Add to ORKGIn this study, the ability of a maze-experienced, weakly electric fish to transmit spatial information to an inexperienced conspecific through exposure via paired training in a maze is evaluated using maze trial latency, electric signals discharged within the maze and the subsequent effect of training on molecular markers of memory
Social learning is known to be a common phenomenon in fish, which they utilise under many different ...
Weakly electric fish produce a dual function electric signal that makes them ideal models for the st...
Previous studies have shown that guppies, Poecilia reticulata, can learn the route to a food source ...
In this study, the ability of a maze-experienced, weakly electric fish to transmit spatial informati...
Animals use navigational strategies ranging from taxes, landmark and compass orientation, and path i...
Sensory systems have to extract useful information from environments awash in noise and confounding ...
Personality is individual differences in behavior, consistent across contexts. Among Gnathonemus pet...
Engelmann J, Wallach A, Maler L. Linking active sensing and spatial learning in weakly electric fish...
Mormyrid weakly electric fish produce short, pulse-type electric organ discharges for actively probi...
Jung SN, Künzel S, Engelmann J. Spatial learning through active electroreception in Gnathonemus pete...
Some fishes test their environment by generating electric fields outside their bodies (man's first c...
ii Animals rely on sensory information for the control of their behavior. Understanding this process...
As animals navigate through their environment, they must integrate external stimuli with previous ex...
Social learning is ubiquitous across the animal kingdom, where animals learn from group members abou...
In his book “What a fish knows” Jonathan Balcombe (2016a, b) has created a comprehensive profile of ...
Social learning is known to be a common phenomenon in fish, which they utilise under many different ...
Weakly electric fish produce a dual function electric signal that makes them ideal models for the st...
Previous studies have shown that guppies, Poecilia reticulata, can learn the route to a food source ...
In this study, the ability of a maze-experienced, weakly electric fish to transmit spatial informati...
Animals use navigational strategies ranging from taxes, landmark and compass orientation, and path i...
Sensory systems have to extract useful information from environments awash in noise and confounding ...
Personality is individual differences in behavior, consistent across contexts. Among Gnathonemus pet...
Engelmann J, Wallach A, Maler L. Linking active sensing and spatial learning in weakly electric fish...
Mormyrid weakly electric fish produce short, pulse-type electric organ discharges for actively probi...
Jung SN, Künzel S, Engelmann J. Spatial learning through active electroreception in Gnathonemus pete...
Some fishes test their environment by generating electric fields outside their bodies (man's first c...
ii Animals rely on sensory information for the control of their behavior. Understanding this process...
As animals navigate through their environment, they must integrate external stimuli with previous ex...
Social learning is ubiquitous across the animal kingdom, where animals learn from group members abou...
In his book “What a fish knows” Jonathan Balcombe (2016a, b) has created a comprehensive profile of ...
Social learning is known to be a common phenomenon in fish, which they utilise under many different ...
Weakly electric fish produce a dual function electric signal that makes them ideal models for the st...
Previous studies have shown that guppies, Poecilia reticulata, can learn the route to a food source ...