fbpx
Wikipedia

Parasitoid

February 16, 2024

In evolutionary ecology, a parasitoid is an organism that lives in close association with its host at the host's expense, eventually resulting in the death of the host. Parasitoidism is one of six major evolutionary strategies within parasitism, distinguished by the fatal prognosis for the host, which makes the strategy close to predation.

A parasitoid wasp (Trioxys complanatus, Aphidiinae) ovipositing into the body of a spotted alfalfa aphid (Therioaphis maculata, Calaphidinae), a behaviour that is used in biological pest control[a][2]

Among parasitoids, strategies range from living inside the host (endoparasitism), allowing it to continue growing before emerging as an adult, to paralysing the host and living outside it (ectoparasitism). Hosts can include other parasitoids, resulting in hyperparasitism; in the case of oak galls, up to five levels of parasitism are possible. Some parasitoids influence their host's behaviour in ways that favour the propagation of the parasitoid.

Parasitoids are found in a variety of taxa across the insect superorder Endopterygota, whose complete metamorphosis may have pre-adapted them for a split lifestyle, with parasitoid larvae and free-living adults. Most are in the Hymenoptera, where the ichneumons and many other parasitoid wasps are highly specialised for a parasitoidal way of life. There are parasitoids, too, in the Diptera, Coleoptera and other orders of endopterygote insects. Some of these, usually but not only wasps, are used in biological pest control.

The 17th-century zoological artist Maria Sibylla Merian closely observed parasitoids and their hosts in her paintings. The biology of parasitoidism influenced Charles Darwin's beliefs and has inspired science fiction authors and scriptwriters to create numerous parasitoidal aliens that kill their human hosts, such as the alien species in Ridley Scott's 1979 film Alien.

Etymology edit

The term "parasitoid" was coined in 1913 by the Swedo-Finnish writer Odo Reuter,[3] and adopted in English by his reviewer,[4] the entomologist William Morton Wheeler.[5] Reuter used it to describe the strategy where the parasite develops in or on the body of a single host individual, eventually killing that host, while the adult is free-living. Since that time, the concept has been generalised and widely applied.[6]

Strategies edit

Evolutionary options edit

A perspective on the evolutionary options can be gained by considering four questions: the effect on the reproductive fitness of a parasite's hosts; the number of hosts they have per life stage; whether the host is prevented from reproducing; and whether the effect depends on intensity (number of parasites per host). From this analysis, proposed by K. D. Lafferty and A. M. Kunis, the major evolutionary strategies of parasitism emerge, alongside predation.[7]

Evolutionary strategies in parasitism and predation[7]
(intensity-dependent: green, roman;
       intensity-independent: purple, italics)
Host fitness Single host, stays alive Single host, dies Multiple hosts
Able to
reproduce
(fitness > 0)		 Conventional parasite
   Pathogen		 Trophically transmitted parasite[b]
   Trophically transmitted pathogen		 Micropredator
   Micropredator
Unable to
reproduce
(fitness = 0)
   Parasitic castrator		 Trophically transmitted parasitic castrator
   Parasitoid		 Social predator[c]
   Solitary predator

Parasitoidism, in the view of R. Poulin and H. S. Randhawa, is one of six main evolutionary strategies within parasitism, the others being parasitic castrator, directly transmitted parasite, trophically transmitted parasite, vector-transmitted parasite, and micropredator. These are adaptive peaks, with many possible intermediate strategies, but organisms in many different groups have consistently converged on these six.[8][9]

Parasitoids feed on a living host which they eventually kill, typically before it can produce offspring, whereas conventional parasites usually do not kill their hosts, and predators typically kill their prey immediately.[10][11]

Basic concepts edit

 
A hyperparasitoid chalcidoid wasp on the cocoons of its host, a braconid wasp, itself a koinobiont parasitoid of Lepidoptera

Parasitoids can be classified as either endo- or ectoparasitoids with idiobiont or koinobiont developmental strategies. Endoparasitoids live within their host's body, while ectoparasitoids feed on the host from outside. Idiobiont parasitoids prevent further development of the host after initially immobilising it, whereas koinobiont parasitoids allow the host to continue its development while feeding upon it. Most ectoparasitoids are idiobiont, as the host could damage or dislodge the external parasitoid if allowed to move and moult. Most endoparasitoids are koinobionts, giving them the advantage of a host that continues to grow larger and avoid predators.[12]

Primary parasitoids have the simplest parasitic relationship, involving two organisms, the host and the parasitoid. Hyperparasitoids are parasitoids of parasitoids; secondary parasitoids have a primary parasitoid as their host, so there are three organisms involved. Hyperparasitoids are either facultative (can be a primary parasitoid or a hyperparasitoid depending on the situation) or obligate (always develop as a hyperparasitoid). Levels of parasitoids beyond secondary also occur, especially among facultative parasitoids. In oak gall systems, there can be up to five levels of parasitism.[13] Cases in which two or more species of parasitoids simultaneously attack the same host without parasitizing each other are called multi- or multiple parasitism. In many cases, multiple parasitism still leads to the death of one or more of the parasitoids involved. If multiple parasitoids of the same species coexist in a single host, it is called superparasitism. Gregarious species lay multiple eggs or polyembryonic eggs which lead to multiple larvae in a single host. The end result of gregarious superparasitism can be a single surviving parasitoid individual or multiple surviving individuals, depending on the species. If superparasitism occurs accidentally in normally solitary species the larvae often fight among themselves until only one is left.[14][15]

Influencing host behaviour edit

 
Female phorid fly Apocephalus borealis (centre left) ovipositing into the abdomen of a worker honey bee, altering its behaviour
Further information: Behavior-altering parasite

In another strategy, some parasitoids influence the host's behaviour in ways that favour the propagation of the parasitoid, often at the cost of the host's life. A spectacular example is the lancet liver fluke, which causes host ants to die clinging to grass stalks, where grazers or birds may be expected to eat them and complete the parasitoidal fluke's life cycle in its definitive host. Similarly, as strepsipteran parasitoids of ants mature, they cause the hosts to climb high on grass stalks, positions that are risky, but favour the emergence of the strepsipterans.[16] Among pathogens of mammals, the rabies virus affects the host's central nervous system, eventually killing it, but perhaps helping to disseminate the virus by modifying the host's behaviour.[17] Among the parasitic wasps, Glyptapanteles modifies the behaviour of its host caterpillar to defend the pupae of the wasps after they emerge from the caterpillar's body.[18] The phorid fly Apocephalus borealis oviposits into the abdomen of its hosts, including honey bees, causing them to abandon their nest, flying from it at night and soon dying, allowing the next generation of flies to emerge outside the hive.[19]

Taxonomic range edit

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.[6][20][21] 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.[22] 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.[23] These relationships are shown on the phylogenetic tree;[24][25] 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[26] out of the total is shown in square brackets, e.g. [2,500 of 400,000].

Endopterygota
Neuropterida

Raphidioptera

Megaloptera

Neuroptera (net-winged insects) (1 clade) [c. 15 of 6,000]

Coleopterida

Coleoptera (beetles) (10 clades) [c. 2,500 of 400,000]  

(1 clade)

Strepsiptera (twisted-wing parasites) [600 of 600]  

Hymenoptera

Symphyta

(1 clade)

Orussoidea (parasitic wood wasps) [75 of 75]  

Apocrita (wasp-waisted insects) [c. 50,000 of 100,000]  

Panorpida

Diptera (true flies) (21 clades) [c. 17,000 of 125,000]  

Trichoptera (caddis flies) (1 clade) [c. 10 of 14,500]

Lepidoptera (butterflies, moths) (2 clades) [c. 40 of 180,000]  

Hymenoptera edit

Main article: Parasitoid wasp
 
Potter wasp, an idiobiont, building a mud nest; she will provision it with paralysed insects, on which she will lay her eggs; she will then seal the nest and provide no further care for her young

Within the Hymenoptera, parasitoidism evolved just once, and the many described[d] species of parasitoid wasps[27] 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.[26] These often have remarkable life cycles.[28] They can be classified as either endoparasitic or ectoparasitic according to where they lay their eggs.[29] 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 often carry the host to a nest where it will remain undisturbed for the wasp larva to feed on.[6] Most species of wasps attack the eggs or larvae of their host, but some attack adults. Oviposition depends on finding the host and on evading host defences; the ovipositor is a tube-like organ used to inject eggs into hosts, sometimes much longer than the wasp's body.[30][31][32] 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.[33]

Parasitoid wasps face a range of obstacles to oviposition,[6] including behavioural, morphological, physiological and immunological defences of their hosts.[29][34] To thwart this, some wasps inundate their host with their eggs so as to overload its immune system's ability to encapsulate foreign bodies;[35] others introduce a virus which interferes with the host's immune system.[36] Some parasitoid wasps locate hosts by detecting the chemicals that plants release to defend against insect herbivores.[37]

Other orders edit

 
The head of a sessile female strepsipteran 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[26]), followed by the Bombyliidae (some 4,500 species[26]), along with the Pipunculidae and the Conopidae, which includes parasitoidal genera such as Stylogaster. Other families of flies include some protelean species.[38] Some Phoridae are parasitoids of ants.[39][40] Some flesh flies are parasitoids: for instance Emblemasoma auditrix is parasitoidal on cicadas, locating its host by sound.[41]

The Strepsiptera (twisted-wing parasites) consist entirely of parasitoids; they usually sterilise their hosts.[42]

Two beetle families, Ripiphoridae (450 species[26])[43][44] and Rhipiceridae, are largely parasitoids, as are Aleochara Staphylinidae; in all, some 400 staphylinids are parasitoidal.[26][38][45] Some 1,600 species of the large and mainly freeliving family Carabidae are parasitoids.[26]

A few Neuroptera are parasitoidal; they have larvae that actively search for hosts.[46] The larvae of some Mantispidae, subfamily Symphrasinae, are parasitoids of other arthropods including bees and wasps.[26]

Although nearly all Lepidoptera (butterflies and moths) are herbivorous, a few species are parasitic. The larvae of Epipyropidae feed on Homoptera such as leafhoppers and cicadas, and sometimes on other Lepidoptera. The larvae of Cyclotornidae parasitise first Homoptera and later ant brood.[47] The pyralid moth Chalcoela has been used in biological control of the wasp Polistes in the Galapagos Islands.[22]

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.[48]

Entomopathogenic fungi edit

All known fungi in the genera Cordyceps and Ophiocordyceps are endoparasitic.[49] 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, known as the 'death bite'.[50] This approach is so fine-tuned it causes the ant to bite down on the part of the leaf most optimal for the fungus to fruit; the adaxial leaf midrib. In fact, it has been found that in specific circumstances, the time of the death bite is synchronised to solar noon.[51] As much as 40% of the ant's biomass is fungal hyphae at the moment of the death bite.[52] After the ant dies, the fungus produces a large stalk, growing from the back of the ant's head[53] 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.[54] 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.[55]

Interactions with humans edit

In biological pest control edit

Main article: Biological pest control
 
Encarsia formosa, an endoparasitic aphelinid wasp, bred commercially to control whitefly in greenhouses

Parasitoids are among the most widely used biological control agents. Classic biological pest control using natural enemies of pests (parasitoids or predators) is extremely cost effective, the cost/benefit ratio for classic control being 1:250, but the technique is more variable in its effects than pesticides; it reduces rather than eliminates pests. The cost/benefit ratio for screening natural enemies is similarly far higher than for screening chemicals: 1:30 against 1:5 respectively, since the search for suitable natural enemies can be guided accurately with ecological knowledge. Natural enemies are more difficult to produce and to distribute than chemicals, as they have a shelf life of weeks at most; and they face a commercial obstacle, namely that they cannot be patented.[56][57]

From the point of view of the farmer or horticulturalist, the most important groups are the ichneumonid wasps, which prey mainly on caterpillars of butterflies and moths; braconid wasps, which attack caterpillars and a wide range of other insects including greenfly; chalcidoid wasps, which parasitise eggs and larvae of greenfly, whitefly, cabbage caterpillars, and scale insects; and tachinid flies, which parasitise a wide range of insects including caterpillars, adult and larval beetles, and true bugs.[58] Commercially, there are two types of rearing systems: short-term seasonal daily output with high production of parasitoids per day, and long-term year-round low daily output with a range in production of 4–1000 million female parasitoids per week, to meet demand for suitable biological control agents for different crops.[59][60]

Maria Sibylla Merian edit

 
Parasitic wasps (centre right) with their garden tiger moth host, by Maria Sibylla Merian

Maria Sibylla Merian (1647–1717) was one of the first naturalists to study and depict parasitoids and their insect hosts in her closely-observed paintings.[61]

Charles Darwin edit

Parasitoids influenced the religious thinking of Charles Darwin,[e] who wrote in an 1860 letter to the American naturalist Asa Gray: "I cannot persuade myself that a beneficent and omnipotent God would have designedly created parasitic wasps with the express intention of their feeding within the living bodies of Caterpillars."[63] The palaeontologist Donald Prothero notes that religiously minded people of the Victorian era, including Darwin, were horrified by this instance of evident cruelty in nature, particularly noticeable in the ichneumonid wasps.[64]

In science fiction edit

Further information: Parasites in fiction and Alien (creature in Alien franchise)
 
A 1990s gargoyle at Paisley Abbey, Scotland, resembling a Xenomorph[65] parasitoid from the film Alien[66]

Parasitoids have inspired science fiction authors and screenwriters to create terrifying parasitic alien species that kill their human hosts.[67] One of the best-known is the Xenomorph in Ridley Scott's 1979 film Alien, which runs rapidly through its lifecycle from violently entering a human host's mouth to bursting fatally from the host's chest.[68][69][70] The molecular biologist Alex Sercel, writing in Signal to Noise Magazine, compares "the biology of the [Alien] Xenomorphs to parasitoid wasps and nematomorph worms from Earth to illustrate how close to reality the biology of these aliens is and to discuss this exceptional instance of science inspiring artists".[71] Sercel notes that the way the Xenomorph grasps a human's face to implant its embryo is comparable to the way a parasitoid wasp lays its eggs in a living host. He further compares the Xenomorph life cycle to that of the nematomorph Paragordius tricuspidatus which grows to fill its host's body cavity before bursting out and killing it.[71] Alistair Dove, on the science website Deep Sea News, writes that there are multiple parallels with parasitoids, though there are in his view more disturbing life cycles in real biology. In his view, the parallels include the placing of an embryo in the host; its growth in the host; the resulting death of the host; and alternating generations, as in the Digenea (trematodes).[72] The social anthropologist Marika Moisseeff argues that "The parasitical and swarming aspects of insect reproduction make these animals favoured villains in Hollywood science fiction. The battle of culture against nature is depicted as an unending combat between humanity and insect-like extraterrestrial species that tend to parasitise human beings in order to reproduce."[67] The Encyclopedia of Science Fiction lists many instances of "parasitism", often causing the host's death.[73]

Notes edit

  1. ^ The species has been introduced to Australia to control the spotted alfalfa aphid.[1]
  2. ^ Trophically transmitted parasites are transmitted to their definitive host, a predator, when their intermediate host is eaten. These parasites often modify the behaviour of their intermediate hosts, causing them to behave in a way that makes them likely to be eaten, such as by climbing to a conspicuous point: this gets the parasites transmitted at the cost of the intermediate host's life.
  3. ^ The wolf is a social predator, hunting in packs; the cheetah is a solitary predator, hunting alone. Neither strategy is conventionally considered parasitic.
  4. ^ There may be far more species of parasitoid wasp not yet described.
  5. ^ Darwin mentions "parasitic" wasps in On the Origin of Species, Chapter 7, page 218.[62]

References edit

  1. ^ Wilson, C. G.; Swincer, D. E.; Walden, K. J. (1982). "The Introduction of Trioxys Complanatus Quilis (Hymenoptera: Aphidiidae), an Internal Parasite of the Spotted Alfalfa Aphid, into South Australia". Australian Journal of Entomology. 21 (1): 13–27. doi:10.1111/j.1440-6055.1982.tb01758.x.
  2. ^ "Spotted Alfalfa Aphid / Alfalfa / Agriculture: Pest Management Guidelines / UC Statewide IPM Program (UC IPM)". ipm.ucanr.edu. Retrieved 22 September 2023.
  3. ^ Reuter, Odo M. (1913). Lebensgewohnheiten und Instinkte der Insekten [Habits and instincts of the insects up to the awakening of social instincts] (in German). R. Friedländer und Sohn.
  4. ^ Wheeler, William Morton (9 January 1914). "Scientific Books | Lebensgewohnheiten und Instinkte der Insekten bis zum Erwachen der sozialen Instinkte". Science. American Association for the Advancement of Science (AAAS). 39 (993): 69–71. doi:10.1126/science.39.993.69.
  5. ^ Wheeler, William Morton (1923). Social life among the insects: being a series of lectures delivered at the Lowell Institute in Boston in March 1922. Harcourt, Brace. Previously published in Scientific Monthly, June 1922 to February 1923.
  6. ^ a b c d Godfray, H. C. J. (1994). Parasitoids: Behavioral and Evolutionary Ecology. Princeton University Press. ISBN 978-0-691-00047-3.
  7. ^ a b Lafferty, K. D.; Kuris, A. M. (2002). "Trophic strategies, animal diversity and body size". Trends Ecol. Evol. 17 (11): 507–513. doi:10.1016/s0169-5347(02)02615-0.
  8. ^ Poulin, Robert; Randhawa, Haseeb S. (February 2015). "Evolution of parasitism along convergent lines: from ecology to genomics". Parasitology. 142 (Supplement 1): S6–S15. doi:10.1017/S0031182013001674. PMC 4413784. PMID 24229807.
  9. ^ Poulin, Robert (2011). Rollinson, D.; Hay, S. I. (eds.). The Many Roads to Parasitism: A Tale of Convergence. Vol. 74. Academic Press. pp. 27–28. doi:10.1016/B978-0-12-385897-9.00001-X. ISBN 978-0-12-385897-9. PMID 21295676. {{cite book}}: |journal= ignored (help)
  10. ^ Stevens, Alison N. P. (2010). "Predation, Herbivory, and Parasitism". Nature Education Knowledge. 3 (10): 36. Retrieved 12 February 2018. Predation, herbivory, and parasitism exist along a continuum of severity in terms of the extent to which they negatively affect an organism's fitness. ... In most situations, parasites do not kill their hosts. An exception, however, occurs with parasitoids, which blur the line between parasitism and predation.
  11. ^ Møller, A. P. (1990). "Effects of parasitism by a haematophagous mite on reproduction in the barn swallow". Ecology. 71 (6): 2345–2357. doi:10.2307/1938645. JSTOR 1938645.
  12. ^ Gullan, P. J.; Cranston, P. S. (2014). The Insects: An Outline of Entomology (5th ed.). Wiley. pp. 362–370. ISBN 978-1-118-84615-5.
  13. ^ Askew, R. R. (1961). "On the biology of the inhabitants of oak galls of Cynipidae (Hymenoptera) in Britain". Transactions of the Society for British Entomology. 14: 237–268.
  14. ^ Gullan, P. J.; Cranston, P. S. (2014). The Insects: An Outline of Entomology (5th ed.). Wiley. pp. 365–369. ISBN 978-1-118-84615-5.
  15. ^ Fisher, R. C. (1 June 1961). "A Study in Insect Multiparasitism: I. Host Selection and Oviposition" (PDF). Journal of Experimental Biology. 38 (2): 267–275. doi:10.1242/jeb.38.2.267.
  16. ^ Wojcik, Daniel P. (March 1989). "Behavioral Interactions between Ants and Their Parasites". The Florida Entomologist. 72 (1): 43–51. doi:10.2307/3494966. JSTOR 3494966.
  17. ^ Taylor, P. J. (December 1993). "A systematic and population genetic approach to the rabies problem in the yellow mongoose (Cynictis penicillata)". Onderstepoort J. Vet. Res. 60 (4): 379–87. PMID 7777324.
  18. ^ Grosman, Amir H.; Janssen, Arne; Brito, Elaine F. de; Cordeiro, Eduardo G.; Colares, Felipe; Fonseca, Juliana Oliveira; Lima, Eraldo R.; Pallini, Angelo; Sabelis, Maurice W. (4 June 2008). "Parasitoid Increases Survival of Its Pupae by Inducing Hosts to Fight Predators". PLOS ONE. 3 (6): e2276. Bibcode:2008PLoSO...3.2276G. doi:10.1371/journal.pone.0002276. PMC 2386968. PMID 18523578.
  19. ^ Core, Andrew; Runcke, Charles; Ivers, Jonathan; Quock, Christopher; Siapno, Travis; DeNault, Seraphina; Brown, Brian; DeRisi, Joseph; Smith, Christopher D.; Hafernik, John (2012). "A new threat to honey bees, the parasitic phorid fly Apocephalus borealis". PLoS ONE. 7 (1): e29639. Bibcode:2012PLoSO...729639C. doi:10.1371/journal.pone.0029639. PMC 3250467. PMID 22235317.
  20. ^ Eggleton, P.; Belshaw, R. (1992). "Insect parasitoids: an evolutionary overview". Philosophical Transactions of the Royal Society B. 337 (1279): 1–20. Bibcode:1992RSPTB.337....1E. doi:10.1098/rstb.1992.0079.
  21. ^ Foottit, R. G.; Adler, P. H. (2009). Insect Biodiversity: Science and Society, Volume 1. Wiley-Blackwell. p. 656. ISBN 978-1118945537.
  22. ^ a b Foottit, Robert G. (2017). Insect Biodiversity: Science and Society. John Wiley & Sons. p. 606. ISBN 978-1-118-94553-7.
  23. ^ "Parasites (Parasitoids)". University of Alberta. Retrieved 10 March 2018.
  24. ^ Niehuis, O.; Hartig, G.; Grath, S.; Pohl, H.; Lehmann, J.; Tafer, H.; Donath, A.; Krauss, V.; Eisenhardt, C.; Hertel, J.; Petersen, M.; Mayer, C.; Meusemann, K.; Peters, R.S.; Stadler, P.F.; Beutel, R.G.; Bornberg-Bauer, E.; McKenna, D.D.; Misof, B. (2012). "Genomic and Morphological Evidence Converge to Resolve the Enigma of Strepsiptera". Current Biology. 22 (14): 1309–1313. doi:10.1016/j.cub.2012.05.018. PMID 22704986.
  25. ^ Colgan, Donald J.; Zhao, Chenjing; Liu, Xingyue; Yang, Ding (2014). "Wing Base Structural Data Support the Sister Relationship of Megaloptera and Neuroptera (Insecta: Neuropterida)". PLOS ONE. 9 (12): e114695. Bibcode:2014PLoSO...9k4695Z. doi:10.1371/journal.pone.0114695. PMC 4263614. PMID 25502404.
  26. ^ a b c d e f g h Mills, N. (2009). "Parasitoids". In V. H. Resh; R. T. Cardé (eds.). Encyclopedia of Insects (2nd ed.). Elsevier. pp. 748–750. ISBN 978-0123741448.
  27. ^ Goulet, Henri; Huber, John Theodore (1993). Hymenoptera of the world : an identification guide to families. Centre for Land and Biological Resources Research. ISBN 978-0-660-14933-2. OCLC 28024976.
  28. ^ Hochberg, M.; Elmes, G. W.; Thomas, J. A.; Clarke, R. T. (1996). "Mechanisms of local persistence in coupled host-parasitoid associations: the case model of Maculinea rebeli and Ichneumon eumerus". Philosophical Transactions of the Royal Society B: Biological Sciences. 351 (1348): 1713–1724. Bibcode:1996RSPTB.351.1713H. doi:10.1098/rstb.1996.0153.
  29. ^ a b Apostolos, Kapranas; Tena, Alejandro; Luck, Robert F. (2012). "Dynamic virulence in a parasitoid wasp: the influence of clutch size and sequential oviposition on egg encapsulation". Animal Behaviour. 83 (3): 833–838. doi:10.1016/j.anbehav.2012.01.004. S2CID 54275511.
  30. ^ Gullan, P. J.; Cranston, P. S. (2010). The Insects: An Outline of Entomology (4th ed.). Wiley. pp. 364, 367. ISBN 978-1-118-84615-5.
  31. ^ Gomez, Jose-Maria; van Achterberg, Cornelius (2011). "Oviposition behaviour of four ant parasitoids (Hymenoptera, Braconidae, Euphorinae, Neoneurini and Ichneumonidae, Hybrizontinae), with the description of three new European species". ZooKeys (125): 59–106. doi:10.3897/zookeys.125.1754. PMC 3185369. PMID 21998538.
  32. ^ Quicke, D. L. J.; Fitton, M. G. (22 July 1995). "Ovipositor Steering Mechanisms in Parasitic Wasps of the Families Gasteruptiidae and Aulacidae (Hymenoptera)". Proceedings of the Royal Society B: Biological Sciences. The Royal Society. 261 (1360): 99–103. Bibcode:1995RSPSB.261...99Q. doi:10.1098/rspb.1995.0122. S2CID 84043987. The length of the ovipositor compared with the body of the parasitic wasp varies enormously between taxa, from being a fraction of the length of the metasoma to more than 14 times longer than the head and body. (Townes 1975; Achterberg 1986; Compton & Nefdt 1988).
  33. ^ Van Achterberg Cornelius; Argaman Q. "Kollasmosoma gen. nov. and a key to the genera of the subfamily Neoneurinae (Hymenoptera: Braconidae)". Zoologische Mededelingen Leiden. 67. (1993):63-74.
  34. ^ Schmidt, O.; Theopold, U.; Strand, M.R. (2001). "Innate immunity and evasion by insect parasitoids". BioEssays. 23 (4): 344–351. doi:10.1002/bies.1049. PMID 11268040. S2CID 20850885.
  35. ^ Salt, George (1968). "The resistance of insect parasitoids to the defense reactions of their hosts". Biological Reviews of the Cambridge Philosophical Society. 43 (2): 200–232. doi:10.1111/j.1469-185x.1968.tb00959.x. PMID 4869949. S2CID 21251615.
  36. ^ Summers, M. D.; Dib-Hajj (1995). "Polydnavirus-facilitated endoparasite protection against host immune defenses". PNAS. 92 (1): 29–36. Bibcode:1995PNAS...92...29S. doi:10.1073/pnas.92.1.29. PMC 42812. PMID 7816835.
  37. ^ Kessler, Andre; Baldwin, Ian T. (2002). "Plant Responses to Insect Herbivory: The Emerging Molecular Analysis". Annual Review of Plant Biology. 53: 299–328. doi:10.1146/annurev.arplant.53.100301.135207. PMID 12221978.
  38. ^ a b "Midwest Biological Control News". Department of Entomology at the University of Wisconsin–Madison.
  39. ^ Wuellner, C. T.; et al. (2002). "Phorid Fly (Diptera: Phoridae) Oviposition Behavior and Fire Ant (Hymenoptera: Formicidae) Reaction to Attack Differ According to Phorid Species". Annals of the Entomological Society of America. 95 (2): 257–266. doi:10.1603/0013-8746(2002)095[0257:pfdpob]2.0.co;2.
  40. ^ Feener, Donald H. Jr.; Jacobs, Lucia F.; Schmidt, Justin O. (January 1996). "Specialized parasitoid attracted to a pheromone of ants". Animal Behaviour. 51 (1): 61–66. doi:10.1006/anbe.1996.0005. ISSN 0003-3472. S2CID 16627717.
  41. ^ Köhler, U.; Lakes-Harlan, R. (October 2001). "Auditory behaviour of a parasitoid fly (Emblemasoma auditrix, Sarcophagidae, Diptera)". J Comp Physiol A. 187 (8): 581–587. doi:10.1007/s003590100230. PMID 11763956. S2CID 23343345.
  42. ^ Whiting, M. F. (2003). "Strepsiptera". In Resh, V. H.; Cardé, R. T. (eds.). Encyclopedia of Insects. Academic Press. pp. 1094–1096. ISBN 9780125869904.
  43. ^ Falin, Z. H. (2002). "102. Ripiphoridae. Gemminger and Harold 1870 (1853)". In Arnett, R.H. Jr; Thomas, M. C.; Skelley, P. E.; Frank, J. H. (eds.). American beetles. Volume 2. Polyphaga: Scarabaeoidea through Curculionoidea. CRC Press. pp. 431–444. doi:10.1201/9781420041231.ch6 (inactive 1 February 2024). ISBN 978-0-8493-0954-0.{{cite book}}: CS1 maint: DOI inactive as of February 2024 (link)
  44. ^ Lawrence, J. F.; Falin, Z. H.; Ślipiński, A. (2010). "Ripiphoridae Gemminger and Harold, 1870 (Gerstaecker, 1855)". In Leschen, R. A. B.; Beutel, R. G.; Lawrence, J. F. (eds.). Coleoptera, beetles. Volume 2: Morphology and systematics (Elateroidea, Bostrichiformia, Cucujiformia partim). New York: Walter de Gruyter. pp. 538–548. doi:10.1515/9783110911213.538. ISBN 978-3-11-019075-5.
  45. ^ Yamamoto, Shûhei; Maruyama, Munetoshi (2016). "Revision of the subgenus Aleochara Gravenhorst of the parasitoid rove beetle genus Aleochara Gravenhorst of Japan (Coleoptera: Staphylinidae: Aleocharinae)". Zootaxa. 4101 (1): 1–68. doi:10.11646/zootaxa.4101.1.1. PMID 27394607.
  46. ^ Godfray, H. C. J. (1994). Parasitoids: Behavioral and Evolutionary Ecology. Princeton University Press. p. 40. ISBN 978-0-691-00047-3.
  47. ^ Pierce, Naomi E. (1995). "Predatory and Parasitic Lepidoptera: Carnivores Living on Plants" (PDF). Journal of the Lepidopterists' Society. 49 (4): 412–453.
  48. ^ Wells, Alice (2005). "Parasitism by hydroptilid caddisflies (Trichoptera) and seven new species of Hydroptilidae from northern Queensland". Australian Journal of Entomology. 44 (4): 385–391. doi:10.1111/j.1440-6055.2005.00492.x.
  49. ^ Qu, Shuai-Ling; Li, Su-Su; Li, Dong; Zhao, Pei-Ji (24 July 2022). "Metabolites and Their Bioactivities from the Genus Cordyceps". Microorganisms. 10 (8): 1489. doi:10.3390/microorganisms10081489. ISSN 2076-2607. PMC 9330831. PMID 35893547.
  50. ^ Evans, Harry C.; Elliot, Simon L.; Hughes, David P. (1 September 2011). "Ophiocordyceps unilateralis: A keystone species for unraveling ecosystem functioning and biodiversity of fungi in tropical forests?". Communicative & Integrative Biology. 4 (5): 598–602. doi:10.4161/cib.16721. PMC 3204140. PMID 22046474.
  51. ^ Hughes, David P; Andersen, Sandra B; Hywel-Jones, Nigel L; Himaman, Winanda; Billen, Johan; Boomsma, Jacobus J (2011). "Behavioral mechanisms and morphological symptoms of zombie ants dying from fungal infection". BMC Ecology. 11 (1): 13. doi:10.1186/1472-6785-11-13. ISSN 1472-6785. PMC 3118224. PMID 21554670.
  52. ^ Sheldrake, Merlin (2021). Entangled Life. Vintage. pp. 107–119. ISBN 9781784708276.
  53. ^ Pontoppidan, Maj-Britt; Himaman, Winanda; Hywel-Jones, Nigel L.; Boomsma, Jacobus J.; Hughes, David P. (12 March 2009). Dornhaus, Anna (ed.). "Graveyards on the Move: The Spatio-Temporal Distribution of Dead Ophiocordyceps-Infected Ants". PLOS ONE. 4 (3): e4835. doi:10.1371/journal.pone.0004835. ISSN 1932-6203. PMC 2652714. PMID 19279680.
  54. ^ Pontoppidan, Maj-Britt; Himaman, Winanda; Hywel-Jones, Nigel L.; Boomsma, Jacobus J.; Hughes, David P. (12 March 2009). Dornhaus, Anna (ed.). "Graveyards on the Move: The Spatio-Temporal Distribution of Dead Ophiocordyceps-Infected Ants". PLOS ONE. 4 (3): e4835. doi:10.1371/journal.pone.0004835. ISSN 1932-6203. PMC 2652714. PMID 19279680.
  55. ^ Zhang, Yongjie; Li, Erwei; Wang, Chengshu; Li, Yuling; Liu, Xingzhong (1 March 2012). "Ophiocordyceps sinensis, the flagship fungus of China: terminology, life strategy and ecology". Mycology. 3 (1): 2–10. doi:10.1080/21501203.2011.654354 (inactive 31 January 2024). ISSN 2150-1203.{{cite journal}}: CS1 maint: DOI inactive as of January 2024 (link)
  56. ^ Bale, J.S; van Lenteren, J.C; Bigler, F (February 2008). "Biological control and sustainable food production". Philosophical Transactions of the Royal Society B: Biological Sciences. The Royal Society. 363 (1492): 761–776. doi:10.1098/rstb.2007.2182. PMC 2610108. PMID 17827110.
  57. ^ Legner, Erich F. "Economic Gains & Analysis Of Successes In Biological Pest Control". University of California, Riverside. from the original on 23 June 2008. Retrieved 13 February 2018.
  58. ^ . University of Maryland. Archived from the original on 27 August 2016. Retrieved 6 June 2016.
  59. ^ Smith, S. M. (1996). "Biological control with Trichogramma: advances, successes, and potential of their use". Annual Review of Entomology. 41: 375–406. doi:10.1146/annurev.en.41.010196.002111. PMID 15012334.
  60. ^ Wajnberg, E.; Hassan, S.A. (1994). Biological Control with Egg Parasitoids. CABI Publishing.
  61. ^ Todd, Kim (2011). "Maria Sibylla Merian (1647-1717): an early investigator of parasitoids and phenotypic plasticity". Terrestrial Arthropod Reviews. 4 (2): 131–144. doi:10.1163/187498311X567794.
  62. ^ On the Origin of Species, Chapter 7, page 218.
  63. ^ "Letter 2814 — Darwin, C. R. to Gray, Asa, 22 May [1860]". Retrieved 5 April 2011.
  64. ^ Prothero, Donald R. (2017). Evolution: What the Fossils Say and Why It Matters. Columbia University Press. pp. 84–86. ISBN 978-0-231-54316-3.
  65. ^ Budanovic, Nikola (10 March 2018). "An explanation emerges for how the 12th century Paisley Abbey in Scotland could feature a gargoyle out of the film "Alien"". The Vintage News. Retrieved 17 June 2018.
  66. ^ "'Alien' gargoyle on ancient Paisley Abbey". British Broadcasting Corporation. 23 August 2013. Retrieved 17 June 2018.
  67. ^ a b Moisseeff, Marika (23 January 2014). Aliens as an Invasive Reproductive Power in Science Fiction. Polis, Sofia. pp. 239–257. {{cite book}}: |website= ignored (help)
  68. ^ Pappas, Stephanie (29 May 2012). "5 Alien Parasites and Their Real-World Counterparts". Live Science.
  69. ^ Williams, Robyn; Field, Scott (27 September 1997). "Behaviour, Evolutionary Games and .... Aliens". Australian Broadcasting Corporation. Retrieved 30 November 2017.
  70. ^ "The Making of Alien's Chestburster Scene". The Guardian. 13 October 2009. from the original on 30 April 2010. Retrieved 29 May 2010.
  71. ^ a b Sercel, Alex (19 May 2017). "Parasitism in the Alien Movies". Signal to Noise Magazine.
  72. ^ Dove, Alistair (9 May 2011). "This is clearly an important species we're dealing with". Deep Sea News.
  73. ^ "Parasitism and Symbiosis". The Encyclopedia of Science Fiction. 10 January 2016.

February 16, 2024
parasitoid, evolutionary, ecology, parasitoid, organism, that, lives, close, association, with, host, host, expense, eventually, resulting, death, host, major, evolutionary, strategies, within, parasitism, distinguished, fatal, prognosis, host, which, makes, s. In evolutionary ecology a parasitoid is an organism that lives in close association with its host at the host s expense eventually resulting in the death of the host Parasitoidism is one of six major evolutionary strategies within parasitism distinguished by the fatal prognosis for the host which makes the strategy close to predation A parasitoid wasp Trioxys complanatus Aphidiinae ovipositing into the body of a spotted alfalfa aphid Therioaphis maculata Calaphidinae a behaviour that is used in biological pest control a 2 Among parasitoids strategies range from living inside the host endoparasitism allowing it to continue growing before emerging as an adult to paralysing the host and living outside it ectoparasitism Hosts can include other parasitoids resulting in hyperparasitism in the case of oak galls up to five levels of parasitism are possible Some parasitoids influence their host s behaviour in ways that favour the propagation of the parasitoid Parasitoids are found in a variety of taxa across the insect superorder Endopterygota whose complete metamorphosis may have pre adapted them for a split lifestyle with parasitoid larvae and free living adults Most are in the Hymenoptera where the ichneumons and many other parasitoid wasps are highly specialised for a parasitoidal way of life There are parasitoids too in the Diptera Coleoptera and other orders of endopterygote insects Some of these usually but not only wasps are used in biological pest control The 17th century zoological artist Maria Sibylla Merian closely observed parasitoids and their hosts in her paintings The biology of parasitoidism influenced Charles Darwin s beliefs and has inspired science fiction authors and scriptwriters to create numerous parasitoidal aliens that kill their human hosts such as the alien species in Ridley Scott s 1979 film Alien Contents 1 Etymology 2 Strategies 2 1 Evolutionary options 2 2 Basic concepts 2 3 Influencing host behaviour 3 Taxonomic range 3 1 Hymenoptera 3 2 Other orders 3 3 Entomopathogenic fungi 4 Interactions with humans 4 1 In biological pest control 4 2 Maria Sibylla Merian 4 3 Charles Darwin 4 4 In science fiction 5 Notes 6 ReferencesEtymology editThe term parasitoid was coined in 1913 by the Swedo Finnish writer Odo Reuter 3 and adopted in English by his reviewer 4 the entomologist William Morton Wheeler 5 Reuter used it to describe the strategy where the parasite develops in or on the body of a single host individual eventually killing that host while the adult is free living Since that time the concept has been generalised and widely applied 6 Strategies editEvolutionary options edit A perspective on the evolutionary options can be gained by considering four questions the effect on the reproductive fitness of a parasite s hosts the number of hosts they have per life stage whether the host is prevented from reproducing and whether the effect depends on intensity number of parasites per host From this analysis proposed by K D Lafferty and A M Kunis the major evolutionary strategies of parasitism emerge alongside predation 7 Evolutionary strategies in parasitism and predation 7 intensity dependent green roman intensity independent purple italics Host fitness Single host stays alive Single host dies Multiple hostsAble toreproduce fitness gt 0 Conventional parasite Pathogen Trophically transmitted parasite b Trophically transmitted pathogen Micropredator MicropredatorUnable toreproduce fitness 0 Parasitic castrator Trophically transmitted parasitic castrator Parasitoid Social predator c Solitary predatorParasitoidism in the view of R Poulin and H S Randhawa is one of six main evolutionary strategies within parasitism the others being parasitic castrator directly transmitted parasite trophically transmitted parasite vector transmitted parasite and micropredator These are adaptive peaks with many possible intermediate strategies but organisms in many different groups have consistently converged on these six 8 9 Parasitoids feed on a living host which they eventually kill typically before it can produce offspring whereas conventional parasites usually do not kill their hosts and predators typically kill their prey immediately 10 11 Basic concepts edit nbsp A hyperparasitoid chalcidoid wasp on the cocoons of its host a braconid wasp itself a koinobiont parasitoid of LepidopteraParasitoids can be classified as either endo or ectoparasitoids with idiobiont or koinobiont developmental strategies Endoparasitoids live within their host s body while ectoparasitoids feed on the host from outside Idiobiont parasitoids prevent further development of the host after initially immobilising it whereas koinobiont parasitoids allow the host to continue its development while feeding upon it Most ectoparasitoids are idiobiont as the host could damage or dislodge the external parasitoid if allowed to move and moult Most endoparasitoids are koinobionts giving them the advantage of a host that continues to grow larger and avoid predators 12 Primary parasitoids have the simplest parasitic relationship involving two organisms the host and the parasitoid Hyperparasitoids are parasitoids of parasitoids secondary parasitoids have a primary parasitoid as their host so there are three organisms involved Hyperparasitoids are either facultative can be a primary parasitoid or a hyperparasitoid depending on the situation or obligate always develop as a hyperparasitoid Levels of parasitoids beyond secondary also occur especially among facultative parasitoids In oak gall systems there can be up to five levels of parasitism 13 Cases in which two or more species of parasitoids simultaneously attack the same host without parasitizing each other are called multi or multiple parasitism In many cases multiple parasitism still leads to the death of one or more of the parasitoids involved If multiple parasitoids of the same species coexist in a single host it is called superparasitism Gregarious species lay multiple eggs or polyembryonic eggs which lead to multiple larvae in a single host The end result of gregarious superparasitism can be a single surviving parasitoid individual or multiple surviving individuals depending on the species If superparasitism occurs accidentally in normally solitary species the larvae often fight among themselves until only one is left 14 15 Influencing host behaviour edit nbsp Female phorid fly Apocephalus borealis centre left ovipositing into the abdomen of a worker honey bee altering its behaviourFurther information Behavior altering parasite In another strategy some parasitoids influence the host s behaviour in ways that favour the propagation of the parasitoid often at the cost of the host s life A spectacular example is the lancet liver fluke which causes host ants to die clinging to grass stalks where grazers or birds may be expected to eat them and complete the parasitoidal fluke s life cycle in its definitive host Similarly as strepsipteran parasitoids of ants mature they cause the hosts to climb high on grass stalks positions that are risky but favour the emergence of the strepsipterans 16 Among pathogens of mammals the rabies virus affects the host s central nervous system eventually killing it but perhaps helping to disseminate the virus by modifying the host s behaviour 17 Among the parasitic wasps Glyptapanteles modifies the behaviour of its host caterpillar to defend the pupae of the wasps after they emerge from the caterpillar s body 18 The phorid fly Apocephalus borealis oviposits into the abdomen of its hosts including honey bees causing them to abandon their nest flying from it at night and soon dying allowing the next generation of flies to emerge outside the hive 19 Taxonomic range editAbout 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 6 20 21 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 22 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 23 These relationships are shown on the phylogenetic tree 24 25 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 26 out of the total is shown in square brackets e g 2 500 of 400 000 Endopterygota Neuropterida RaphidiopteraMegalopteraNeuroptera net winged insects 1 clade c 15 of 6 000 Coleopterida Coleoptera beetles 10 clades c 2 500 of 400 000 nbsp 1 clade Strepsiptera twisted wing parasites 600 of 600 nbsp Hymenoptera Symphyta 1 clade Orussoidea parasitic wood wasps 75 of 75 nbsp Apocrita wasp waisted insects c 50 000 of 100 000 nbsp Panorpida Diptera true flies 21 clades c 17 000 of 125 000 nbsp MecopteraSiphonapteraTrichoptera caddis flies 1 clade c 10 of 14 500 Lepidoptera butterflies moths 2 clades c 40 of 180 000 nbsp Hymenoptera edit Main article Parasitoid wasp nbsp Potter wasp an idiobiont building a mud nest she will provision it with paralysed insects on which she will lay her eggs she will then seal the nest and provide no further care for her youngWithin the Hymenoptera parasitoidism evolved just once and the many described d species of parasitoid wasps 27 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 26 These often have remarkable life cycles 28 They can be classified as either endoparasitic or ectoparasitic according to where they lay their eggs 29 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 often carry the host to a nest where it will remain undisturbed for the wasp larva to feed on 6 Most species of wasps attack the eggs or larvae of their host but some attack adults Oviposition depends on finding the host and on evading host defences the ovipositor is a tube like organ used to inject eggs into hosts sometimes much longer than the wasp s body 30 31 32 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 33 Parasitoid wasps face a range of obstacles to oviposition 6 including behavioural morphological physiological and immunological defences of their hosts 29 34 To thwart this some wasps inundate their host with their eggs so as to overload its immune system s ability to encapsulate foreign bodies 35 others introduce a virus which interferes with the host s immune system 36 Some parasitoid wasps locate hosts by detecting the chemicals that plants release to defend against insect herbivores 37 Other orders edit nbsp The head of a sessile female strepsipteran protruding lower right from the abdomen of its wasp host the male not shown has wingsThe true flies Diptera include several families of parasitoids the largest of which is the Tachinidae some 9 200 species 26 followed by the Bombyliidae some 4 500 species 26 along with the Pipunculidae and the Conopidae which includes parasitoidal genera such as Stylogaster Other families of flies include some protelean species 38 Some Phoridae are parasitoids of ants 39 40 Some flesh flies are parasitoids for instance Emblemasoma auditrix is parasitoidal on cicadas locating its host by sound 41 The Strepsiptera twisted wing parasites consist entirely of parasitoids they usually sterilise their hosts 42 Two beetle families Ripiphoridae 450 species 26 43 44 and Rhipiceridae are largely parasitoids as are Aleochara Staphylinidae in all some 400 staphylinids are parasitoidal 26 38 45 Some 1 600 species of the large and mainly freeliving family Carabidae are parasitoids 26 A few Neuroptera are parasitoidal they have larvae that actively search for hosts 46 The larvae of some Mantispidae subfamily Symphrasinae are parasitoids of other arthropods including bees and wasps 26 Although nearly all Lepidoptera butterflies and moths are herbivorous a few species are parasitic The larvae of Epipyropidae feed on Homoptera such as leafhoppers and cicadas and sometimes on other Lepidoptera The larvae of Cyclotornidae parasitise first Homoptera and later ant brood 47 The pyralid moth Chalcoela has been used in biological control of the wasp Polistes in the Galapagos Islands 22 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 48 Entomopathogenic fungi edit All known fungi in the genera Cordyceps and Ophiocordyceps are endoparasitic 49 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 known as the death bite 50 This approach is so fine tuned it causes the ant to bite down on the part of the leaf most optimal for the fungus to fruit the adaxial leaf midrib In fact it has been found that in specific circumstances the time of the death bite is synchronised to solar noon 51 As much as 40 of the ant s biomass is fungal hyphae at the moment of the death bite 52 After the ant dies the fungus produces a large stalk growing from the back of the ant s head 53 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 54 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 55 Interactions with humans editIn biological pest control edit Main article Biological pest control nbsp Encarsia formosa an endoparasitic aphelinid wasp bred commercially to control whitefly in greenhousesParasitoids are among the most widely used biological control agents Classic biological pest control using natural enemies of pests parasitoids or predators is extremely cost effective the cost benefit ratio for classic control being 1 250 but the technique is more variable in its effects than pesticides it reduces rather than eliminates pests The cost benefit ratio for screening natural enemies is similarly far higher than for screening chemicals 1 30 against 1 5 respectively since the search for suitable natural enemies can be guided accurately with ecological knowledge Natural enemies are more difficult to produce and to distribute than chemicals as they have a shelf life of weeks at most and they face a commercial obstacle namely that they cannot be patented 56 57 From the point of view of the farmer or horticulturalist the most important groups are the ichneumonid wasps which prey mainly on caterpillars of butterflies and moths braconid wasps which attack caterpillars and a wide range of other insects including greenfly chalcidoid wasps which parasitise eggs and larvae of greenfly whitefly cabbage caterpillars and scale insects and tachinid flies which parasitise a wide range of insects including caterpillars adult and larval beetles and true bugs 58 Commercially there are two types of rearing systems short term seasonal daily output with high production of parasitoids per day and long term year round low daily output with a range in production of 4 1000 million female parasitoids per week to meet demand for suitable biological control agents for different crops 59 60 Maria Sibylla Merian edit nbsp Parasitic wasps centre right with their garden tiger moth host by Maria Sibylla MerianMaria Sibylla Merian 1647 1717 was one of the first naturalists to study and depict parasitoids and their insect hosts in her closely observed paintings 61 Charles Darwin edit Parasitoids influenced the religious thinking of Charles Darwin e who wrote in an 1860 letter to the American naturalist Asa Gray I cannot persuade myself that a beneficent and omnipotent God would have designedly created parasitic wasps with the express intention of their feeding within the living bodies of Caterpillars 63 The palaeontologist Donald Prothero notes that religiously minded people of the Victorian era including Darwin were horrified by this instance of evident cruelty in nature particularly noticeable in the ichneumonid wasps 64 In science fiction edit Further information Parasites in fiction and Alien creature in Alien franchise nbsp A 1990s gargoyle at Paisley Abbey Scotland resembling a Xenomorph 65 parasitoid from the film Alien 66 Parasitoids have inspired science fiction authors and screenwriters to create terrifying parasitic alien species that kill their human hosts 67 One of the best known is the Xenomorph in Ridley Scott s 1979 film Alien which runs rapidly through its lifecycle from violently entering a human host s mouth to bursting fatally from the host s chest 68 69 70 The molecular biologist Alex Sercel writing in Signal to Noise Magazine compares the biology of the Alien Xenomorphs to parasitoid wasps and nematomorph worms from Earth to illustrate how close to reality the biology of these aliens is and to discuss this exceptional instance of science inspiring artists 71 Sercel notes that the way the Xenomorph grasps a human s face to implant its embryo is comparable to the way a parasitoid wasp lays its eggs in a living host He further compares the Xenomorph life cycle to that of the nematomorph Paragordius tricuspidatus which grows to fill its host s body cavity before bursting out and killing it 71 Alistair Dove on the science website Deep Sea News writes that there are multiple parallels with parasitoids though there are in his view more disturbing life cycles in real biology In his view the parallels include the placing of an embryo in the host its growth in the host the resulting death of the host and alternating generations as in the Digenea trematodes 72 The social anthropologist Marika Moisseeff argues that The parasitical and swarming aspects of insect reproduction make these animals favoured villains in Hollywood science fiction The battle of culture against nature is depicted as an unending combat between humanity and insect like extraterrestrial species that tend to parasitise human beings in order to reproduce 67 The Encyclopedia of Science Fiction lists many instances of parasitism often causing the host s death 73 Notes edit The species has been introduced to Australia to control the spotted alfalfa aphid 1 Trophically transmitted parasites are transmitted to their definitive host a predator when their intermediate host is eaten These parasites often modify the behaviour of their intermediate hosts causing them to behave in a way that makes them likely to be eaten such as by climbing to a conspicuous point this gets the parasites transmitted at the cost of the intermediate host s life The wolf is a social predator hunting in packs the cheetah is a solitary predator hunting alone Neither strategy is conventionally considered parasitic There may be far more species of parasitoid wasp not yet described Darwin mentions parasitic wasps in On the Origin of Species Chapter 7 page 218 62 References edit Wilson C G Swincer D E Walden K J 1982 The Introduction of Trioxys Complanatus Quilis Hymenoptera Aphidiidae an Internal Parasite of the Spotted Alfalfa Aphid into South Australia Australian Journal of Entomology 21 1 13 27 doi 10 1111 j 1440 6055 1982 tb01758 x Spotted Alfalfa Aphid Alfalfa Agriculture Pest Management Guidelines UC Statewide IPM Program UC IPM ipm ucanr edu Retrieved 22 September 2023 Reuter Odo M 1913 Lebensgewohnheiten und Instinkte der Insekten Habits and instincts of the insects up to the awakening of social instincts in German R Friedlander und Sohn Wheeler William Morton 9 January 1914 Scientific Books Lebensgewohnheiten und Instinkte der Insekten bis zum Erwachen der sozialen Instinkte Science American Association for the Advancement of Science AAAS 39 993 69 71 doi 10 1126 science 39 993 69 Wheeler William Morton 1923 Social life among the insects being a series of lectures delivered at the Lowell Institute in Boston in March 1922 Harcourt Brace Previously published in Scientific Monthly June 1922 to February 1923 a b c d Godfray H C J 1994 Parasitoids Behavioral and Evolutionary Ecology Princeton University Press ISBN 978 0 691 00047 3 a b Lafferty K D Kuris A M 2002 Trophic strategies animal diversity and body size Trends Ecol Evol 17 11 507 513 doi 10 1016 s0169 5347 02 02615 0 Poulin Robert Randhawa Haseeb S February 2015 Evolution of parasitism along convergent lines from ecology to genomics Parasitology 142 Supplement 1 S6 S15 doi 10 1017 S0031182013001674 PMC 4413784 PMID 24229807 Poulin Robert 2011 Rollinson D Hay S I eds The Many Roads to Parasitism A Tale of Convergence Vol 74 Academic Press pp 27 28 doi 10 1016 B978 0 12 385897 9 00001 X ISBN 978 0 12 385897 9 PMID 21295676 a href Template Cite book html title Template Cite book cite book a journal ignored help Stevens Alison N P 2010 Predation Herbivory and Parasitism Nature Education Knowledge 3 10 36 Retrieved 12 February 2018 Predation herbivory and parasitism exist along a continuum of severity in terms of the extent to which they negatively affect an organism s fitness In most situations parasites do not kill their hosts An exception however occurs with parasitoids which blur the line between parasitism and predation Moller A P 1990 Effects of parasitism by a haematophagous mite on reproduction in the barn swallow Ecology 71 6 2345 2357 doi 10 2307 1938645 JSTOR 1938645 Gullan P J Cranston P S 2014 The Insects An Outline of Entomology 5th ed Wiley pp 362 370 ISBN 978 1 118 84615 5 Askew R R 1961 On the biology of the inhabitants of oak galls of Cynipidae Hymenoptera in Britain Transactions of the Society for British Entomology 14 237 268 Gullan P J Cranston P S 2014 The Insects An Outline of Entomology 5th ed Wiley pp 365 369 ISBN 978 1 118 84615 5 Fisher R C 1 June 1961 A Study in Insect Multiparasitism I Host Selection and Oviposition PDF Journal of Experimental Biology 38 2 267 275 doi 10 1242 jeb 38 2 267 Wojcik Daniel P March 1989 Behavioral Interactions between Ants and Their Parasites The Florida Entomologist 72 1 43 51 doi 10 2307 3494966 JSTOR 3494966 Taylor P J December 1993 A systematic and population genetic approach to the rabies problem in the yellow mongoose Cynictis penicillata Onderstepoort J Vet Res 60 4 379 87 PMID 7777324 Grosman Amir H Janssen Arne Brito Elaine F de Cordeiro Eduardo G Colares Felipe Fonseca Juliana Oliveira Lima Eraldo R Pallini Angelo Sabelis Maurice W 4 June 2008 Parasitoid Increases Survival of Its Pupae by Inducing Hosts to Fight Predators PLOS ONE 3 6 e2276 Bibcode 2008PLoSO 3 2276G doi 10 1371 journal pone 0002276 PMC 2386968 PMID 18523578 Core Andrew Runcke Charles Ivers Jonathan Quock Christopher Siapno Travis DeNault Seraphina Brown Brian DeRisi Joseph Smith Christopher D Hafernik John 2012 A new threat to honey bees the parasitic phorid fly Apocephalus borealis PLoS ONE 7 1 e29639 Bibcode 2012PLoSO 729639C doi 10 1371 journal pone 0029639 PMC 3250467 PMID 22235317 Eggleton P Belshaw R 1992 Insect parasitoids an evolutionary overview Philosophical Transactions of the Royal Society B 337 1279 1 20 Bibcode 1992RSPTB 337 1E doi 10 1098 rstb 1992 0079 Foottit R G Adler P H 2009 Insect Biodiversity Science and Society Volume 1 Wiley Blackwell p 656 ISBN 978 1118945537 a b Foottit Robert G 2017 Insect Biodiversity Science and Society John Wiley amp Sons p 606 ISBN 978 1 118 94553 7 Parasites Parasitoids University of Alberta Retrieved 10 March 2018 Niehuis O Hartig G Grath S Pohl H Lehmann J Tafer H Donath A Krauss V Eisenhardt C Hertel J Petersen M Mayer C Meusemann K Peters R S Stadler P F Beutel R G Bornberg Bauer E McKenna D D Misof B 2012 Genomic and Morphological Evidence Converge to Resolve the Enigma of Strepsiptera Current Biology 22 14 1309 1313 doi 10 1016 j cub 2012 05 018 PMID 22704986 Colgan Donald J Zhao Chenjing Liu Xingyue Yang Ding 2014 Wing Base Structural Data Support the Sister Relationship of Megaloptera and Neuroptera Insecta Neuropterida PLOS ONE 9 12 e114695 Bibcode 2014PLoSO 9k4695Z doi 10 1371 journal pone 0114695 PMC 4263614 PMID 25502404 a b c d e f g h Mills N 2009 Parasitoids In V H Resh R T Carde eds Encyclopedia of Insects 2nd ed Elsevier pp 748 750 ISBN 978 0123741448 Goulet Henri Huber John Theodore 1993 Hymenoptera of the world an identification guide to families Centre for Land and Biological Resources Research ISBN 978 0 660 14933 2 OCLC 28024976 Hochberg M Elmes G W Thomas J A Clarke R T 1996 Mechanisms of local persistence in coupled host parasitoid associations the case model of Maculinea rebeli and Ichneumon eumerus Philosophical Transactions of the Royal Society B Biological Sciences 351 1348 1713 1724 Bibcode 1996RSPTB 351 1713H doi 10 1098 rstb 1996 0153 a b Apostolos Kapranas Tena Alejandro Luck Robert F 2012 Dynamic virulence in a parasitoid wasp the influence of clutch size and sequential oviposition on egg encapsulation Animal Behaviour 83 3 833 838 doi 10 1016 j anbehav 2012 01 004 S2CID 54275511 Gullan P J Cranston P S 2010 The Insects An Outline of Entomology 4th ed Wiley pp 364 367 ISBN 978 1 118 84615 5 Gomez Jose Maria van Achterberg Cornelius 2011 Oviposition behaviour of four ant parasitoids Hymenoptera Braconidae Euphorinae Neoneurini and Ichneumonidae Hybrizontinae with the description of three new European species ZooKeys 125 59 106 doi 10 3897 zookeys 125 1754 PMC 3185369 PMID 21998538 Quicke D L J Fitton M G 22 July 1995 Ovipositor Steering Mechanisms in Parasitic Wasps of the Families Gasteruptiidae and Aulacidae Hymenoptera Proceedings of the Royal Society B Biological Sciences The Royal Society 261 1360 99 103 Bibcode 1995RSPSB 261 99Q doi 10 1098 rspb 1995 0122 S2CID 84043987 The length of the ovipositor compared with the body of the parasitic wasp varies enormously between taxa from being a fraction of the length of the metasoma to more than 14 times longer than the head and body Townes 1975 Achterberg 1986 Compton amp Nefdt 1988 Van Achterberg Cornelius Argaman Q Kollasmosoma gen nov and a key to the genera of the subfamily Neoneurinae Hymenoptera Braconidae Zoologische Mededelingen Leiden 67 1993 63 74 Schmidt O Theopold U Strand M R 2001 Innate immunity and evasion by insect parasitoids BioEssays 23 4 344 351 doi 10 1002 bies 1049 PMID 11268040 S2CID 20850885 Salt George 1968 The resistance of insect parasitoids to the defense reactions of their hosts Biological Reviews of the Cambridge Philosophical Society 43 2 200 232 doi 10 1111 j 1469 185x 1968 tb00959 x PMID 4869949 S2CID 21251615 Summers M D Dib Hajj 1995 Polydnavirus facilitated endoparasite protection against host immune defenses PNAS 92 1 29 36 Bibcode 1995PNAS 92 29S doi 10 1073 pnas 92 1 29 PMC 42812 PMID 7816835 Kessler Andre Baldwin Ian T 2002 Plant Responses to Insect Herbivory The Emerging Molecular Analysis Annual Review of Plant Biology 53 299 328 doi 10 1146 annurev arplant 53 100301 135207 PMID 12221978 a b Midwest Biological Control News Department of Entomology at the University of Wisconsin Madison Wuellner C T et al 2002 Phorid Fly Diptera Phoridae Oviposition Behavior and Fire Ant Hymenoptera Formicidae Reaction to Attack Differ According to Phorid Species Annals of the Entomological Society of America 95 2 257 266 doi 10 1603 0013 8746 2002 095 0257 pfdpob 2 0 co 2 Feener Donald H Jr Jacobs Lucia F Schmidt Justin O January 1996 Specialized parasitoid attracted to a pheromone of ants Animal Behaviour 51 1 61 66 doi 10 1006 anbe 1996 0005 ISSN 0003 3472 S2CID 16627717 Kohler U Lakes Harlan R October 2001 Auditory behaviour of a parasitoid fly Emblemasoma auditrix Sarcophagidae Diptera J Comp Physiol A 187 8 581 587 doi 10 1007 s003590100230 PMID 11763956 S2CID 23343345 Whiting M F 2003 Strepsiptera In Resh V H Carde R T eds Encyclopedia of Insects Academic Press pp 1094 1096 ISBN 9780125869904 Falin Z H 2002 102 Ripiphoridae Gemminger and Harold 1870 1853 In Arnett R H Jr Thomas M C Skelley P E Frank J H eds American beetles Volume 2 Polyphaga Scarabaeoidea through Curculionoidea CRC Press pp 431 444 doi 10 1201 9781420041231 ch6 inactive 1 February 2024 ISBN 978 0 8493 0954 0 a href Template Cite book html title Template Cite book cite book a CS1 maint DOI inactive as of February 2024 link Lawrence J F Falin Z H Slipinski A 2010 Ripiphoridae Gemminger and Harold 1870 Gerstaecker 1855 In Leschen R A B Beutel R G Lawrence J F eds Coleoptera beetles Volume 2 Morphology and systematics Elateroidea Bostrichiformia Cucujiformia partim New York Walter de Gruyter pp 538 548 doi 10 1515 9783110911213 538 ISBN 978 3 11 019075 5 Yamamoto Shuhei Maruyama Munetoshi 2016 Revision of the subgenus Aleochara Gravenhorst of the parasitoid rove beetle genus Aleochara Gravenhorst of Japan Coleoptera Staphylinidae Aleocharinae Zootaxa 4101 1 1 68 doi 10 11646 zootaxa 4101 1 1 PMID 27394607 Godfray H C J 1994 Parasitoids Behavioral and Evolutionary Ecology Princeton University Press p 40 ISBN 978 0 691 00047 3 Pierce Naomi E 1995 Predatory and Parasitic Lepidoptera Carnivores Living on Plants PDF Journal of the Lepidopterists Society 49 4 412 453 Wells Alice 2005 Parasitism by hydroptilid caddisflies Trichoptera and seven new species of Hydroptilidae from northern Queensland Australian Journal of Entomology 44 4 385 391 doi 10 1111 j 1440 6055 2005 00492 x Qu Shuai Ling Li Su Su Li Dong Zhao Pei Ji 24 July 2022 Metabolites and Their Bioactivities from the Genus Cordyceps Microorganisms 10 8 1489 doi 10 3390 microorganisms10081489 ISSN 2076 2607 PMC 9330831 PMID 35893547 Evans Harry C Elliot Simon L Hughes David P 1 September 2011 Ophiocordyceps unilateralis A keystone species for unraveling ecosystem functioning and biodiversity of fungi in tropical forests Communicative amp Integrative Biology 4 5 598 602 doi 10 4161 cib 16721 PMC 3204140 PMID 22046474 Hughes David P Andersen Sandra B Hywel Jones Nigel L Himaman Winanda Billen Johan Boomsma Jacobus J 2011 Behavioral mechanisms and morphological symptoms of zombie ants dying from fungal infection BMC Ecology 11 1 13 doi 10 1186 1472 6785 11 13 ISSN 1472 6785 PMC 3118224 PMID 21554670 Sheldrake Merlin 2021 Entangled Life Vintage pp 107 119 ISBN 9781784708276 Pontoppidan Maj Britt Himaman Winanda Hywel Jones Nigel L Boomsma Jacobus J Hughes David P 12 March 2009 Dornhaus Anna ed Graveyards on the Move The Spatio Temporal Distribution of Dead Ophiocordyceps Infected Ants PLOS ONE 4 3 e4835 doi 10 1371 journal pone 0004835 ISSN 1932 6203 PMC 2652714 PMID 19279680 Pontoppidan Maj Britt Himaman Winanda Hywel Jones Nigel L Boomsma Jacobus J Hughes David P 12 March 2009 Dornhaus Anna ed Graveyards on the Move The Spatio Temporal Distribution of Dead Ophiocordyceps Infected Ants PLOS ONE 4 3 e4835 doi 10 1371 journal pone 0004835 ISSN 1932 6203 PMC 2652714 PMID 19279680 Zhang Yongjie Li Erwei Wang Chengshu Li Yuling Liu Xingzhong 1 March 2012 Ophiocordyceps sinensis the flagship fungus of China terminology life strategy and ecology Mycology 3 1 2 10 doi 10 1080 21501203 2011 654354 inactive 31 January 2024 ISSN 2150 1203 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint DOI inactive as of January 2024 link Bale J S van Lenteren J C Bigler F February 2008 Biological control and sustainable food production Philosophical Transactions of the Royal Society B Biological Sciences The Royal Society 363 1492 761 776 doi 10 1098 rstb 2007 2182 PMC 2610108 PMID 17827110 Legner Erich F Economic Gains amp Analysis Of Successes In Biological Pest Control University of California Riverside Archived from the original on 23 June 2008 Retrieved 13 February 2018 Parasitoid Wasps Hymenoptera University of Maryland Archived from the original on 27 August 2016 Retrieved 6 June 2016 Smith S M 1996 Biological control with Trichogramma advances successes and potential of their use Annual Review of Entomology 41 375 406 doi 10 1146 annurev en 41 010196 002111 PMID 15012334 Wajnberg E Hassan S A 1994 Biological Control with Egg Parasitoids CABI Publishing Todd Kim 2011 Maria Sibylla Merian 1647 1717 an early investigator of parasitoids and phenotypic plasticity Terrestrial Arthropod Reviews 4 2 131 144 doi 10 1163 187498311X567794 On the Origin of Species Chapter 7 page 218 Letter 2814 Darwin C R to Gray Asa 22 May 1860 Retrieved 5 April 2011 Prothero Donald R 2017 Evolution What the Fossils Say and Why It Matters Columbia University Press pp 84 86 ISBN 978 0 231 54316 3 Budanovic Nikola 10 March 2018 An explanation emerges for how the 12th century Paisley Abbey in Scotland could feature a gargoyle out of the film Alien The Vintage News Retrieved 17 June 2018 Alien gargoyle on ancient Paisley Abbey British Broadcasting Corporation 23 August 2013 Retrieved 17 June 2018 a b Moisseeff Marika 23 January 2014 Aliens as an Invasive Reproductive Power in Science Fiction Polis Sofia pp 239 257 a href Template Cite book html title Template Cite book cite book a website ignored help Pappas Stephanie 29 May 2012 5 Alien Parasites and Their Real World Counterparts Live Science Williams Robyn Field Scott 27 September 1997 Behaviour Evolutionary Games and Aliens Australian Broadcasting Corporation Retrieved 30 November 2017 The Making of Alien s Chestburster Scene The Guardian 13 October 2009 Archived from the original on 30 April 2010 Retrieved 29 May 2010 a b Sercel Alex 19 May 2017 Parasitism in the Alien Movies Signal to Noise Magazine Dove Alistair 9 May 2011 This is clearly an important species we re dealing with Deep Sea News Parasitism and Symbiosis The Encyclopedia of Science Fiction 10 January 2016 Retrieved from https en wikipedia org w index php title Parasitoid amp oldid 1201986991, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.