Does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacements

Does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacements

In birds, fat accumulation before and during migration has been shown to be endogenously controlled and tuned by, among other factors, the Earth's magnetic field. However, our knowledge about the influence of the geomagnetic field on the fuelling in migrating birds is still limited to just a fe...

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Bibliographic Details
Main Authors: Mihaela Ilieva, Giuseppe Bianco, Susanne Åkesson
Format: Article
Language:English
Published: The Company of Biologists 2016-03-01
Series:Biology Open
Subjects:
Bird migration
Diurnal migrant
Dunnock
Food intake
Geomagnetic field
Prunella modularis
Online Access:http://bio.biologists.org/content/5/3/272
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spelling doaj-08f11b88f91640599f1c1ebfc8cee3182021-06-02T13:14:22ZengThe Company of BiologistsBiology Open2046-63902016-03-015327227810.1242/bio.014779014779Does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacementsMihaela Ilieva0Giuseppe Bianco1Susanne Åkesson2 Centre for Animal Movement Research, Department of Biology, Lund University, Ecology Building, Lund SE-223 62, Sweden Centre for Animal Movement Research, Department of Biology, Lund University, Ecology Building, Lund SE-223 62, Sweden Centre for Animal Movement Research, Department of Biology, Lund University, Ecology Building, Lund SE-223 62, Sweden In birds, fat accumulation before and during migration has been shown to be endogenously controlled and tuned by, among other factors, the Earth's magnetic field. However, our knowledge about the influence of the geomagnetic field on the fuelling in migrating birds is still limited to just a few nocturnally migrating passerine species. In order to study if variations of the magnetic field can also influence the fuelling of both day- and night-migrating passerines, we caught first-year dunnocks (Prunella modularis) and subjected them to three magnetic field conditions simulated by a system of magnetic coils: (1) local geomagnetic field of southern Sweden, (2) magnetic field corresponding to the centre of the expected wintering area, and (3) magnetic field met at the northern limit of the species' breeding distribution. We did not find a difference in mass increase between the birds kept in a local magnetic field and a field resembling their wintering area, irrespectively of the mode of magnetic displacement, i.e. direct or step-wise. However, the dunnocks magnetically displaced north showed a lower rate of fuelling in comparison to the control group, probably due to elevated activity. Compared with previous studies, our results suggest that the fuelling response to magnetic displacements during the migration period is specific to the eco-physiological situation. Future studies need to address if there is an effect of magnetic field manipulation on the level of migratory activity in dunnocks and how widespread the influence of local geomagnetic field parameters is on fuelling decisions in different bird species, which have different migratory strategies, distances and migration history.http://bio.biologists.org/content/5/3/272Bird migrationDiurnal migrantDunnockFood intakeGeomagnetic fieldPrunella modularis
collection DOAJ
language English
format Article
sources DOAJ
author Mihaela Ilieva
Giuseppe Bianco
Susanne Åkesson
spellingShingle Mihaela Ilieva
Giuseppe Bianco
Susanne Åkesson
Does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacements
Biology Open
Bird migration
Diurnal migrant
Dunnock
Food intake
Geomagnetic field
Prunella modularis
author_facet Mihaela Ilieva
Giuseppe Bianco
Susanne Åkesson
author_sort Mihaela Ilieva
title Does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacements
title_short Does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacements
title_full Does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacements
title_fullStr Does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacements
title_full_unstemmed Does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacements
title_sort does migratory distance affect fuelling in a medium-distance passerine migrant?: results from direct and step-wise simulated magnetic displacements
publisher The Company of Biologists
series Biology Open
issn 2046-6390
publishDate 2016-03-01
description In birds, fat accumulation before and during migration has been shown to be endogenously controlled and tuned by, among other factors, the Earth's magnetic field. However, our knowledge about the influence of the geomagnetic field on the fuelling in migrating birds is still limited to just a few nocturnally migrating passerine species. In order to study if variations of the magnetic field can also influence the fuelling of both day- and night-migrating passerines, we caught first-year dunnocks (Prunella modularis) and subjected them to three magnetic field conditions simulated by a system of magnetic coils: (1) local geomagnetic field of southern Sweden, (2) magnetic field corresponding to the centre of the expected wintering area, and (3) magnetic field met at the northern limit of the species' breeding distribution. We did not find a difference in mass increase between the birds kept in a local magnetic field and a field resembling their wintering area, irrespectively of the mode of magnetic displacement, i.e. direct or step-wise. However, the dunnocks magnetically displaced north showed a lower rate of fuelling in comparison to the control group, probably due to elevated activity. Compared with previous studies, our results suggest that the fuelling response to magnetic displacements during the migration period is specific to the eco-physiological situation. Future studies need to address if there is an effect of magnetic field manipulation on the level of migratory activity in dunnocks and how widespread the influence of local geomagnetic field parameters is on fuelling decisions in different bird species, which have different migratory strategies, distances and migration history.
topic Bird migration
Diurnal migrant
Dunnock
Food intake
Geomagnetic field
Prunella modularis
url http://bio.biologists.org/content/5/3/272
work_keys_str_mv AT mihaelailieva doesmigratorydistanceaffectfuellinginamediumdistancepasserinemigrantresultsfromdirectandstepwisesimulatedmagneticdisplacements
AT giuseppebianco doesmigratorydistanceaffectfuellinginamediumdistancepasserinemigrantresultsfromdirectandstepwisesimulatedmagneticdisplacements
AT susanneakesson doesmigratorydistanceaffectfuellinginamediumdistancepasserinemigrantresultsfromdirectandstepwisesimulatedmagneticdisplacements
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