Feeding modes Herbivores formed by plant lice (
Psyllidae),
Chamaesyce celastroides var. stokesii Most hemipterans are phytophagous, using their sucking and piercing mouthparts to feed on plant sap. These include cicadas, leafhoppers, treehoppers, planthoppers, froghoppers, aphids, whiteflies,
scale insects, and some other groups. Some are
monophages, being host specific and only found on one plant taxon, others are
oligophages, feeding on a few plant groups, while others again are less discriminating
polyphages and feed on many species of plant. The relationship between hemipterans and plants appears to be ancient, with piercing and sucking of plants evident in the
Early Devonian period. Hemipterans can dramatically cut the mass of affected plants, especially in major outbreaks. They sometimes also change the mix of plants by predation on seeds or feeding on roots of certain species. Some sap-suckers move from one host to another at different times of year. Many aphids spend the winter as eggs on a woody host plant and the summer as
parthenogenetically reproducing females on a herbaceous plant. ) piercing and sucking sap from a
Zinnia Phloem sap, which has a higher concentration of sugars and nitrogen, is under positive pressure unlike the more dilute
xylem sap. Most of the Sternorrhyncha and a number of Auchenorrhynchan groups feed on phloem. Phloem feeding is common in the Fulgoromorpha, most Cicadellidae and in the Heteroptera. The Typhlocybine cicadellids specialize in feeding on non-vascular
mesophyll tissue of leaves, which is more nutritious than the leaf epidermis. Most Heteroptera also feed on mesophyll tissue where they are more likely to encounter defensive secondary plant metabolites which often leads to the evolution of host specificity. Obligate xylem feeding is a special habit that is found in the Auchenorrhyncha among Cicadoidea, Cercopoidea and in Cicadelline cicadellids. Some phloem feeders may take to xylem sap facultatively, especially when facing dehydration. Xylem feeders tend to be polyphagous; to overcome the negative pressure of xylem requires a special cibarial pump. Phloem feeding hemiptera typically have symbiotic micro-organisms in their gut that help to convert
amino acids. Phloem feeders produce honeydew from their anus. A variety of organisms that feed on honeydew form symbiotic associations with phloem-feeders. Phloem sap is a sugary liquid low in amino acids, so insects have to process large quantities to meet their nutritional requirements. Xylem sap is even lower in amino acids and contains
monosaccharides rather than
sucrose, as well as organic acids and minerals. No digestion is required (except for the hydrolysis of sucrose) and 90% of the nutrients in the xylem sap can be utilised. Some phloem sap feeders selectively mix phloem and xylem sap to control the osmotic potential of the liquid consumed. A striking adaptation to a very dilute diet is found in many hemipterans: a filter chamber, a part of the gut looped back on itself as a countercurrent exchanger, which permits nutrients to be separated from excess water. The residue, mostly water with sugars and amino acids, is quickly excreted as sticky honeydew, notably from aphids but also from other Auchenorrhycha and Sternorrhyncha. Some Sternorrhyncha including Psyllids and some aphids are
gall formers. These sap-sucking hemipterans inject fluids containing plant hormones into the plant tissues inducing the production of tissue that covers to protects the insect and also act as sinks for nutrition that they feed on. The
hackberry gall psyllid for example, causes a woody gall on the leaf petioles of the
hackberry tree it infests, and the nymph of another psyllid produces a protective
lerp out of hardened honeydew. The saliva of predatory heteropterans contains
digestive enzymes such as
proteinase and
phospholipase, and in some species also
amylase. The mouthparts of these insects are adapted for predation. There are toothed stylets on the mandibles able to cut into and abrade tissues of their prey. There are further stylets on the maxillae, adapted as tubular canals to inject saliva and to extract the pre-digested and liquified contents of the prey.
Haematophagic ectoparasites A few hemipterans are
haematophagic ectoparasites, feeding on the blood of larger animals. These include
bedbugs and the
triatomine kissing bugs of the assassin bug family
Reduviidae, which can transmit the dangerous
Chagas disease.
As symbionts s protected by
meat ants Some species of
ant protect and farm aphids (Sternorrhyncha) and other sap-sucking hemipterans, gathering and eating the
honeydew that these hemipterans secrete. The relationship is
mutualistic, as both ant and aphid benefit. Ants such as the yellow anthill ant,
Lasius flavus, breed aphids of at least four species,
Geoica utricularia,
Tetraneura ulmi,
Forda marginata and
Forda formicaria, taking eggs with them when they found a new colony; in return, these aphids are obligately associated with the ant, breeding mainly or wholly asexually inside anthills. Ants may also protect the plant bugs from their natural enemies, removing the eggs of predatory beetles and preventing access by parasitic wasps.
As defended prey nymph has
camouflaged itself with sand grains. Hemiptera form prey to predators including vertebrates, such as birds, and other invertebrates such as
ladybirds. In response, hemipterans have evolved
antipredator adaptations.
Ranatra may feign death (
thanatosis). Others such as
Carpocoris purpureipennis secrete
toxic fluids to ward off arthropod predators; some Pentatomidae such as
Dolycoris are able to direct these fluids at an attacker. Toxic
cardenolide compounds are accumulated by the heteropteran
Oncopeltus fasciatus when it consumes
milkweeds, while the coreid stinkbug
Amorbus rubiginosus acquires 2-
hexenal from its food plant,
Eucalyptus. Some long-legged bugs
mimic twigs, rocking to and fro to simulate the motion of a plant part in the wind. The Amazon rain forest cicada
Hemisciera maculipennis displays bright red
deimatic flash coloration on its hindwings when threatened; the sudden contrast helps to startle predators, giving the cicada time to escape. The coloured patch on the hindwing is concealed at rest by an olive green patch of the same size on the forewing, enabling the insect to switch rapidly from
cryptic to deimatic behaviour. '',
protect themselves from predators with bright
aposematic warning coloration, and by aggregating in a group. Some hemipterans such as
firebugs have bold
aposematic warning coloration, often red and black, which appear to deter
passerine birds. Many hemipterans including aphids, scale insects and especially the planthoppers secrete wax to protect themselves from threats such as fungi, parasitoidal insects and predators, as well as abiotic factors like desiccation. Hard waxy coverings are especially important in the sedentary Sternorrhyncha such as scale insects, which have no means of escaping from predators; other Sternorrhyncha evade detection and attack by creating and living inside plant galls. Parental care is found in many species of Hemiptera especially in members of the Membracidae and numerous Heteroptera. In many species of shield bug, females stand guard over their egg clusters to protect them from egg parasitoids and predators. In the aquatic Belostomatidae, females lay their eggs on the back of the male which guards the eggs. Protection provided by ants is common in the Auchenorrhyncha. == Interaction with humans ==