Navigation in complex environments requires selection of appropriate actions as a function of local cues. To gain a quantitative and mechanistic understanding of zebrafish thermal navigation, we have developed a novel assay that requires animals to rely exclusively on thermosensory information in the absence of other cues such as vision or mechanosensation. We show that zebrafish use both absolute and relative temperature information to restrict their locomotor trajectories to a preferred temperature range. We identify components of movement that are modulated solely by absolute temperature, as well as components that are modulated by both absolute and relative temperature. Specifically, we find that dwell time between movements and displac...
With its small size and limited motor tool set, the Drosophila larva is a good system to study how a...
In response to seasonal variation in environmental temperature, many ectotherms are able to adjust t...
Vertebrate locomotion at different speeds is driven by descending excitatory connections to central ...
Background: Variability is a hallmark of animal behavior. It contributes to survival by endowing ind...
SummaryAvoiding temperatures outside the physiological range is critical for animal survival, but ho...
Avoiding temperatures outside the physiological range is critical for animal survival, but how tempe...
Animals have to continuously adapt to their environment. Spontaneous behavior is thus modulated by s...
Amechanistic understanding of animal navigation requires quantitative assessment of the sensorimotor...
Thermosensation provides crucial information, but how temperature representation is transformed from...
Complex animal behaviors are built from dynamical relationships between sensory inputs, neuronal act...
SummaryNavigation requires animals to adjust ongoing movements in response to pertinent features of ...
Les animaux doivent constamment s'adapter à leur environnement pour survivre. Le comportement sponta...
SummaryVertebrate locomotion at different speeds is driven by descending excitatory connections to c...
Animals continuously gather sensory cues to move towards favourable environments. Efficient goal-dir...
<p><b>A</b>, Track plot of zebrafish larvae where the position of the larvae in the control zone is ...
With its small size and limited motor tool set, the Drosophila larva is a good system to study how a...
In response to seasonal variation in environmental temperature, many ectotherms are able to adjust t...
Vertebrate locomotion at different speeds is driven by descending excitatory connections to central ...
Background: Variability is a hallmark of animal behavior. It contributes to survival by endowing ind...
SummaryAvoiding temperatures outside the physiological range is critical for animal survival, but ho...
Avoiding temperatures outside the physiological range is critical for animal survival, but how tempe...
Animals have to continuously adapt to their environment. Spontaneous behavior is thus modulated by s...
Amechanistic understanding of animal navigation requires quantitative assessment of the sensorimotor...
Thermosensation provides crucial information, but how temperature representation is transformed from...
Complex animal behaviors are built from dynamical relationships between sensory inputs, neuronal act...
SummaryNavigation requires animals to adjust ongoing movements in response to pertinent features of ...
Les animaux doivent constamment s'adapter à leur environnement pour survivre. Le comportement sponta...
SummaryVertebrate locomotion at different speeds is driven by descending excitatory connections to c...
Animals continuously gather sensory cues to move towards favourable environments. Efficient goal-dir...
<p><b>A</b>, Track plot of zebrafish larvae where the position of the larvae in the control zone is ...
With its small size and limited motor tool set, the Drosophila larva is a good system to study how a...
In response to seasonal variation in environmental temperature, many ectotherms are able to adjust t...
Vertebrate locomotion at different speeds is driven by descending excitatory connections to central ...