotypic differentiation of migratory behaviour among populations of the European robin Erithacus rubecula across Europe. We showed that clusters of populations sharing breeding and wintering ranges varied from partial (British Isles and Western Europe, NW cluster) to completely migratory (Scandinavia and north‐eastern Europe, NE cluster). Distance migrated by birds of the NE (but not of the NW ) cluster decreased through time because of a north‐eastwards shift in the wintering grounds. Moreover, when winter temperatures in the breeding areas were cold, individuals from the NE cluster also migrated longer distances, while those of the NW cluster moved over shorter distances. Climatic conditions may therefore affect migratory behaviour of robins, although large geographical variation in response to climate seems to exist.
Author	Ambrosini, Roberto Saino, Nicola Rubolini, Diego Cuervo, José Javier Spina, Fernando Møller, Anders Pape Sicurella, Beatrice Musitelli, Federica du Feu, Chris Fiedler, Wolfgang
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Keywords	mortality partial migration phenotypic differentiation European robin Erithacus rubecula climate change
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Snippet	Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver of... 1. Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major driver... Summary Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major... Summary Many partially migratory species show phenotypically divergent populations in terms of migratory behaviour, with climate hypothesized to be a major...
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SubjectTerms	Animal Migration - physiology Animals Biogeography Bird migration Climate climate change Climate ecology Erithacus rubecula Europe European robin mortality partial migration phenotypic differentiation Seasons Songbirds - physiology Temperature Winter
Title	Migratory connectivity and effects of winter temperatures on migratory behaviour of the European robin Erithacus rubecula: a continent‐wide analysis
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