Flight of Heliothis virescens males in the field in response to sex pheromone

Abstract. The behaviour of Heliothis virescens males flying upwind in the field in a sex pheromone plume was videorecorded and analysed. Males flew faster and straighter, with less counterturning, and heading more directly into the wind when they were 9‐11m away from the odour source than when they were 1–3 m away. Regardless of their distance from the source or the windspeed, they maintained an average groundspeed of c. 200 cm s_1, except when they arrived within 1 m of the source, when their groundspeed slowed significantly. Two or more males flying in the plume at the same instant often exhibited either extremely straight and directly upwind tracks or else zigzagging tracks with significant counterturning (as did males flying through the field of view of the cameras at slighdy different times). The males' position, either in the centre of the plume's axis or along one side, might explain these differences in track straightness, which previous studies with H.virescens have shown to be caused by higher frequencies of contact with plume filaments. When a significant shift in wind direction occurred, males tended to make an initial movement in the direction of the shift, perhaps due to latencies of response in both the olfactory and visual systems associated with flying into clean air. The males' behaviour in the field overall was similar to that observed in the wind tunnel, except that their airspeeds and groundspeeds were significantly higher than those observed in the laboratory. The fact that they flew faster in the field can be explained both by the significandy higher windspeeds that males need to compensate for in the field to attain a preferred velocity of image motion, as well as by a higher height of flight over the ground in die field causing a slower apparent motion of images at a given groundspeed compared with the laboratory.

[1]  T. Baker,et al.  Chemical communication in heliothine moths. VII. Correlation between diminished responses to point-source plumes and single filaments similarly tainted with a behavioral antagonist , 1997, Journal of Comparative Physiology A.

[2]  T. Baker,et al.  Pheromone‐mediated optomotor anemotaxis and altitude control exhibited by male oriental fruit moths in the field , 1996 .

[3]  T. Baker,et al.  Reiterative responses to single strands of odor promote sustained upwind flight and odor source location by moths. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[4]  R. Cardé,et al.  Fine-scale structure of pheromone plumes modulates upwind orientation of flying moths , 1994, Nature.

[5]  Behavioral Reaction Times of Male Moths to Pheromone Filaments and Visual Stimuli: Determinants of Flight Track Shape and Direction , 1994 .

[6]  R. Cardé,et al.  Pheromone‐mediated upwind flight of male gypsy moths, Lymantria dispar, in a forest , 1991 .

[7]  Thomas C. Baker,et al.  The effects of unilateral antennectomy on the flight behaviour of male Heliothis virescens in a pheromone plume , 1991 .

[8]  E. Kramer,et al.  Sensory basis of pheromone-mediated orientation in moths , 1990 .

[9]  Thomas C. Baker,et al.  Field and laboratory electroantennographic measurements of pheromone plume structure correlated with oriental fruit moth behaviour , 1989 .

[10]  A. R. Jutsum,et al.  Insect pheromones in plant protection. , 1989 .

[11]  T. Baker,et al.  Optomotor anemotaxis polarizes self‐steered zigzagging in flying moths , 1984 .

[12]  Thomas C. Baker,et al.  A non‐anemotactic mechanism used in pheromone source location by flying moths , 1983 .

[13]  J. Kennedy Zigzagging and casting as a programmed response to wind‐borne odour: a review , 1983 .

[14]  A. Ludlow,et al.  Finding of a sex pheromone source by gypsy moths released in the field , 1983, Nature.

[15]  J. Murlis,et al.  The analysis of flight paths of male Egyptian cotton leafworm moths, Spodoptera littoralis, to a sex pheromone source in the field , 1982 .

[16]  T. Baker,et al.  Optomotor regulation of ground velocity in moths during flight to sex pheromone at different heights , 1982 .

[17]  J. Murlis,et al.  Fine‐scale structure of odour plumes in relation to insect orientation to distant pheromone and other attractant sources , 1981 .

[18]  J. Murlis,et al.  Night flight towards a sex pheromone source by male Spodoptera littoralis (Boisd.) (Lepidoptera, Noctuidae) , 1977, Nature.

[19]  H. Shorey,et al.  Mass-Rearing of the Larvae of Nine Noctuid Species on a Simple Artificial Medium , 1965 .

[20]  W. W. Hare,et al.  DDT residues on sweet corn ear tips and silks after treatment with dust, spray, or granular formulations , 1965 .

[21]  J. Kennedy,et al.  The migration of the Desert Locust (Schistocerca gregaria Forsk.) I. The behaviour of swarms. II. A theory of long-range migrations , 1951, Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences.

[22]  T. Baker Pheromone-modulated movements of flying moths , 2022 .