,
parasite,
parasitoid, and
predator strategies compared. Their interactions with their hosts form a continuum. Micropredation and parasitoidism are now considered to be
evolutionary strategies within parasitism. Parasites follow a wide variety of evolutionary strategies, placing their hosts in an equally wide range of relationships.
Types of hosts •
Definitive or primary host – an organism in which the
parasite reaches the adult stage and reproduces sexually, if possible. This is the final host. •
Secondary or intermediate host – an organism that harbors the sexually immature parasite and is required by the parasite to undergo development and complete its life cycle. It often acts as a vector of the parasite to reach its definitive host. For example,
Dirofilaria immitis, the heartworm of dogs, uses the mosquito as its intermediate host until it matures into the infective L3 larval stage. It is not always easy or even possible to identify which host is definitive and which secondary. The life cycles of many parasites are not well understood, and the subjectively or economically more important organism may initially be designated incorrectly as primary. Mislabelling may continue even after the error becomes known. For example trout and salmon are sometimes said to be "primary hosts" for
salmonid whirling disease, even though the
myxosporean parasite reproduces sexually inside the
sludge worm. And where the host harbors the different parasite's phases at different sites within its body, the host is both intermediate and definitive: for example
trichinosis, a disease caused by
roundworms, where the host has immature juveniles in its
muscles and reproductive adults in its digestive tract. •
Paratenic or transport host – an organism that harbors the sexually immature parasite but is not necessary for the parasite's
development cycle to progress. Paratenic hosts serve as "dumps" for non-mature stages of a parasite in which they can accumulate in high numbers. The trematode
Alaria americana is an example: the so-called
mesocercarial stages of this parasite reside in
tadpoles, which are rarely eaten by the definitive canine host. The tadpoles (or the frogs, following metamorphosis) are more frequently preyed on by
snakes, which then function as paratenic hosts: the mesocercariae do not undergo further development there, but may accumulate, and infect the definitive host once the snake is consumed by a canid. The nematode
Skrjabingylus nasicola is another example, with slugs as the intermediate hosts, shrews and rodents as the paratenic hosts, and mustelids as the definitive hosts. •
Dead-end, incidental, or accidental host – an organism that generally does not allow transmission to the definitive host, thereby preventing the parasite from completing its development. For example, humans and horses are dead-end hosts for
West Nile virus, whose life cycle is normally between
culicine mosquitoes and birds. People and horses can become infected, but the level of virus in their blood does not become high enough to pass on the infection to mosquitoes that bite them.
Plant hosts of micropredators moth
caterpillar, a polyphagous
micropredator Micropredation is an
evolutionarily stable strategy within parasitism, in which a small predator lives parasitically on a much larger host plant, eating parts of it. The
diamondback moth is an example of this, feeding exclusively on
brassicas, and the larva of the
potato tuber moth feeds on potatoes, tomatoes and tobacco, all members of the same plant family,
Solanaceae. Herbivorous insects with a wide range of hosts in various different plant families are known as
polyphagous. One example is the
buff ermine moth whose larvae feed on
alder,
mint,
plantain,
oak,
rhubarb,
currant,
blackberry,
dock,
ragwort,
nettle and
honeysuckle. virus can change by genetic reassortment as it travels between different hosts in its range. Plants often produce toxic or unpalatable
secondary metabolites to deter herbivores from feeding on them. Monophagous insects have developed specific adaptations to overcome those in their specialist hosts, giving them an advantage over polyphagous species. However, this puts them at greater risk of extinction if their chosen hosts suffer setbacks. Monophagous species are able to feed on the tender young foliage with high concentrations of damaging chemicals on which polyphagous species cannot feed, having to make do with older leaves. There is a trade off between offspring quality and quantity; the specialist maximises the chances of its young thriving by paying great attention to the choice of host, while the generalist produces larger numbers of eggs in sub-optimal conditions. Some insect micropredators migrate regularly from one host to another. The
hawthorn-carrot aphid overwinters on its primary host, a
hawthorn tree, and migrates during the summer to its secondary host, a plant in the
carrot family.
Host range The host range is the set of hosts that a parasite can use as a partner. In the case of human parasites, the host range influences the
epidemiology of the parasitism or disease.
Host range of viruses For instance, the production of
antigenic shifts in
Influenza A virus can result from pigs being infected with the virus from several different hosts (such as human and bird). This co-infection provides an opportunity for mixing of the viral genes between existing strains, thereby producing a new viral strain. An
influenza vaccine produced against an existing
viral strain might not be effective against this new strain, which then requires a new influenza vaccine to be prepared for the protection of the human population. ==Non-parasitic associations==