Conserving bird populations in the Anthropocene: the significance of non-breeding movements

To conserve bird species threatened by climate change, it is important to understand how environmental factors affected by climate change, such as snow cover, impact their ranges. While this problem is fairly well understood for breeding areas, it remains poorly understood for non-breeding areas. In...

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Main Authors:	Pokrovsky, Ivan, Curk, Teja, Dietz, Andreas, Fufachev, Ivan, Kulikova, Olga, Rößler, Sebastian, Wikelski, Martin
Format:	Other/Unknown Material
Language:	unknown
Published:	eLife Sciences Publications, Ltd 2023
Subjects:	taiga
Online Access:	http://dx.doi.org/10.7554/elife.87668.1

id	crelifesciences:10.7554/elife.87668.1
record_format	openpolar
spelling	crelifesciences:10.7554/elife.87668.1 2024-05-19T07:49:22+00:00 Conserving bird populations in the Anthropocene: the significance of non-breeding movements Pokrovsky, Ivan Curk, Teja Dietz, Andreas Fufachev, Ivan Kulikova, Olga Rößler, Sebastian Wikelski, Martin 2023 http://dx.doi.org/10.7554/elife.87668.1 unknown eLife Sciences Publications, Ltd http://creativecommons.org/licenses/by/4.0/ posted-content 2023 crelifesciences https://doi.org/10.7554/elife.87668.1 2024-05-01T07:20:44Z To conserve bird species threatened by climate change, it is important to understand how environmental factors affected by climate change, such as snow cover, impact their ranges. While this problem is fairly well understood for breeding areas, it remains poorly understood for non-breeding areas. In non-breeding areas, seasonal cycles can strongly influence the distribution of resources during winter. If birds adapt to such changes, they may result in seasonal and directional movement of birds within their non-breeding range. In this case, birds would experience a unique migration pattern - rapid migration between breeding and non-breeding habitats versus a slow migration pattern within their non-breeding range. Their non-breeding range would therefore be dynamic, with potentially important consequences for our understanding of population densities and non-breeding ranges. Between 2013-2021, we tracked 43 adult Rough-legged buzzards with solar GPS-GSM loggers. We analyzed their behavior, determined whether the birds showed any directional return migrations during the non-breeding season, and evaluated the differences between the slow migration within their winter range and the quick migration between breeding and non-breeding areas. We also analyzed the vegetation cover of the areas crossed during quick and slow migrations and the role of snow cover in winter migrations. Our findings revealed that after a quick fall migration through the taiga zone, Rough-legged buzzards continue to migrate during the non-breeding season, albeit at a slower pace across the wooded fields they select as habitat. They avoid complete snow cover and move to escape the progression of the snow cover line from northeast to southwest and back during the winter. As a consequence, Rough-legged buzzards have a dynamic winter range. Thus, the migration pattern of these birds comprises alternating quick and slow phases, resembling the foxtrot dance, which we have named the ‘foxtrot’ migration pattern. Due to this pattern, their winter range ... Other/Unknown Material taiga eLife
institution	Open Polar
collection	eLife
op_collection_id	crelifesciences
language	unknown
description	To conserve bird species threatened by climate change, it is important to understand how environmental factors affected by climate change, such as snow cover, impact their ranges. While this problem is fairly well understood for breeding areas, it remains poorly understood for non-breeding areas. In non-breeding areas, seasonal cycles can strongly influence the distribution of resources during winter. If birds adapt to such changes, they may result in seasonal and directional movement of birds within their non-breeding range. In this case, birds would experience a unique migration pattern - rapid migration between breeding and non-breeding habitats versus a slow migration pattern within their non-breeding range. Their non-breeding range would therefore be dynamic, with potentially important consequences for our understanding of population densities and non-breeding ranges. Between 2013-2021, we tracked 43 adult Rough-legged buzzards with solar GPS-GSM loggers. We analyzed their behavior, determined whether the birds showed any directional return migrations during the non-breeding season, and evaluated the differences between the slow migration within their winter range and the quick migration between breeding and non-breeding areas. We also analyzed the vegetation cover of the areas crossed during quick and slow migrations and the role of snow cover in winter migrations. Our findings revealed that after a quick fall migration through the taiga zone, Rough-legged buzzards continue to migrate during the non-breeding season, albeit at a slower pace across the wooded fields they select as habitat. They avoid complete snow cover and move to escape the progression of the snow cover line from northeast to southwest and back during the winter. As a consequence, Rough-legged buzzards have a dynamic winter range. Thus, the migration pattern of these birds comprises alternating quick and slow phases, resembling the foxtrot dance, which we have named the ‘foxtrot’ migration pattern. Due to this pattern, their winter range ...
format	Other/Unknown Material
author	Pokrovsky, Ivan Curk, Teja Dietz, Andreas Fufachev, Ivan Kulikova, Olga Rößler, Sebastian Wikelski, Martin
spellingShingle	Pokrovsky, Ivan Curk, Teja Dietz, Andreas Fufachev, Ivan Kulikova, Olga Rößler, Sebastian Wikelski, Martin Conserving bird populations in the Anthropocene: the significance of non-breeding movements
author_facet	Pokrovsky, Ivan Curk, Teja Dietz, Andreas Fufachev, Ivan Kulikova, Olga Rößler, Sebastian Wikelski, Martin
author_sort	Pokrovsky, Ivan
title	Conserving bird populations in the Anthropocene: the significance of non-breeding movements
title_short	Conserving bird populations in the Anthropocene: the significance of non-breeding movements
title_full	Conserving bird populations in the Anthropocene: the significance of non-breeding movements
title_fullStr	Conserving bird populations in the Anthropocene: the significance of non-breeding movements
title_full_unstemmed	Conserving bird populations in the Anthropocene: the significance of non-breeding movements
title_sort	conserving bird populations in the anthropocene: the significance of non-breeding movements
publisher	eLife Sciences Publications, Ltd
publishDate	2023
url	http://dx.doi.org/10.7554/elife.87668.1
genre	taiga
genre_facet	taiga
op_rights	http://creativecommons.org/licenses/by/4.0/
op_doi	https://doi.org/10.7554/elife.87668.1
_version_	1799467867292303360

Conserving bird populations in the Anthropocene: the significance of non-breeding movements

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