Add to ORKGThe tegula, a complex sense organ associated with the wing base of the locust, plays an important role in the generation of the flight motor pattern. Here its function in the control of wing movement and aerodynamic force production is described. The vertical component of forewing movement was monitored while recording intracellularly from flight motoneurones during stationary flight. First, in accordance with previous electrophysiological results, stimulation of hindwing tegula afferents was found to reset the wingstroke to the elevation phase in a well-coordinated manner. Second, recordings made before and after removal of fore- and hindwing tegulae were compared. This comparison demonstrated that the delayed onset of elevator motoneurone...
Extensive studies about neural mechanisms involved in insect flight control have been carried out. ...
Control of forewing twisting in locusts depends upon transfer of nervous activity between pterothora...
In a flying cockroach, the response of cereal wind receptors to standard wind stimuli was reduced by...
Previous investigations on the flight system of the locust have found that removal of the wing tegul...
1. We simultaneously recorded lift/body weight, flight speed, body angle and 12 variables of wing mo...
1. The connections of afferents from the hindwing tegulae to flight motoneurones and interneurones i...
1. The pleuroaxillary muscle of a forewing (M85) or hindwing (M114) in the locust is supplied by two...
How does the locust nervous system co-ordinate flight behaviour? Wilson & Weis-Fogh (1962) showe...
The mechanisms underlying locust flight include a central neuronal pattern generator determining the...
Wing movements in locust flight derive chiefly from a central neuronal signal generator determining ...
1. Tethered flying locusts (Locusta migratoria) make correctional steering movements with the abdome...
The sensory system plays a key role in the generation of behavior by providing the nervous system wi...
We simultaneously recorded flight muscle activity and wing kinematics in tethered, flying locusts to...
The wing motion during locust flight is caused by alternating contractions of elevator and depressor...
The respiratory behaviour of Locusta migratoria is altered at the onset of flight. The neuronal proc...
Extensive studies about neural mechanisms involved in insect flight control have been carried out. ...
Control of forewing twisting in locusts depends upon transfer of nervous activity between pterothora...
In a flying cockroach, the response of cereal wind receptors to standard wind stimuli was reduced by...
Previous investigations on the flight system of the locust have found that removal of the wing tegul...
1. We simultaneously recorded lift/body weight, flight speed, body angle and 12 variables of wing mo...
1. The connections of afferents from the hindwing tegulae to flight motoneurones and interneurones i...
1. The pleuroaxillary muscle of a forewing (M85) or hindwing (M114) in the locust is supplied by two...
How does the locust nervous system co-ordinate flight behaviour? Wilson & Weis-Fogh (1962) showe...
The mechanisms underlying locust flight include a central neuronal pattern generator determining the...
Wing movements in locust flight derive chiefly from a central neuronal signal generator determining ...
1. Tethered flying locusts (Locusta migratoria) make correctional steering movements with the abdome...
The sensory system plays a key role in the generation of behavior by providing the nervous system wi...
We simultaneously recorded flight muscle activity and wing kinematics in tethered, flying locusts to...
The wing motion during locust flight is caused by alternating contractions of elevator and depressor...
The respiratory behaviour of Locusta migratoria is altered at the onset of flight. The neuronal proc...
Extensive studies about neural mechanisms involved in insect flight control have been carried out. ...
Control of forewing twisting in locusts depends upon transfer of nervous activity between pterothora...
In a flying cockroach, the response of cereal wind receptors to standard wind stimuli was reduced by...