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Journal of Insect Physiology

Publication date: 2010-01-01
Volume: 56 Pages: 937 - 942
Publisher: Pergamon Press

Author:

Cullen, Darron
Sword, Gregory A ; Dodgson, Tim ; Simpson, Stephen J

Keywords:

Phenotypic plasticity, Behaviour, Locust phase polyphenism, Antennae, Chortoicetes terminifera, Science & Technology, Life Sciences & Biomedicine, Entomology, Physiology, Zoology, DESERT LOCUST, SCHISTOCERCA-GREGARIA, POLYPHENISM, ORTHOPTERA, ACRIDIDAE, EVOLUTION, STATE, Animals, Behavior, Animal, Crowding, Grasshoppers, Locomotion, Logistic Models, Photic Stimulation, Physical Stimulation, Population Density, Stimulation, Chemical, Touch, 0604 Genetics, 0606 Physiology, 0608 Zoology, 3109 Zoology, 3208 Medical physiology

Abstract:

Density-dependent phase polyphenism is a defining characteristic of the paraphyletic group of acridid grasshoppers known as locusts. The cues and mechanisms associated with crowding that induce behavioural gregarization are best understood in the desert locust, Schistocerca gregaria, and involve a combination of sensory inputs from the head (visual and olfactory) and mechanostimulation of the hind legs, acting via a transient increase in serotonin in the thoracic ganglia. Since behavioural gregarization has apparently arisen independently multiple times within the Acrididae, the important question arises as to whether the same mechanisms have been recruited each time. Here we explored the roles of visual, olfactory and tactile stimulation in the induction of behavioural gregarization in the Australian plague locust, Chortoicetes terminifera. We show that the primary gregarizing input is tactile stimulation of the antennae, with no evidence for an effect of visual and olfactory stimulation or tactile stimulation of the hind legs. Our results show that convergent behavioural responses to crowding have evolved employing different sites of sensory input in the Australian plague locust and the desert locust.