Barrier crossing in small avian migrants: individual tracking reveals prolonged nocturnal flights into the day as a common migratory strategy
Jazyk angličtina Země Anglie, Velká Británie Médium electronic
Typ dokumentu časopisecké články, práce podpořená grantem
PubMed
26876925
PubMed Central
PMC4753512
DOI
10.1038/srep21560
PII: srep21560
Knihovny.cz E-zdroje
- MeSH
- chov MeSH
- geografické informační systémy MeSH
- let zvířat fyziologie MeSH
- migrace zvířat fyziologie MeSH
- zpěvní ptáci fyziologie MeSH
- zvířata MeSH
- Check Tag
- zvířata MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
- Geografické názvy
- severní Afrika MeSH
- Středozemní moře MeSH
Over decades it has been unclear how individual migratory songbirds cross large ecological barriers such as seas or deserts. By deploying light-level geolocators on four songbird species weighing only about 12 g, we found that these otherwise mainly nocturnal migrants seem to regularly extend their nocturnal flights into the day when crossing the Sahara Desert and the Mediterranean Sea. The proportion of the proposed diurnally flying birds gradually declined over the day with similar landing patterns in autumn and spring. The prolonged flights were slightly more frequent in spring than in autumn, suggesting tighter migratory schedules when returning to breeding sites. Often we found several patterns for barrier crossing for the same individual in autumn compared to the spring journey. As only a small proportion of the birds flew strictly during the night and even some individuals might have flown non-stop, we suggest that prolonged endurance flights are not an exception even in small migratory species. We emphasise an individual's ability to perform both diurnal and nocturnal migration when facing the challenge of crossing a large ecological barrier to successfully complete a migratory journey.
Department of Bird Migration Swiss Ornithological Institute Seerose 1 CH 6204 Sempach Switzerland
Department of Zoology Palacký University tř 17 listopadu 50 CZ 771 46 Olomouc Czech Republic
Michael Otto Institut im NABU Goosstroot 1 D 24861 Bergenhusen Germany
Museum of Natural History nám Republiky 5 CZ 771 73 Olomouc Czech Republic
Section of Ecology Department of Biology University of Turku FI 20014 Turku Finland
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Newton I. The Migration Ecology of Birds. Ch. 24, 699–727 (Academic Press, 2008).
Hahn S., Bauer S. & Liechti F. The natural link between Europe and Africa–2.1 billion birds on migration. Oikos 118, 624–626 (2009).
Moreau R. E. Problems of Mediterranean-Saharan migration. Ibis 103, 373–427, 580–623 (1961).
Biebach H., Friedrich W. & Heine G. Interaction of bodymass, fat, foraging and stopover period in trans-Sahara migrating passerine birds. Oecologia 69, 370–379 (1986). PubMed
Bairlein F. How do migratory songbirds cross the Sahara? Trends Ecol. Evol. 3, 191–194 (1988). PubMed
Schmaljohann H., Liechti F. & Bruderer B. Songbird migration across the Sahara: the non-stop hypothesis rejected! Proc. R. Soc. B-Biological Sci. 274, 735–739 (2007). PubMed PMC
Eraud C. et al. Migration routes and staging areas of trans-Saharan Turtle Doves appraised from light-level geolocators. PLoS One 8, e59396 (2013). PubMed PMC
Gauthreaux S. A. In Anim. Migr. Navig. Homing (ed. Schmidt-Koenig K. & Keeton W. T.) 219–227 (Springer-Verlag, 1978).
Nisbet I., McNair D., Post W. & Williams T. Transoceanic migration of the Blackpoll Warbler: summary of scientific evidence and response to criticisms by Murray. J. F. Ornithol. 66, 612–622 (1995).
Biebach H. et al. Strategies of passerine migration across the Mediterranean Sea and the Sahara Desert: a radar study. Ibis 142, 623–634 (2000).
Schmaljohann H., Liechti F. & Bruderer B. Daytime passerine migrants over the Sahara–are these diurnal migrants or prolonged flights of nocturnal migrants? Ostrich 78, 357–362 (2007).
Dorka V. Das jahres- und tageszeitliche Zugmuster von Kurz- und Langstreckenziehern nach Beobachtungen auf den Alpenpässen Cou/Bretolet (Wallis).
DeLuca W. V et al. Transoceanic migration by a 12 g songbird. Biol. Lett. 11, 20141045 (2015). PubMed PMC
Gill R. E. et al. Extreme endurance flights by landbirds crossing the Pacific Ocean: ecological corridor rather than barrier? Proc. R. Soc. B-Biological Sci. 276, 447–458 (2009). PubMed PMC
Klaassen R. H. G., Alerstam T., Carlsson P., Fox J. W. & Lindström A. Great flights by great snipes: long and fast non-stop migration over benign habitats. Biol. Lett. 7, 833–5 (2011). PubMed PMC
Bairlein F. et al. Cross-hemisphere migration of a 25 g songbird. Biol. Lett. 8, 505–7 (2012). PubMed PMC
Haas W. & Beck P. Zum Frühjahrszug paläarktischer Vögel über die westliche Sahara. J. Ornithol. 120, 237–246 (1979).
Tøttrup A. P. et al. The annual cycle of a trans-equatorial Eurasian-African passerine migrant: different spatio-temporal strategies for autumn and spring migration. Proc. R. Soc. B-Biological Sci. 279, 1008–16 (2012). PubMed PMC
Lemke H. W. et al. Annual cycle and migration strategies of a trans-Saharan migratory songbird: a geolocator study in the great reed warbler. PLoS One 8, e79209 (2013). PubMed PMC
Spina F. & Pilastro A. Strategy of sea and desert crossing in spring passerine migrants as suggested by the analysis of intra-and inter-specific variation of residual fat levels. In Proc. 22 Int. Ornithol. Congr., Durban (ed. Adams N. & Slotow R.) 1958–1976 (BirdLife South Africa, 1999).
Grattarola A., Spina F. & Pilastro A. Spring migration of the Garden Warbler (
Bruderer B. & Liechti F. Bird migration across the Mediterranean. in Proc. 22 Int. Ornithol. Congr., Durban (ed. Adams N. & Slotow R.) 1983–1999 (BirdLife South Africa, 1999).
Nilsson C., Klaassen R. & Alerstam T. Differences in speed and duration of bird migration between spring and autumn. Am. Nat. 181, 837–845 (2013). PubMed
Liechti F. Birds: blowin’ by the wind? J. Ornithol. 147, 202–211 (2006).
Stanley C. Q., MacPherson M., Fraser K. C., McKinnon E. A. & Stutchbury B. J. M. Repeat tracking of individual songbirds reveals consistent migration timing but flexibility in route. PLoS One 7, e40688 (2012). PubMed PMC
Vardanis Y., Klaassen R. H. G., Strandberg R. & Alerstam T. Individuality in bird migration: routes and timing. Biol. Lett. 7, 502–5 (2011). PubMed PMC
López-López P., García-Ripollés C. & Urios V. Individual repeatability in timing and spatial flexibility of migration routes of trans-Saharan migratory raptors. Curr. Zool. 60, 642–652 (2014).
Battley P. F. Consistent annual schedules in a migratory shorebird. Biol. Lett. 2, 517–520 (2006). PubMed PMC
Eichhorn G., Afanasyev V., Drent R. H. & Jeugd H. P. Van Der. Spring stopover routines in Russian Barnacle Geese
Van Wijk R. E., Schaub M., Tolkmitt D., Becker D. & Hahn S. Short-distance migration of Wrynecks
Gow E., Wiebe K. & Fox J. Cavity use throughout the annual cycle of a migratory woodpecker revealed by geolocators. Ibis 157, 167–170 (2014).
Burger J., Niles L., Porter R. & Dey A. Using geolocator data to reveal incubation periods and breeding biology in Red Knots
Lisovski S. & Hahn S. GeoLight–processing and analysing light-based geolocator data in R. Methods Ecol. Evol. 3, 1055–1059 (2012).
Liechti F. et al. Timing of migration and residence areas during the non-breeding period of barn swallows
Lisovski S. et al. Geolocation by light: accuracy and precision affected by environmental factors. Methods Ecol. Evol. 3, 603–612 (2012).
Alerstam T. Bird Migration. 227–350 (Cambridge University Press, 1990).
Åkesson S., Alerstam T. & Hedenström A. Flight initiation of nocturnal passerine migrants in relation to celestial orientation conditions at twilight. J. Avian Biol. 27, 95–102 (1996).
Smolinsky J. A., Diehl R. H., Radzio T. A., Delaney D. K. & Moore F. R. Factors influencing the movement biology of migrant songbirds confronted with an ecological barrier. Behav. Ecol. Sociobiol. 67, 2041–2051 (2013).
R Development Core Team.
The influence of climate variability on demographic rates of avian Afro-palearctic migrants
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