Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
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Dogs are sensitive to small variations of the Earth's magnetic fieldThe Effect of Extremely Low Frequency Alternating Magnetic Field on the Behavior of Animals in the Presence of the Geomagnetic FieldSpontaneous magnetic alignment by yearling snapping turtles: rapid association of radio frequency dependent pattern of magnetic input with novel surroundingsMagnetic characterization of isolated candidate vertebrate magnetoreceptor cellsCows Come Down from the Mountains before the (Mw = 6.1) Earthquake Colfiorito in September 1997; A Single Case Study.Magnetoreception in laboratory mice: sensitivity to extremely low-frequency fields exceeds 33 nT at 30 HzMagnetic alignment in carps: evidence from the Czech christmas fish marketDirectional preference may enhance hunting accuracy in foraging foxesNon-thermal extremely low frequency magnetic field effects on opioid related behaviors: Snails to humans, mechanisms to therapy.Changing and shielded magnetic fields suppress c-Fos expression in the navigation circuit: input from the magnetosensory system contributes to the internal representation of space in a subterranean rodent.Rapid learning of magnetic compass direction by C57BL/6 mice in a 4-armed 'plus' water maze.Nature of Pre-Earthquake Phenomena and their Effects on Living Organisms.Effect of exposure to extremely low frequency magnetic fields on melatonin levels in calves is seasonally dependentFurther support for the alignment of cattle along magnetic field lines: reply to Hert et al.Direction-Dependent Effects of Combined Static and ELF Magnetic Fields on Cell Proliferation and Superoxide Radical Production.Directional compass preference for landing in water birds.Magnetic field perception in the rainbow trout Oncorynchus mykiss: magnetite mediated, light dependent or both?Spontaneous expression of magnetic compass orientation in an epigeic rodent: the bank vole, Clethrionomys glareolus.Spontaneous magnetic alignment behaviour in free-living lizards.A physical mechanism of magnetoreception: Extension and analysis.An experimental approach in revisiting the magnetic orientation of cattle.No alignment of cattle along geomagnetic field lines found.Looking for effects of qualia on event-related brain potentials of close others in search for a cause of the similarity of qualia assumed across individuals.Magnetocarcinogenesis: is there a mechanism for carcinogenic effects of weak magnetic fields?Effects of Power Lines on Area Use and Behaviour of Semi-Domestic Reindeer in Enclosures
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P2860
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
description
2009 nî lūn-bûn
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2009 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի մարտին հրատարակված գիտական հոդված
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2009年の論文
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2009年学术文章
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2009年学术文章
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2009年学术文章
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2009年学术文章
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2009年学术文章
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2009年學術文章
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Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
@ast
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
@en
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
@nl
type
label
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
@ast
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
@en
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
@nl
prefLabel
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
@ast
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
@en
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants.
@nl
P2093
P2860
P356
P1476
Extremely low-frequency electromagnetic fields disrupt magnetic alignment of ruminants
@en
P2093
Hynek Burda
Jaroslav Cervený
Julia Neef
Sabine Begall
P2860
P304
P356
10.1073/PNAS.0811194106
P407
P50
P577
2009-03-19T00:00:00Z