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Author |
Engels, S.; Schneider, N.-L.; Lefeldt, N.; Hein, C.M.; Zapka, M.; Michalik, A.; Elbers, D.; Kittel, A.; Hore, P.J.; Mouritsen, H. |
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Title |
Anthropogenic electromagnetic noise disrupts magnetic compass orientation in a migratory bird |
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Journal Article |
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Year |
2014 |
Publication |
Nature |
Abbreviated Journal |
Nature |
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Electromagnetic noise is emitted everywhere humans use electronic devices. For decades, it has been hotly debated whether man-made electric and magnetic fields affect biological processes, including human health. So far, no putative effect of anthropogenic electromagnetic noise at intensities below the guidelines adopted by the World Health Organization has withstood the test of independent replication under truly blinded experimental conditions. No effect has therefore been widely accepted as scientifically proven. Here we show that migratory birds are unable to use their magnetic compass in the presence of urban electromagnetic noise. When European robins, Erithacus rubecula, were exposed to the background electromagnetic noise present in unscreened wooden huts at the University of Oldenburg campus, they could not orient using their magnetic compass. Their magnetic orientation capabilities reappeared in electrically grounded, aluminium-screened huts, which attenuated electromagnetic noise in the frequency range from 50 kHz to 5 MHz by approximately two orders of magnitude. When the grounding was removed or when broadband electromagnetic noise was deliberately generated inside the screened and grounded huts, the birds again lost their magnetic orientation capabilities. The disruptive effect of radiofrequency electromagnetic fields is not confined to a narrow frequency band and birds tested far from sources of electromagnetic noise required no screening to orient with their magnetic compass. These fully double-blinded tests document a reproducible effect of anthropogenic electromagnetic noise on the behaviour of an intact vertebrate. |
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1] Institut fur Biologie und Umweltwissenschaften, Universitat Oldenburg, D-26111 Oldenburg, Germany [2] Research Centre for Neurosensory Sciences, University of Oldenburg, D-26111 Oldenburg, Germany |
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0028-0836 |
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PMID:24805233 |
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CBM.UAM @ ccobaleda @ |
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462 |
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Author |
Kirschvink, J.L. |
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Title |
Sensory biology: Radio waves zap the biomagnetic compass |
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Journal Article |
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2014 |
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Nature |
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Nature |
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Division of Geological and Planetary Sciences, California Institute of Technology, Pasadena, California 91125, USA, and at the Earth-Life Science Institute, Tokyo Institute of Technology, Japan |
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0028-0836 |
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PMID:24805230 |
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CBM.UAM @ ccobaleda @ |
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463 |
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Author |
Guerra, P.A.; Gegear, R.J.; Reppert, S.M. |
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Title |
A magnetic compass aids monarch butterfly migration |
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Journal Article |
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Year |
2014 |
Publication |
Nature Communications |
Abbreviated Journal |
Nat Commun |
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5 |
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4164 |
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Convincing evidence that migrant monarch butterflies (Danaus plexippus) use a magnetic compass to aid their fall migration has been lacking from the spectacular navigational capabilities of this species. Here we use flight simulator studies to show that migrants indeed possess an inclination magnetic compass to help direct their flight equatorward in the fall. The use of this inclination compass is light-dependent utilizing ultraviolet-A/blue light between 380 and 420 nm. Notably, the significance of light <420 nm for inclination compass function was not considered in previous monarch studies. The antennae are important for the inclination compass because they appear to contain light-sensitive magnetosensors. For migratory monarchs, the inclination compass may serve as an important orientation mechanism when directional daylight cues are unavailable and may also augment time-compensated sun compass orientation for appropriate directionality throughout the migration. |
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Department of Neurobiology, University of Massachusetts Medical School, 364 Plantation Street, Worcester, Massachusetts 01605, USA |
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2041-1723 |
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PMID:24960099 |
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CBM.UAM @ ccobaleda @ |
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533 |
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Author |
Khushi, M.; Liddle, C.; Clarke, C.L.; Graham, J.D. |
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Title |
Binding sites analyser (BiSA): software for genomic binding sites archiving and overlap analysis |
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Journal Article |
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Year |
2014 |
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PloS one |
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PLoS One |
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9 |
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2 |
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e87301 |
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Genome-wide mapping of transcription factor binding and histone modification reveals complex patterns of interactions. Identifying overlaps in binding patterns by different factors is a major objective of genomic studies, but existing methods to archive large numbers of datasets in a personalised database lack sophistication and utility. Therefore we have developed transcription factor DNA binding site analyser software (BiSA), for archiving of binding regions and easy identification of overlap with or proximity to other regions of interest. Analysis results can be restricted by chromosome or base pair overlap between regions or maximum distance between binding peaks. BiSA is capable of reporting overlapping regions that share common base pairs; regions that are nearby; regions that are not overlapping; and average region sizes. BiSA can identify genes located near binding regions of interest, genomic features near a gene or locus of interest and statistical significance of overlapping regions can also be reported. Overlapping results can be visualized as Venn diagrams. A major strength of BiSA is that it is supported by a comprehensive database of publicly available transcription factor binding sites and histone modifications, which can be directly compared to user data. The documentation and source code are available on http://bisa.sourceforge.net. |
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Westmead Institute for Cancer Research, Sydney Medical School, University of Sydney and the Westmead Millennium Institute, Westmead, New South Wales, Australia |
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1932-6203 |
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PMID:24533055 |
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CBM.UAM @ ccobaleda @ |
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535 |
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Author |
Walters, Z.B. |
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Title |
Quantum dynamics of the avian compass |
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Journal Article |
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Year |
2014 |
Publication |
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics |
Abbreviated Journal |
Phys Rev E Stat Nonlin Soft Matter Phys |
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Volume |
90 |
Issue |
4 |
Pages |
042710 |
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Abstract |
The ability of migratory birds to orient relative to the Earth's magnetic field is believed to involve a coherent superposition of two spin states of a radical electron pair. However, the mechanism by which this coherence can be maintained in the face of strong interactions with the cellular environment has remained unclear. This paper addresses the problem of decoherence between two electron spins due to hyperfine interaction with a bath of spin-1/2 nuclei. Dynamics of the radical pair density matrix are derived and shown to yield a simple mechanism for sensing magnetic field orientation. Rates of dephasing and decoherence are calculated ab initio and found to yield millisecond coherence times, consistent with behavioral experiments. |
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Max Planck Institute for Physics of Complex Systems, Nothnitzer Strasse 38, D-01187 Dresden, Germany |
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1539-3755 |
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PMID:25375526 |
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CBM.UAM @ ccobaleda @ |
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537 |
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