Add to ORKGThe effects of rearing conditions on the functional recovery of wind-sensitive giant interneurons (GIs) after unilateral cercal ablation were investigated in the cricket, Gryllus bimaculatus. Crickets were reared in a glass vials to prohibit free walking for 14 days after unilateral cercal ablation ("14-day vial" crickets). Other crickets were reared in an apparatus called a "walking inducer" (WI) to increase the walking distance during the same 14-day period ("14-day WI" crickets). In these crickets, the response properties of GIs 8-1, 9-1, 9-2, and 9-3 to air currents from various directions were investigated. From the intensity-response curves obtained, directionality curves expressed in terms of threshold velocity and response magnitude...
Summary. 1. Controlled wind puffs of different directions and velocities were delivered to the cerci...
We investigated the effects of visual information on wind-evoked escape behavior in the cricket, Gry...
1. Six different types of primary wind-sensitive interneurons in the cricket cercal sensory system w...
One of a pair of cerci was ablated in the first-, fourth- and last-instar nymphs of the cricket, Gry...
We examined the compensational recovery of the response rate (relative occurrence) of the wind-evoke...
In order to explore the functional recovery of the cercal sensory system of the cricket Gryllus bima...
The effects of self-generated wind on the compensational recovery of escape direction were investiga...
Crickets exhibit oriented walking behavior in response to air-current stimuli. Because crickets move...
The effects of the delay and duration of wind self-generated during walking on the compensational re...
Following the description of some typical variables of escape running in the cricket Gryllus bimacul...
In order to determine the contribution of each cercus and its receptors in organizing the receptive ...
Crickets carry wind-sensitive mechanoreceptors on their cerci, which, in response to the airflow pro...
Spontaneous walking and escape running in response to wind puffs directed to the abdominal cerci wer...
The structures of neurons, such as dendrites and axonal projections, are closely related to their re...
Using intracellular recording techniques in stationary walking crickets (Gryllus bimaculatus), we ha...
Summary. 1. Controlled wind puffs of different directions and velocities were delivered to the cerci...
We investigated the effects of visual information on wind-evoked escape behavior in the cricket, Gry...
1. Six different types of primary wind-sensitive interneurons in the cricket cercal sensory system w...
One of a pair of cerci was ablated in the first-, fourth- and last-instar nymphs of the cricket, Gry...
We examined the compensational recovery of the response rate (relative occurrence) of the wind-evoke...
In order to explore the functional recovery of the cercal sensory system of the cricket Gryllus bima...
The effects of self-generated wind on the compensational recovery of escape direction were investiga...
Crickets exhibit oriented walking behavior in response to air-current stimuli. Because crickets move...
The effects of the delay and duration of wind self-generated during walking on the compensational re...
Following the description of some typical variables of escape running in the cricket Gryllus bimacul...
In order to determine the contribution of each cercus and its receptors in organizing the receptive ...
Crickets carry wind-sensitive mechanoreceptors on their cerci, which, in response to the airflow pro...
Spontaneous walking and escape running in response to wind puffs directed to the abdominal cerci wer...
The structures of neurons, such as dendrites and axonal projections, are closely related to their re...
Using intracellular recording techniques in stationary walking crickets (Gryllus bimaculatus), we ha...
Summary. 1. Controlled wind puffs of different directions and velocities were delivered to the cerci...
We investigated the effects of visual information on wind-evoked escape behavior in the cricket, Gry...
1. Six different types of primary wind-sensitive interneurons in the cricket cercal sensory system w...