About 10% of described insects are parasitoids, in the orders
Hymenoptera,
Diptera,
Coleoptera,
Neuroptera,
Lepidoptera,
Strepsiptera, and
Trichoptera. The majority are wasps within the Hymenoptera; most of the others are Dipteran flies. Parasitoidism has
evolved independently many times: once each in Hymenoptera, Strepsiptera, Neuroptera, and Trichoptera, twice in the Lepidoptera, 10 times or more in Coleoptera, and no less than 21 times among the Diptera. These are all
holometabolous insects (
Endopterygota, which form a single
clade), and it is always the larvae that are parasitoidal. The metamorphosis from active larva to an adult with a different body structure
permits the dual lifestyle of parasitic larva, freeliving adult in this group. These relationships are shown on the
phylogenetic tree; groups containing parasitoids are shown in boldface, e.g.
Coleoptera, with the number of times parasitoidism evolved in the group in parentheses, e.g.
(10 clades). The approximate number (estimates can vary widely) of parasitoid species represent the great majority of species in the order, barring those like the
ants,
bees, and
Vespidae wasps that have secondarily lost the parasitoid habit. The parasitoid wasps include some 25,000
Ichneumonoidea, 22,000
Chalcidoidea, 5,500
Vespoidea, 4,000
Platygastroidea, 3,000
Chrysidoidea, 2,300
Cynipoidea, and many smaller families. They can be classified as either endoparasitic or ectoparasitic according to where they lay their eggs. Endoparasitic wasps insert their eggs inside their host, usually as koinobionts, allowing the host to continue to grow (thus providing more food to the wasp larvae), moult, and evade predators. Ectoparasitic wasps deposit theirs outside the host's body, usually as idiobionts, immediately paralysing the host to prevent it from escaping or throwing off the parasite. They sometimes carry the host to a nest where it will remain undisturbed for the wasp larva to feed on. Hosts such as ants often behave as if aware of the wasps' presence, making violent movements to prevent oviposition. Wasps may wait for the host to stop moving, and then attack suddenly. Parasitoid wasps face a range of obstacles to oviposition, To thwart this, some wasps inundate their host with their eggs so as to overload its immune system's ability to encapsulate foreign bodies; others introduce a
virus which interferes with the host's immune system. Some parasitoid wasps locate hosts by detecting the chemicals that plants release to defend against insect herbivores.
Other orders n protruding (lower right) from the abdomen of its wasp host; the male (not shown) has wings The true flies (
Diptera) include several families of parasitoids, the largest of which is the
Tachinidae (some 9,200 species Some
Phoridae are parasitoids of ants. Some
flesh flies are parasitoids: for instance
Emblemasoma auditrix is parasitoidal on cicadas, locating its host by sound. The
Strepsiptera (twisted-wing parasites) consist entirely of parasitoids; they usually sterilise their hosts. Three
beetle families,
Ripiphoridae (450 species
Passandridae, and
Rhipiceridae, are largely parasitoids, as are
Aleochara Staphylinidae; in all, some 400 staphylinids are parasitoidal. Some 1,600 species of the large and mainly freeliving family
Carabidae (mostly in the subfamilies
Brachininae and
Lebiinae) are parasitoids. The larvae of some
Mantispidae, subfamily Symphrasinae, are parasitoids of other arthropods including bees and wasps. Although nearly all Lepidoptera (butterflies and moths) are herbivorous, a few species are parasitic. The larvae of
Epipyropidae feed on
Hemiptera such as leafhoppers and cicadas, and sometimes on other Lepidoptera. The larvae of
Cyclotornidae parasitise first Hemiptera and later
ant brood. Parasitism is rare in the Trichoptera (caddisflies), but it is found among the
Hydroptilidae (purse-case caddisflies), probably including all 10 species in the
Orthotrichia aberrans group; they parasitise the pupae of other trichopterans. Mites of the family
Acarophenacidae are ectoparasitoids of insect eggs. Unlike the insect parasitoids, it is the adult stage in Acarophenacidae that acts as a parasitoid. Specifically, adult female mites feed on insect eggs and their body swells up with offspring, which eventually emerge as adults.
Entomopathogenic fungi All known fungi in the genera
Cordyceps and
Ophiocordyceps are endoparasitic. One of the most notable fungal parasitoids is
O. unilateralis, which infects carpenter ants by breaching the ant's exoskeletons via their spores and growing in the ant's hemocoel as free living yeast cells. Eventually the yeast cells progress to producing nerve toxins to alter the behaviour of the ant, causing it to climb and bite onto vegetation, an act known as the 'death bite'. This approach is so fine-tuned, it causes the ant to bite down on the adaxial leaf midrib, which is the part of the leaf most optimal for the fungus to fruit. In fact, it has been found that in specific circumstances, the time of the death bite is synchronised to solar noon. As much as 40% of the ant's biomass is fungal hyphae at the moment of the death bite. After the ant dies, the fungus produces a large stalk, growing from the back of the ant's head, which subsequently releases ascospores. These spores are too large to be wind dispersed and instead fall directly to the ground, where they produce secondary spores that infect ants as they walk over them.
O. sinesis is a parasitoid as well, parasitising ghost moth larvae, killing them within 15–25 days, a similar process to that of
O. unilateralis. == Learning in parasitoids ==