Neuroscience

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(Image caption: Newly discovered neuron type (yellow) helps zebrafish to coordinate its eye and swimming movements. The image shows the blue-stained brain of a fish larva with the suggested position of the eyes. Credit: © Max Planck Institute of Neurobiology/Kubo) How vision makes sure that little fish do not get carried away Our eyes not only enable us to recognise objects; they also provide us with a continuous stream of information about our own movements. Whether we run, turn around, fall or sit still in a car – the world glides by us and leaves a characteristic motion trace on our retinas. Seemingly without effort, our brain calculates self-motion from this “optic flow”. This way, we can maintain a stable position and a steady gaze during our own movements. Together with biologists from the University of Freiburg, scientists from the Max Planck Institute of Neurobiology in Martinsried near Munich have now discovered an array of new types of neurons, which help the brain of zebrafish to perceive, and compensate for, self-motion. Read more

(Image caption: Newly discovered neuron type (yellow) helps zebrafish to coordinate its eye and swimming movements. The image shows the blue-stained brain of a fish larva with the suggested position of the eyes. Credit: © Max Planck Institute of Neurobiology/Kubo)

How vision makes sure that little fish do not get carried away

Our eyes not only enable us to recognise objects; they also provide us with a continuous stream of information about our own movements. Whether we run, turn around, fall or sit still in a car – the world glides by us and leaves a characteristic motion trace on our retinas. Seemingly without effort, our brain calculates self-motion from this “optic flow”. This way, we can maintain a stable position and a steady gaze during our own movements. Together with biologists from the University of Freiburg, scientists from the Max Planck Institute of Neurobiology in Martinsried near Munich have now discovered an array of new types of neurons, which help the brain of zebrafish to perceive, and compensate for, self-motion.

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Filed under zebrafish neurons neural circuits vision movement optic flow neuroscience science

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    It is a zebra fish!
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