Jonathan T. Erichsen focuses on Neuroscience, Hippocampus, Hippocampal formation, Predation and Optimal foraging theory. His Thalamus and Stimulus study in the realm of Neuroscience interacts with subjects such as Body movement. His work carried out in the field of Thalamus brings together such families of science as Anterograde amnesia, Biological neural network, Fornix and Diencephalon.
His Hippocampus study integrates concerns from other disciplines, such as Recognition memory and Cerebrum. Jonathan T. Erichsen works mostly in the field of Hippocampal formation, limiting it down to topics relating to Spatial memory and, in certain cases, Dentate gyrus, Subiculum, Radial maze and Perirhinal cortex. His study in Predation is interdisciplinary in nature, drawing from both Zoology, Ecology and Selection.
His scientific interests lie mostly in Neuroscience, Anatomy, Audiology, Hippocampal formation and Eye movement. His research related to Hippocampus, Thalamus, Fornix, Mammillary body and Choline acetyltransferase might be considered part of Neuroscience. Jonathan T. Erichsen has included themes like Cerebrum and Episodic memory in his Hippocampus study.
His Anatomy research includes elements of Refractive error, Nucleus, Central nervous system and Spinal cord. His research investigates the link between Audiology and topics such as Visual acuity that cross with problems in Intensity. His study looks at the relationship between Hippocampal formation and fields such as Spatial memory, as well as how they intersect with chemical problems.
His main research concerns Audiology, Eye movement, Neuroscience, Nystagmus and Infantile nystagmus. His Audiology study combines topics in areas such as Saccadic masking, Stimulus, Visual acuity and Gaze. His work deals with themes such as Optometry and Eye tracking, Computer vision, which intersect with Eye movement.
His study in the field of Hippocampal formation, Thalamus and Hippocampus also crosses realms of Head direction cells. His work on Subiculum, Fornix and Anterior thalamic nuclei as part of general Hippocampus research is frequently linked to Internal capsule, thereby connecting diverse disciplines of science. His Infantile nystagmus research incorporates elements of Saccade and Horizontal and vertical, Geodesy.
His primary areas of study are Neuroscience, Thalamus, Hippocampal formation, Head direction cells and Anatomy. His biological study spans a wide range of topics, including Ultrastructure and Extraocular muscles. His Thalamus study typically links adjacent topics like Reticular connective tissue.
The Hippocampal formation study combines topics in areas such as Anterograde amnesia and Nucleus reuniens. His research integrates issues of Lesion, Retina, Vitreous chamber and Cornea in his study of Anatomy. His study in the fields of Subiculum and Retrosplenial cortex under the domain of Hippocampus overlaps with other disciplines such as Laterodorsal tegmental nucleus.
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Optimal prey selection in the great tit (Parus major)
Animal Behaviour (1977)
Enhancer Evolution across 20 Mammalian Species
Diego Villar;Camille Berthelot;Sarah Aldridge;Tim F. Rayner.
Hippocampal–anterior thalamic pathways for memory: uncovering a network of direct and indirect actions
John Patrick Aggleton;Shane M. O'Mara;Seralynne Denise Vann;Nicholas Fraser Wright.
European Journal of Neuroscience (2010)
Fos Imaging Reveals Differential Patterns of Hippocampal and Parahippocampal Subfield Activation in Rats in Response to Different Spatial Memory Tests
Seralynne Denise Vann;M. W. Brown;Jonathan Thor Erichsen;John Patrick Aggleton.
The Journal of Neuroscience (2000)
The anterior thalamus provides a subcortical circuit supporting memory and spatial navigation.
Maciej M. Jankowski;Kim C. Ronnqvist;Marian Tsanov;Seralynne Denise Vann.
Frontiers in Systems Neuroscience (2013)
Highly potent and selective inhibition of varicella-zoster virus by bicyclic furopyrimidine nucleosides bearing an aryl side chain
Christopher McGuigan;H. Barucki;Sally Ann Blewett;Antonella Carangio.
Journal of Medicinal Chemistry (2000)
Visual perception and social foraging in birds
Esteban Fernández-Juricic;Jonathan T. Erichsen;Alex Kacelnik.
Trends in Ecology and Evolution (2004)
The distribution of neuropeptides in the dorsomedial telencephalon of the pigeon (Columba livia): A basis for regional subdivisions
Jonathan T. Erichsen;Verner P. Bingman;John R. Krebs.
The Journal of Comparative Neurology (1991)
The distribution of neurotransmitters and neurotransmitter-related enzymes in the dorsomedial telencephalon of the pigeon (Columba livia).
John R. Krebs;Jonathan T. Erichsen;Verner P. Bingman.
The Journal of Comparative Neurology (1991)
Co-occurrence of substance P-like and Leu-enkephalin-like immunoreactivities in neurones and fibres of avian nervous system.
Jonathan T. Erichsen;Anton Reiner;Harvey J. Karten.
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