Animals continuously gather sensory cues to move towards favourable environments. Efficient goal-directed navigation requires sensory perception and motor commands to be intertwined in a feedback loop, yet the neural substrate underlying this sensorimotor task in the vertebrate brain remains elusive. Here, we combine virtual-reality behavioural assays, volumetric calcium imaging, optogenetic stimulation and circuit modelling to reveal the neural mechanisms through which a zebrafish performs phototaxis, i.e. actively orients towards a light source. Key to this process is a self-oscillating hindbrain population (HBO) that acts as a pacemaker for ocular saccades and controls the orientation of successive swim-bouts. It further integrates visua...
Visually guided behaviors such as optomotor and optokinetic responses, phototaxis, and prey capture ...
Following moving visual stimuli (conditioning stimuli, CS), many organisms perceive, in the absence ...
A full understanding of nervous system function requires recording from large populations of neurons...
Animals continuously gather sensory cues to move towards favourable environments. Efficient goal-di...
The first part of this thesis presents an historical overview of neural recording techniques, follow...
Understanding how the brain transforms sensory input into complex behavior is a fundament...
Animals detect sensory cues in their environment and process this information in order to carry out ...
Understanding how the nervous system recognizes salient stimuli in the environment and selects and e...
In order to survive and thrive, motile organisms use sensory cues to navigate towards environments w...
SummaryOrientation of animals towards or away from light is a simple behavior commonly found in the ...
For many organisms, color is an essential source of information from visual scenes. The larval zebra...
SummaryNavigation requires animals to adjust ongoing movements in response to pertinent features of ...
Zebrafish larvae show characteristic prey capture behavior in response to small moving objects. The ...
SummaryVisuomotor circuits filter visual information and determine whether or not to engage downstre...
Stabilizing gaze and position within an environment constitutes an important task for the nervous sy...
Visually guided behaviors such as optomotor and optokinetic responses, phototaxis, and prey capture ...
Following moving visual stimuli (conditioning stimuli, CS), many organisms perceive, in the absence ...
A full understanding of nervous system function requires recording from large populations of neurons...
Animals continuously gather sensory cues to move towards favourable environments. Efficient goal-di...
The first part of this thesis presents an historical overview of neural recording techniques, follow...
Understanding how the brain transforms sensory input into complex behavior is a fundament...
Animals detect sensory cues in their environment and process this information in order to carry out ...
Understanding how the nervous system recognizes salient stimuli in the environment and selects and e...
In order to survive and thrive, motile organisms use sensory cues to navigate towards environments w...
SummaryOrientation of animals towards or away from light is a simple behavior commonly found in the ...
For many organisms, color is an essential source of information from visual scenes. The larval zebra...
SummaryNavigation requires animals to adjust ongoing movements in response to pertinent features of ...
Zebrafish larvae show characteristic prey capture behavior in response to small moving objects. The ...
SummaryVisuomotor circuits filter visual information and determine whether or not to engage downstre...
Stabilizing gaze and position within an environment constitutes an important task for the nervous sy...
Visually guided behaviors such as optomotor and optokinetic responses, phototaxis, and prey capture ...
Following moving visual stimuli (conditioning stimuli, CS), many organisms perceive, in the absence ...
A full understanding of nervous system function requires recording from large populations of neurons...