chemical
dolichodial when attacked, so their displays are honest
aposematism. Deimatic displays are made by insects including the praying mantises (
Mantodea) and stick insects (
Phasmatodea). While undisturbed, these insects are usually well
camouflaged. When disturbed by a potential predator, they suddenly reveal their hind wings, which are brightly coloured. In mantises, the wing display is sometimes reinforced by showing brightly coloured front legs, and accompanied by a loud hissing sound created by
stridulation. For example, the grasshopper
Phymateus displays red and yellow areas on its hind wings; it is also aposematic, producing a distasteful secretion from its thorax. Among
moths with deimatic behaviour, the eyed hawkmoth (
Smerinthus ocellatus) displays its large eyespots, moving them slowly as if it were a vertebrate predator such as an
owl. An experiment by the Australian zoologist A. D. Blest demonstrated that the more an eyespot resembled a real vertebrate eye in both colour and pattern, the more effective it was in scaring off insectivorous birds. In another experiment using peacock butterflies, Blest showed that when the conspicuous eyespots had been rubbed off, insectivorous birds (yellow buntings) were much less effectively frightened off, and therefore both the sudden appearance of colour, and the actual eyespot pattern, contribute to the effectiveness of the deimatic display. Others, such as many species of genus
Speiredonia and
Spirama, look threatening while at rest. Also
saturniid moths of the genera
Attacus and
Rothschildia display snake heads, but not from the frontal position. Many
arctiid moths make clicks when hunted by
echolocating bats; they also often contain unpalatable chemicals. Some such as dogbane tiger moths (
Cycnia tenera) have ears and conspicuous coloration, and start to make clicks when echolocating bats approach. An experiment by the Canadian zoologists John M. Ratcliffe and James H. Fullard, using dogbane tiger moths and northern long-eared bats (
Myotis septentrionalis), suggests that the signals in fact both disrupt echolocation and warn of chemical defence. The behaviour of these insects is thus both deimatic and aposematic. File:Flügel Peruphasma schultei.jpg|Deimatic display of the phasmid
Peruphasma schultei File:Haaniella dehaanii-subadult threaten female.JPG|Threat pose of the
phasmid Haaniella dehaanii File:Gottesanbeterin Abwehr.JPG|An adult female Mediterranean
mantis,
Iris oratoria, in threat pose File:Smerinthus ocellatus MHNT Female dos.jpg|Female eyed hawkmoth,
Smerinthus ocellatus, mounted to show the large eyespots File:Inachis io bottom side.jpg|Peacock butterfly,
Aglais io, is a cryptic leaf mimic when its wings are closed. File:Aglais io - geograph.org.uk - 235513.jpg|With its wings open, the peacock butterfly displays startling eyespots. File:Speiredonia spectans.jpg|
Speiredonia spectans resting mimicking a brooding head File:Pseudocreobotra wahlbergii defence.jpg|
Pseudocreobotra wahlbergii flashing its wings in deimatic pose File:Gray_plate8.jpeg|A fine large "
Phasma" illustrated by
George Robert Gray in 1833, showing cryptic resting pose and dramatic wing flash File:Notodontidae_-_Cerura_vinula.jpg|A puss moth (
Cerura vinula) caterpillar displaying its two flagella on its tail and red patches on its head. If the threat does not retreat, the caterpillar can spray
formic acid from its flagella. ==In arachnids==