Magnetic field changes activate the trigeminal brainstem complex in a migratory bird. - Wikidata - awgldk - TriplyDB

Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

http://www.wikidata.org/entity/Q30494977

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Neural Correlates of a Magnetic Sense Magnetoreception in an avian brain in part mediated by inner ear lagena.The magnetite-based receptors in the beak of birds and their role in avian navigation Magnetic field-driven induction of ZENK in the trigeminal system of pigeons (Columba livia)Clusters of iron-rich cells in the upper beak of pigeons are macrophages not magnetosensitive neurons Magnetic characterization of isolated candidate vertebrate magnetoreceptor cells Localisation of the Putative Magnetoreceptive Protein Cryptochrome 1b in the Retinae of Migratory Birds and Homing Pigeons Avian magnetic compass can be tuned to anomalously low magnetic intensities Activation changes in zebra finch (Taeniopygia guttata) brain areas evoked by alterations of the earth magnetic field Night-time neuronal activation of Cluster N in a day- and night-migrating songbird Experienced migratory songbirds do not display goal-ward orientation after release following a cross-continental displacement: an automated telemetry study.Extracellular recordings reveal absence of magneto sensitive units in the avian optic tectum.Migratory Reed Warblers Need Intact Trigeminal Nerves to Correct for a 1,000 km Eastward Displacement.No evidence for intracellular magnetite in putative vertebrate magnetoreceptors identified by magnetic screening.Detection of magnetic field intensity gradient by homing pigeons (Columba livia) in a novel "virtual magnetic map" conditioning paradigm.Neural correlates of migration: activation of hypothalamic clock(s) in and out of migratory state in the blackheaded bunting (Emberiza melanocephala).Reaction kinetics and mechanism of magnetic field effects in cryptochrome Brain regions associated with visual cues are important for bird migration Weak Broadband Electromagnetic Fields are More Disruptive to Magnetic Compass Orientation in a Night-Migratory Songbird (Erithacus rubecula) than Strong Narrow-Band Fields Migratory blackcaps can use their magnetic compass at 5 degrees inclination, but are completely random at 0 degrees inclination.Magnetoreception and baroreception in birds.Cues indicating location in pigeon navigation.The magnetic map sense and its use in fine-tuning the migration programme of birds.Biological effects related to geomagnetic activity and possible mechanisms.Magnetic activation in the brain of the migratory northern wheatear (Oenanthe oenanthe).A strong magnetic pulse affects the precision of departure direction of naturally migrating adult but not juvenile birds.Interaction of magnetite-based receptors in the beak with the visual system underlying 'fixed direction' responses in birds.High resolution anatomical mapping confirms the absence of a magnetic sense system in the rostral upper beak of pigeons Physiology. An avian magnetometer.Phase inversion of neural activity in the olfactory and visual systems of a night-migratory bird during migration.Zebrafish and medaka offer insights into the neurobehavioral correlates of vertebrate magnetoreception.Conditioning domestic chickens to a magnetic anomaly.How Swift Is Cry-Mediated Magnetoreception? Conditioning in an American Cockroach Shows Sub-second Response.Lidocaine is a nocebo treatment for trigeminally mediated magnetic orientation in birds The radical-pair mechanism as a paradigm for the emerging science of quantum biology Magnetic map navigation in a migratory songbird requires trigeminal input Sensory biology: Search for the compass needles Geomagnetic information modulates nocturnal migratory restlessness but not fueling in a long distance migratory songbird

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P2860

Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

http://www.wikidata.org/entity/Q30494977

description

2010 nî lūn-bûn

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2010 թուականի Մայիսին հրատարակուած գիտական յօդուած

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2010 թվականի մայիսին հրատարակված գիտական հոդված

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2010年の論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年论文

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Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

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Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

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Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

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Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

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Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

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Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

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Proceedings of the National Academy of Sciences of the United States of America

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Magnetic field changes activate the trigeminal brainstem complex in a migratory bird.

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Dominik Heyers

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John Martin Wild

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Manuela Zapka

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Mara Hoffmeister

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P2860

Avian magnetoreception: elaborate iron mineral containing dendrites in the upper beak seem to be a common feature of birds

A visual pathway links brain structures active during magnetic compass orientation in migratory birds

Night-vision brain area in migratory songbirds.

Magnetic compass of European robins

Learned birdsong and the neurobiology of human language

Motor-driven gene expression

Neuroanatomy of magnetoreception: the superior colliculus involved in magnetic orientation in a mammal.

Magnetic cues trigger extensive refuelling.

Structure and function of the vertebrate magnetic sense.

A model for photoreceptor-based magnetoreception in birds.

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