Visual feedback influences antennal positioning in flying hawk moths

Krishnan, Anand ; Sane, Sanjay P. (2014) Visual feedback influences antennal positioning in flying hawk moths Journal of Experimental Biology, 217 (6). pp. 908-917. ISSN 0022-0949

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Official URL: http://jeb.biologists.org/content/217/6/908

Related URL: http://dx.doi.org/10.1242/jeb.094276

Abstract

Insect antennae serve a variety of sensory functions including tactile sensing, olfaction and flight control. For all of these functions, the precise positioning of the antenna is essential to ensure the proper acquisition of sensory feedback. Although antennal movements in diverse insects may be elicited or influenced by multimodal sensory stimuli, the relative effects of these cues and their integration in the context of antennal positioning responses are not well understood. In previous studies, we have shown that fields of Bohm's bristles located at the base of the antennae provide crucial mechanosensory input for antennal positioning in flying hawk moths. Here, we present electrophysiological and behavioral evidence to show that, in addition to the Bohm's bristles, antennal muscles of hawk moths also respond to bilateral visual input. Moreover, in contrast to the mechanosensory-motor circuit, which is entirely contained within the ipsilateral side, visual feedback influences antennal positioning on both contralateral and ipsilateral sides. Electromyograms recorded from antennal muscles show that the latency of muscle responses to visual stimulation ranged from 35 to 60 ms, considerably slower than their responses to mechanosensory stimuli (<10 ms). Additionally, the visual inputs received by antennal muscles are both motion-sensitive and direction-selective. We characterized the influence of visual feedback on antennal positioning by presenting open-loop translational and rotational visual stimuli to tethered flying moths. During rotational stimuli, we observed that the antenna contralateral to the direction of the turn moved forward through larger angles than the ipsilateral antenna. These observations suggest that whereas input from the Bohm's bristles mediates rapid corrections of antennal position, visual feedback may be involved in slower, bilaterally coordinated movements of the antenna during visually guided flight maneuvers. Thus, visual feedback can modulate the set point at which the antenna is held during flight in hawk moths.

Item Type:Article
Source:Copyright of this article belongs to Company of Biologists Ltd.
Keywords:Antennal Positioning Behavior; Bohm's Bristles; Vision; Antennal Mechanosensors
ID Code:114107
Deposited On:28 May 2018 04:51
Last Modified:28 May 2018 04:51

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