A magnet attached to the forehead disrupts magnetic compass orientation in a migratory songbird

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  • Florian Packmor
  • Dmitry Kishkinev
  • Flora Bittermann
    Konrad Lorenz Institute of Ethology
  • Barbara Kofler
    Biological station Neusiedler-See (Illmitz)
  • Clara Machowetz
    Konrad Lorenz Institute of Ethology
  • Thomas Zechmeister
    Biological station Neusiedler-See (Illmitz)
  • Lucinda Zawadzki
    University of Oxford
  • Tim Guilford
    Oxford University
  • Richard Holland
ABSTRACT For studies on magnetic compass orientation and navigation performance in small bird species, controlled experiments with orientation cages inside an electromagnetic coil system are the most prominent methodological paradigm. These are, however, not applicable when studying larger bird species and/or orientation behaviour during free flight. For this, researchers have followed a very different approach, attaching small magnets to birds, with the intention of depriving them of access to meaningful magnetic information. Unfortunately, results from studies using this approach appear rather inconsistent. As these are based on experiments with birds under free-flight conditions, which usually do not allow exclusion of other potential orientation cues, an assessment of the overall efficacy of this approach is difficult to conduct. Here, we directly tested the efficacy of small magnets for temporarily disrupting magnetic compass orientation in small migratory songbirds using orientation cages under controlled experimental conditions. We found that birds which have access to the Earth's magnetic field as their sole orientation cue show a general orientation towards their seasonally appropriate migratory direction. When carrying magnets on their forehead under these conditions, the same birds become disoriented. However, under changed conditions that allow birds access to other (i.e. celestial) orientation cues, any disruptive effect of the magnets they carry appears obscured. Our results provide clear evidence for the efficacy of the magnet approach for temporarily disrupting magnetic compass orientation in birds, but also reveal its limitations for application in experiments under free-flight conditions.

Keywords

  • Celestial compass, Eurasian Reed Warbler, Environmental cue, Orientation cage, Navigation, Migration, Orientation, Songbird, star compass
Original languageEnglish
Article number243337
Number of pages10
JournalJournal of Experimental Biology
Volume224
Issue number22
Early online date18 Nov 2021
DOIs
Publication statusPublished - Nov 2021

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