Vespula infernalis

Vespula infernalis
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Order:	Hymenoptera
Family:	Vespidae
Genus:	Vespula
Species:	V. infernalis
Binomial name
	Vespula infernalis; (Saussure, 1854)
Synonyms
	Vespa InfernalisSaussure, 1854; Vespa tripunctataPackard, 1870Contents Taxonomy and phylogeny ; Description and identification ; Distribution and habitat ; Colony cycle ; Parasitic behaviour ; Invasion ; Queen-reared worker stage ; Post-emergence colony stage ; Post-invasion: parasite and host worker interactions ; Suppression of reproduction of host workers ; Diet ; Characteristics of the venom ; Reproduction ; References ;

Last updated December 02, 2023

Vespula infernalis is an obligate parasitic wasp, parasitizing the nests of other species in the genus Vespula . Its common host species is V. acadica in North America.^[1] It is sometimes called the cuckoo yellowjacket wasp due to its inquiline lifestyle.^[2] They differ from other parasitic wasps in their intensely aggressive behaviour during invasion and occupation of the host colony.^[3] Several morphological adaptations such as bigger body parts and highly curved stingers are present in these wasps to aid their aggressive parasitic behaviour.^[4]

Once they occupy a host's nest, V. infernalis are known to engage in mauling and chasing of host workers and forced trophallaxis.^[5]^[6] Female wasps will also force host workers to feed and take care of their brood ^{[ how? ]}.^[3]

Taxonomy and phylogeny

V. infernalis is a member of the family Vespidae. It is nearly identical in appearance and biology to the Old World species V. austriaca and is considered its sister species.^[7] Until recently the Nearctic population was considered to be the same species, and appears in all of the literature before 2012 as V. austriaca,^[8] though some sources are not yet updated; see.^[2]

Description and identification

This wasp is an obligate social parasite. As a result, it possess special morphological adaptations to take over host colonies. These adaptations include larger body parts such as a larger head width than its host V. acadica. As an adaptation to its parasitic lifestyle, V. infernalis has a large, heavily curved stinger; this curving allows the parasitic wasp to puncture through the intersegmental membranes of host colony workers who are defending their nests.^[4]

The male abdomen is longer with thick lateral black bands while the female abdomen is wider with fewer lateral black bands and black dots. V. infernalis wasps have a characteristic black and yellow colouring throughout their bodies. Irregular margins and narrow yellow marks on the scape are often used to identify Vespula infernalis.^[2]

Distribution and habitat

Vespula infernalis is found in the Nearctic region, in the Boreal region of North America. The species is not considered rare and is stable throughout its range.^[2] These wasps are seen throughout all the provinces and territories of Canada and in certain states in the United States; Alaska, New Jersey, Michigan, Wisconsin, North Dakota, New Mexico, Arizona, and California.

Colony cycle

This wasp is known as a social parasite. Their life cycle depends on invading and usurping other wasps' colonies. As an obligate parasite, Vespula infernalis lacks a worker caste and cannot build their own nests or feed their own offspring.^[9]V. infernalis females will hibernate longer than their host queens, ensuring that the hosts' nests will be ready when they leave their hibernation spots.^[5]^[6]^{[ better source needed ]} After killing the host queen, the female V. infernalis tends to be aggressive towards the host workers who rear her brood.^[3]

These wasps have very short seasons with flight periods from June to mid July and August to mid September.^[6]^{[ verification needed ]}

Parasitic behaviour

V. infernalis parasitises V. acadica. Near the dorsal edge of V. infernalis mandibles, there is a fourth marginal tooth whereas the host, V. acadica has three. When researchers dissected individuals of V. infernalis, they found that they had larger, sturdier mature muscle bundles in abdominal sterna and tergum than the muscles in a queen of V. acadica. As a result, it was more difficult to dissect V. infernalis.

Nests of V. acadica were found to be smaller than normal due to the parasitism of V. infernalis.^[3]

Invasion

Queen-reared worker stage

When a female V. infernalis invades a host's nest such as V. acadica during the queen-reared worker stage, the usurpation can be divided into two phases. The first phase is preusurpation. During this phase, interactions between the intruder and the host queen could be relatively calm and civil or aggressive. The queen may ignore the intruder and refrain from firing an attack first. The workers exhibit the same behavior as their queen. If the intruder attacks first by mauling or attempting to sting a worker, interactions between the queen and intruder become intense. The parasite, if successful, will use its stinger to paralyze the head, thorax, and legs of the host queen. The queen-reared worker stage is when the nest is at its most vulnerable, thus it is when most invasions take place. The nest is more susceptible to invasion at this time because both the queen and workers are less defensive.^[5]

Post-emergence colony stage

During this stage, the colony is larger. In one experiment, a V. infernalis female was allowed to invade a Vespula atropilosa colony. Different from the queen reared worker stage, the workers in this stage were much more defensive; more aggression was observed in the form of stinging, mauling and chasing. The parasite displays more aggression than the host's queen. During a fight between the parasite and the queen, the parasite will do anything to harm or gain a better position by using her mandibles and stinger. Injuries to the queen include but are not limited to broken antennae and injured fore and hind-leg.^{[ when? ]}^{[ citation needed ]} The host queen refrained from using her mandibles ^{[ when? ]} whereas the workers were quick to use theirs in defense.^[5]

Post-invasion: parasite and host worker interactions

V. infernalis are very hostile and aggressive in invading and killing or driving away the host queen. Once the invasion of a host nest is successful, V. infernalis will take over the nest, inspecting and patrolling the cells. The host workers will initially avoid the parasite and often ignore any colony duties. In response, the parasite will maul and chase the workers. While there is still tension, the inquiline typically does not sting the workers and does not engage in egg eating (oophagy). An evolutionarily favorable strategy would be to kill older workers of the host colony first and leave the younger workers behind to take care of the brood. During this period, a female will assert her dominance over the younger workers.^[5]

This display of dominance by the parasite over the host workers is more common during early colony occupations and absent later on. The parasite displays mauling behaviour: it grabs the workers with its legs and chews on their dorsums. Furthermore, the parasite also displays mauling behaviour after trophallaxis, which it initiates by soliciting and chasing a worker. V. infernalis rarely forage, build cells, or feed larvae, nor do they help thermoregulate (workers fan during hot temperatures or adopt warming postures during low temperatures). Furthermore, even when a nest is attacked by enemies, the parasite will remain inside the nest rather than help the workers defend it.^[9]

Suppression of reproduction of host workers

Several signs indicate that V. infernalis repress the reproduction of host workers. During gastral dragging (dragging of abdomen across comb), substances that prevent oogenesis in workers are released from the Dufour's gland of the parasite, effectively bringing a halt to reproduction. There is no worker oviposition in nests of V. acadica parasitised by V. infernalis. Normally if workers were ovipositing then there would be higher levels of aggression between them, but mauling behavior tends to be reduced instead. The frequent aggressive and assertive behaviours of the parasites aid in asserting reproductive monopoly. Another indication is that parasites are observed to patrol cells frequently, defending oviposition sites. ^[9]

Diet

While other wasp queens depend on secretions from larvae for food, V. infernalis obtain their nourishment in the liquid form through solicitations and trophallaxis of host workers. They rarely solicit larvae for nourishment. The parasites will often use force to obtain what they need. During forced feeding, the parasite will grab the host worker using its forelegs to reel in the worker. More forceful behaviour includes pushing the host worker against a comb of the nest. While some parasitic behaviour such as mauling only occurs during early post-invasion stages, forced trophallaxis behaviour occurs throughout. Towards the later stages, the intensity of forced feeding declined, leading to host workers escaping forced encounters. Usually forced trophallaxis encounters were short, lasting from 1 to 5 seconds, but some encounters lasted for as long as 43 seconds.^[9]

Characteristics of the venom

Due to the parasitic lifestyle of V. infernalis, the sting is a vital apparatus. It consists of the shaft, aculeus, Dufour's gland, and the venom glands. The Dufour's gland and venom reservoirs are the biggest among V. infernalis females. In an experiment where the oily venom extracted from V. infernalis was injected into Vespula pensylvanica workers, the Lethal Dose (LD50) value was between 20 and 30 mg/kg. V. pensylvanica queens had a higher tolerance to V. infernalis venom than workers (LD50=81 mg/kg). On average, it took 18.6 μg of venom to kill about half of the queens and 2–3 μg of venom to kill half the workers. The venom has the ability to paralyze and impair activities such as flying. Material obtained from the Dufour's gland was also injected into V. pensylvanica wasps; no significant effects were observed, indicating the gland does not contain a poison. Generally, in order to kill a host worker, a V. infernalis has to use about a third of its venom supply. More venom is needed to kill a queen. Surprisingly, given that their survival and success as parasites depend upon it, V. infernalis venom is no more lethal than the venom from V. atropilosa and V. pensylvanica.^[1]

Reproduction

In preusurpation V. infernalis individuals, Dufour's gland contains clear oily material. It is part of the reproductive organs along with the ovaries and a poison gland. In new fall wasps, the Dufour's gland was empty and flat and in older wasps, the gland had a little oil but was flat as well. Hypertrophy of the Dufour's gland is known to occur but more evidence is needed.^{[ contradictory ]}^[4] During and after the mauling period, female V. infernalis will oviposit. This time period is brief. The females insert eggs in new cell combs. Workers act no differently during period of oviposition. However, one instance of a worker interrupting the oviposition of the parasite was recorded, which led to mauling of the worker by the parasite and the egg falling out of the designated cell. Eggs laid by V. infernalis are not only found in cells but also found on the cell wall, exterior of the comb, between cells, or along the caps.^[9]

Related Research Articles

<span class="mw-page-title-main">Trophallaxis</span> Transfer of food between members of a community through stomodeal or proctodeal means

Trophallaxis is the transfer of food or other fluids among members of a community through mouth-to-mouth (stomodeal) or anus-to-mouth (proctodeal) feeding. Along with nutrients, trophallaxis can involve the transfer of molecules such as pheromones, organisms such as symbionts, and information to serve as a form of communication. Trophallaxis is used by some birds, gray wolves, vampire bats, and is most highly developed in eusocial insects such as ants, wasps, bees, and termites.

Yellowjacket or yellow jacket is the common name in North America for predatory social wasps of the genera Vespula and Dolichovespula. Members of these genera are known simply as "wasps" in other English-speaking countries. Most of these are black and yellow like the eastern yellowjacket and the aerial yellowjacket ; some are black and white like the bald-faced hornet. Some have an abdomen with a red background color instead of black. They can be identified by their distinctive markings, their occurrence only in colonies, and a characteristic, rapid, side-to-side flight pattern prior to landing. All females are capable of stinging. Yellowjackets are important predators of pest insects.

Vespula is a small genus of social wasps, widely distributed in the Northern Hemisphere. Along with members of their sister genus Dolichovespula, they are collectively known by the common name yellowjackets in North America. Vespula species have a shorter oculomalar space and a more pronounced tendency to nest underground than Dolichovespula.

Paper wasps are vespid wasps that gather fibers from dead wood and plant stems, which they mix with saliva, and use to construct nests made of gray or brown papery material. Some types of paper wasps are also sometimes called umbrella wasps, due to the distinctive design of their nests.

Vespula vulgaris, known as the Common wasp, is a species found in regions that include the United Kingdom, Ireland, Germany, India, China, New Zealand and Australia. It is sometimes known in English as the European wasp, but the same name is used for the species Vespula germanica or German wasp. In 2010, the ostensible Vespula vulgaris wasps in North America were found to be a different species, Vespula alascensis.

An obligate parasite or holoparasite is a parasitic organism that cannot complete its life-cycle without exploiting a suitable host. If an obligate parasite cannot obtain a host it will fail to reproduce. This is opposed to a facultative parasite, which can act as a parasite but does not rely on its host to continue its life-cycle. Obligate parasites have evolved a variety of parasitic strategies to exploit their hosts. Holoparasites and some hemiparasites are obligate.

Vespula pensylvanica, the western yellowjacket, is a Nearctic species of wasp in the genus Vespula. It is native to regions of North America, largely in areas with northern temperate climates. Its reproductive behavior is constrained by cold weather, which successfully reduces the number of western yellowjackets in cold months. However, in the absence of cold weather, this wasp's population can explode. The western yellowjacket has become particularly invasive in the Hawaiian Islands, resulting in their label as a major pest.

The eastern yellow jacket or eastern yellowjacket is a wasp found in eastern North America. Although most of their nests are subterranean, they are often considered a pest due to their nesting in recreational areas and buildings. This yellow jacket is a social insect, living in colonies of hundreds to thousands of individuals. Along with their subfamily, Vespinae, this species demonstrates supportive parental care for offspring, separation of reproductive and sterile castes, and overlapping generations. They aggressively defend their hives from threats and are known to inflict painful stings.

Polistes metricus is a wasp native to North America. In the United States, it ranges throughout the southern Midwest, the South, and as far northeast as New York, but has recently been spotted in southwest Ontario. A single female specimen has also been reported from Dryden, Maine. Polistes metricus is dark colored, with yellow tarsi and black tibia. Nests of Polistes metricus can be found attached to the sides of buildings, trees, and shrubbery.

Dolichovespula saxonica, also known as the Saxon wasp, is a common social wasp found in the Palearctic region, specifically in large parts of Europe and in northern and central Asia. Although originally from continental Europe, D. saxonica has since colonised Britain, mainly in the south and east, but has been recorded as far north as East Lothian, Scotland. Most of their nests are above ground in trees and bushes, but they can also be found in buildings. Due to the proliferation of nests in urban areas and near residential homes, D. saxonica can be a pest for people. As a result, many human interventions are in place to remove Saxon nests. D. saxonica has been found to use chemical signaling in a lot of behaviours, such as alarm calls, fertility cues, and chemical trails.

Dolichovespula adulterina is a species of parasitic social wasp found in the Palearctic region. D. adulterina feeds on a variety of foods, including insects, spiders, arthropods, meat, molluscs, fruit, nectar, and larval secretions. D. adulterina was formerly considered to be synonymous with D. arctica from the Holarctic region, but more recent research indicates that D. arctica is a separate species.

Vespula rufa, commonly known as the red wasp, is a social wasp species belonging to the genus Vespula. It is found in northern and central Europe, parts of Asia, and northern parts of North America. Vespula rufa is characterised by red-brown markings and body segmentation, with the appearance varying amongst the different roles of individuals in the species. These wasps build small nests in dry banks underground that are not far below the surface. The colony cycle begins in the fall. Vespula rufa feed on live insects. One interesting fact about Vespula rufa is that the queen policing occurs in the species, and that worker policing occurs at much lower rates than other species in the genus Vespula. There are predators and parasites of the species. The species goes through a series of events before leaving the nest.

Vespula austriaca is an obligate parasitic wasp, parasitizing the nests of other species in the genus Vespula in the Old World. Its common host species include V. rufa in Europe, Japan, and East Siberia.V. austriaca wasps pollinate orchids.

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References

1 2 Schmidt, J.O; Reed, H.C; Akre, R.D (1984). "Venoms of a Parasitic and Two Nonparasitic Species of Yellowjackets (Hymenoptera: Vespidae)". Journal of the Kansas Entomological Society. 57 (2): 316–322. JSTOR 25084514.
1 2 3 4 "Vespula infernalis". Discover Life. The Polistes Corporation. Retrieved 23 June 2020.
1 2 3 4 Reed, Hal .C.; Akre, Roger. D.; Garnett, W.B. (April 1979). "A North american Host Of The Yellowjacket Social Parasite Vespula austriaca (Panzer) (Hymenoptera: Vespidae)". Entomological News. 90 (2): 110–113. https://biostor.org/reference/77297.
1 2 3 Reed, H.C; Akre, R.D (1982). "Morphological Comparisons Between the Obligate Social Parasite, Vespula austriaca (Panzer), and its Host, Vespula acadica (Sladen) (Hymenoptera: Vespidae)". Psyche: A Journal of Entomology. 89 (1–2): 183–195. doi: 10.1155/1982/52306 .
1 2 3 4 5 Reed, Hal C.; Akre, Roger D. (October 1983). "Usurpation Behavior of the Yellowjacket Social Parasite, Vespula austriaca (Panzer) (Hymenoptera: Vespidae)". American Midland Naturalist. 110 (2): 419. doi:10.2307/2425281. JSTOR 2425281.
1 2 3 Edwards, Robin (1980). Social Wasps Their Biology and Control. East Grinstead: Rentokil Limited. ISBN 0-90656401-8.
↑ Lynn S. Kimsey; James M. Carpenter (2012). "The Vespinae of North America (Vespidae, Hymenoptera)". Journal of Hymenoptera Research. 28: 37–65. doi: 10.3897/jhr.28.3514 .
↑ BugGuide - V. infernalis
1 2 3 4 5 Reed, H. C.; Akre, R. D. (September 1983). "Colony behavior of the obligate social parasiteVespula austriaca (Panzer) (Hymenoptera: Vespidae)". Insectes Sociaux. 30 (3): 259–273. doi:10.1007/BF02223984. S2CID 29667161.

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[venom-1] 1 2 Schmidt, J.O; Reed, H.C; Akre, R.D (1984). "Venoms of a Parasitic and Two Nonparasitic Species of Yellowjackets (Hymenoptera: Vespidae)". Journal of the Kansas Entomological Society. 57 (2): 316–322. JSTOR 25084514.

[Discover_Life-2] 1 2 3 4 "Vespula infernalis". Discover Life. The Polistes Corporation. Retrieved 23 June 2020.

[Reed,_Akre,_Garnett-3] 1 2 3 4 Reed, Hal .C.; Akre, Roger. D.; Garnett, W.B. (April 1979). "A North american Host Of The Yellowjacket Social Parasite Vespula austriaca (Panzer) (Hymenoptera: Vespidae)". Entomological News. 90 (2): 110–113. https://biostor.org/reference/77297.

[morphological-4] 1 2 3 Reed, H.C; Akre, R.D (1982). "Morphological Comparisons Between the Obligate Social Parasite, Vespula austriaca (Panzer), and its Host, Vespula acadica (Sladen) (Hymenoptera: Vespidae)". Psyche: A Journal of Entomology. 89 (1–2): 183–195. doi: 10.1155/1982/52306 .

[Usurpation_behavior-5] 1 2 3 4 5 Reed, Hal C.; Akre, Roger D. (October 1983). "Usurpation Behavior of the Yellowjacket Social Parasite, Vespula austriaca (Panzer) (Hymenoptera: Vespidae)". American Midland Naturalist. 110 (2): 419. doi:10.2307/2425281. JSTOR 2425281.

[Edwards-6] 1 2 3 Edwards, Robin (1980). Social Wasps Their Biology and Control. East Grinstead: Rentokil Limited. ISBN 0-90656401-8.

[Kimsey_&_Carpenter-7] Lynn S. Kimsey; James M. Carpenter (2012). "The Vespinae of North America (Vespidae, Hymenoptera)". Journal of Hymenoptera Research. 28: 37–65. doi: 10.3897/jhr.28.3514 .

[8] BugGuide - V. infernalis

[Colony_Behavior-9] 1 2 3 4 5 Reed, H. C.; Akre, R. D. (September 1983). "Colony behavior of the obligate social parasiteVespula austriaca (Panzer) (Hymenoptera: Vespidae)". Insectes Sociaux. 30 (3): 259–273. doi:10.1007/BF02223984. S2CID 29667161.

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