A neural model of interactions subserving prey-predator discrimination and size preference in anuran amphibia.

[1]  M. Arbib,et al.  The role of the tectal column in facilitation of amphibian prey- catching behavior: a neural model , 1982, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[2]  J. Ewert,et al.  Neuroethology , 1980, Springer Berlin Heidelberg.

[3]  U. Grüsser-Cornehls,et al.  Response of frog retina ganglion cells to moving monochromatic spots under photopic conditions , 1981, Vision Research.

[4]  U. Grüsser-Cornehls,et al.  Chromatic subclasses of frog retinal ganglion cells: Studies using black stimuli moving on a monochromatic background , 1981, Vision Research.

[5]  The Relationship between Stimulus Orientation and Stimulus Movement Pattern in the Prey Catching Behavior of Salamandra salamandra , 1979 .

[6]  J. Ewert,et al.  Ontogenetic aspects on visual "size-constancy" phenomena in the midwife toad Alytes obstetricans (Laur.). , 1979, Brain, behavior and evolution.

[7]  D. Ingle,et al.  The effect of viewing distance upon size preference of frogs for prey , 1977, Vision Research.

[8]  R. Didday A model of visuomotor mechanisms in the frog optic tectum , 1976 .

[9]  D. Ingle,et al.  Thalamo-tectal projections in the frog. , 1974, Brain research.

[10]  W von Seelen,et al.  [Neurobiology and system theory of a visual pattern recognition mechanism in the toad]. , 1973, Kybernetik.

[11]  D. Ingle Size preferences for prey-catching in frogs: relationship to motivational state. , 1973, Behavioral Biology.

[12]  D. Ingle,et al.  Disinhibition of Tectal Neurons by Pretectal Lesions in the Frog , 1973, Science.

[13]  D. Ingle Selective choice between double prey objects by frogs. , 1973, Brain, behavior and evolution.

[14]  J. Ewert Neural mechanisms of prey-catching and avoidance behavior in the toad (Bufo bufo L.). , 1970, Brain, behavior and evolution.