Harpagoxenus sublaevis

Last updated

Harpagoxenus sublaevis
Harpagoxenus sublaevis casent0178588 profile 1.jpg
Harpagoxenus sublaevis worker
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Formicidae
Subfamily: Myrmicinae
Genus: Harpagoxenus
Species:
H. sublaevis
Binomial name
Harpagoxenus sublaevis
Nylander, 1849

Harpagoxenus sublaevis is a species of ant in the subfamily Myrmicinae. It is found in Austria, France, Germany, Italy, and Switzerland. [1]

Contents

Range and habitat

Harpagoxenus sublaevis is found in European mountain ranges up to 2400 meters. It can be found in the following regions: Russia, Italy, Norway, Germany, Denmark, Albania, Turkey, Romania, and Bulgaria. [2] The ant predominantly lives in bogs, forests, and mountain slopes. These habitats suit it since it builds its nests in rotting logs and stumps, underneath bark, and under rocks. [ citation needed ]

Morphology

Harpagoxenus sublaevis is a yellow to brown ant that has different morphs within the species depending on their role in the colony. Queens are larger and do the majority of reproduction for the colony. [3] The queen creates sister workers who are highly related to one another and can themselves be fertile. The workers may be winged or not winged. Workers will also vary in size depending on nutrient availability and even what their host species is. [4] The host species is also slightly altered in their morphology in that the host females are never fertile. [3] Workers can vary in size, ocelli and thoracic structure, as well as reproductive ability. [4]

Reproduction

Harpagoxenus sublaevis, like many ant species, is female dominant. The queen produces workers who are predominantly female. [5] This is backed up by the enforcing of monogyny within the colonies through aggression in females. [5] In these colonies the females form a sexual dominance hierarchy based on aggressive behavior. The vast majority of females will not mate and many will not even be fertile. In both queen-right and queen-less colonies their may be a few non-queen females who are able to lay eggs. However, it has been shown that in colonies with a queen the queen does inhibit fertilization and egg laying in other females. [5] In most cases the females stop other females from laying eggs with aggression. [5] When females are fertilized, eggs are laid anywhere from 8–47 days later. [6]

Harpagoxenus sublaevis also exhibits interesting mating behavior. When ready to mate, females will exit the nest and climb nearby vegetation such as some grass or a twig and stay there with their gaster erect. [7] The ants then produce a sexual pheromone, which is used to attract males and entice them to mate. This behavior occurs during the summer when it is hot and dry outside and in the evening. The females will remain in their position calling for a mate until mated or until it is dark. Once it is dark they disappear until the next day when they return to calling for a mate. [ citation needed ]

Colonies

Harpagoxenus sublaevis colonies are believed to have a lifetime of about ten years. [6] To establish new colonies, a fertilized queen will penetrate a host colony within ten days after mating. [6] Next the queen will kill the host queen and use pheromones to help take over. The queen then lays her egg which are propagated by the first slaves. H. sublaevis is parasitic towards a genus of ant called Leptothorax. [8] Two main species are parasitized: L. acervorum and L. muscorum , and there does not appear to be a preference in host between these two species. They can even be found in the same colony as each other, and can engage in highly aggressive behavior. [9]

Slave raids

Slave raids occur largely during the same time of year as the sexual calling from female H. sublaevis happens. [7] Since hosts are never fertile, and thus do not reproduce, all slaves must be stolen as larvae or pupae. [3] These raids are very violent and destructive and cause the host species' colony to suffer a significant reduction in life expectancy. [10] The main tool used by H. sublaevis to facilitate raids is a chemical they excrete from their cuticle during colony establishment and slave raids which alters the behavior of the host species. The chemical causes the host to fight each other with extreme aggression, in most cases killing each other. This has also been shown to instead cause the host to flee which helps the population survive the raid. However, their larvae and pupae are still stolen to be used as slaves by H. sublaevis. [ citation needed ]

Subspecies

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.

<span class="mw-page-title-main">Ant colony</span> Underground lair where ants live, eat, and tend eggs

An ant colony is a population of a single ant species able to maintain its complete lifecycle. Ant colonies are eusocial, communal, and efficiently organized and are very much like those found in other social Hymenoptera, though the various groups of these developed sociality independently through convergent evolution. The typical colony consists of one or more egg-laying queens, numerous sterile females and, seasonally, many winged sexual males and females. In order to establish new colonies, ants undertake flights that occur at species-characteristic times of the day. Swarms of the winged sexuals depart the nest in search of other nests. The males die shortly thereafter, along with most of the females. A small percentage of the females survive to initiate new nests.

<span class="mw-page-title-main">Pharaoh ant</span> Species of ant

The pharaoh ant is a small (2 mm) yellow or light brown, almost transparent ant notorious for being a major indoor nuisance pest, especially in hospitals. A cryptogenic species, it has now been introduced to virtually every area of the world, including Europe, the Americas, Australasia and Southeast Asia. It is a major pest in the United States, Australia, and Europe.

<span class="mw-page-title-main">Army ant</span> Name used for several ant species

The name army ant (or legionary ant or marabunta) is applied to over 200 ant species in different lineages. Because of their aggressive predatory foraging groups, known as "raids", a huge number of ants forage simultaneously over a limited area.

<i>Apis florea</i> Species of bee

The dwarf honey bee, Apis florea, is one of two species of small, wild honey bees of southern and southeastern Asia. It has a much wider distribution than its sister species, Apis andreniformis. First identified in the late 18th century, Apis florea is unique for its morphology, foraging behavior and defensive mechanisms like making a piping noise. Apis florea have open nests and small colonies, which makes them more susceptible to predation than cavity nesters with large numbers of defensive workers. These honey bees are important pollinators and therefore commodified in countries like Cambodia.

<i>Lasioglossum malachurum</i> Species of bee

Lasioglossum malachurum, the sharp-collared furrow bee, is a small European halictid bee. This species is obligately eusocial, with queens and workers, though the differences between the castes are not nearly as extreme as in honey bees. Early taxonomists mistakenly assigned the worker females to a different species from the queens. They are small, shiny, mostly black bees with off-white hair bands at the bases of the abdominal segments. L. malachurum is one of the more extensively studied species in the genus Lasioglossum, also known as sweat bees. Researchers have discovered that the eusocial behavior in colonies of L. malachurum varies significantly dependent upon the region of Europe in which each colony is located.

<span class="mw-page-title-main">Gyne</span> Primary reproductive female castes of insects, also known as queens

The gyne is the primary reproductive female caste of social insects. Gynes are those destined to become queens, whereas female workers are typically barren and cannot become queens. Having a queen is what makes a "queenright" hive, nest, or colony of eusocial insects. A colony with multiple queens is said to be a polygyne form, whereas one with only one is a monogyne form.

<i>Eciton burchellii</i> Species of ant

Eciton burchellii is a species of New World army ant in the genus Eciton. This species performs expansive, organized swarm raids that give it the informal name, Eciton army ant. This species displays a high degree of worker polymorphism. Sterile workers are of four discrete size-castes: minors, medias, porters (sub-majors), and soldiers (majors). Soldiers have much larger heads and specialized mandibles for defense. In lieu of underground excavated nests, colonies of E. burchellii form temporary living nests known as bivouacs, which are composed of hanging live worker bodies and which can be disassembled and relocated during colony emigrations. Eciton burchellii colonies cycle between stationary phases and nomadic phases when the colony emigrates nightly. These alternating phases of emigration frequency are governed by coinciding brood developmental stages. Group foraging efforts known as "raids" are maintained by the use of pheromones, can be 200 metres (660 ft) long, and employ up to 200,000 ants. Workers are also adept at making living structures out of their own bodies to improve efficiency of moving as a group across the forest floor while foraging or emigrating. Workers can fill "potholes" in the foraging trail with their own bodies, and can also form living bridges. Numerous antbirds prey on the Eciton burchellii by using their raids as a source of food. In terms of geographical distribution, this species is found in the Amazon jungle and Central America.

<i>Polyergus breviceps</i> Species of ant

Polyergus breviceps is a species of ant endemic to the United States. It is a social parasite of other ants, namely of Formica gnava but also of Formica occulta and Formica argentea. Polyergus is an inquiline parasite, having lost its ability to take care of its young and themselves. "The workers do not forage for food, feed the young or the queen, or even clean up their own nest". To survive, Polyergus workers raid Formica nests to steal the pupae—which, once hatched, become workers of the mixed nest. This sort of relationship is not unique, of the approximately 8,800 species of ants, at least 200 have evolved some form of symbiotic relationship with one another. What makes Polyergus special is the way a newly mated queen can, all by herself, take over a Formica nest and start a new colony.

<i>Tetramorium inquilinum</i> Species of ant

Tetramorium inquilinum is an ectoparasitic ant found in Europe. It was discovered by Swiss myrmecologist Heinrich Kutter. The species is unusual for lacking a worker caste, the queens and males living entirely off the care of the pavement ant. It has been called "the 'ultimate' parasitic ant" by myrmecologists Edward O. Wilson and Bert Hölldobler.

<i>Formica sanguinea</i> Species of ant

Formica sanguinea, or blood-red ant, is a species of facultative slave-maker ant in the genus Formica characterized by the ability to secrete formic acid. It ranges from Central and Northern Europe through Russia to Japan, China, the Korean Peninsula, Africa and also the United States. This species is coloured red and black with workers up to 7 mm long.

<span class="mw-page-title-main">Gamergate (ant)</span> Reproductively viable female worker ant

A gamergate is a mated worker ant that can reproduce sexually, i.e., lay fertilized eggs that will develop as females. In the vast majority of ant species, workers are sterile and gamergates are restricted to taxa where the workers have a functional sperm reservoir ('spermatheca'). In some species, gamergates reproduce in addition to winged queens, while in other species the queen caste has been completely replaced by gamergates. In gamergate species, all workers in a colony have similar reproductive potentials, but as a result of physical interactions, a dominance hierarchy is formed and only one or a few top-ranking workers can mate and produce eggs. Subsequently however, aggression is no longer needed as gamergates secrete chemical signals that inform the other workers of their reproductive status in the colony.

<span class="mw-page-title-main">Worker policing</span> Insects destroying eggs not laid by queen

Worker policing is a behavior seen in colonies of social hymenopterans whereby worker females eat or remove eggs that have been laid by other workers rather than those laid by a queen. Worker policing ensures that the offspring of the queen will predominate in the group. In certain species of bees, ants and wasps, workers or the queen may also act aggressively towards fertile workers. Worker policing has been suggested as a form of coercion to promote the evolution of altruistic behavior in eusocial insect societies.

<i>Formica truncorum</i> Species of ant

Formica truncorum is a species of wood ant from the genus Formica. It is distributed across a variety of locations worldwide, including central Europe and Japan. Workers can range from 3.5 to 9.0mm and are uniquely characterized by small hairs covering their entire bodies. Like all other ants, F. truncorum is eusocial and demonstrates many cooperative behaviors that are unique to its order. Colonies are either monogynous, with one queen, or polygynous, with many queens, and these two types of colonies differ in many characteristics.

<span class="mw-page-title-main">Slave-making ant</span> Species of ants that steal young ants of another species to contribute to their colony

Slave-making ants or slaver ants are brood parasites that capture broods of other ant species to increase the worker force of their colony. After emerging in the slave-maker nest, slave workers work as if they were in their own colony, while parasite workers only concentrate on replenishing the labor force from neighboring host nests, a process called slave raiding.

<i>Polyergus rufescens</i> Species of ant

Polyergus rufescens is a species of slave-making ant native to southern Europe and parts of Asia, commonly referred to as the European Amazon ant or as the slave-making ant. It is an obligatory social parasite, unable to feed itself or look after the colony and reliant on ants of another species to undertake these tasks. To replenish these servant ants, it raids nearby ant colonies and carries home pupae and larvae, and these are reared to provide future workers for the colony. A newly mated female P. rufescens needs to make its way into one of these "host" nests, kill the host queen, and be accepted by the host workers in her place.

<span class="mw-page-title-main">Ergatoid</span> Wingless reproductive ant or termite

An ergatoid is a permanently wingless reproductive adult ant or termite. The similar but somewhat ambiguous term ergatogyne refers to any intermediate form between workers and standard gynes. Ergatoid queens are distinct from other ergatogyne individuals in that they are morphologically consistent within a species and are always capable of mating, whereas inter caste individuals, another class of ergatogynes, often are not. Ergatoids can exhibit wide morphological differences between species, sometimes appearing almost identical to normal workers and other times being quite distinct from both workers and standard queens. In addition to morphological features, ergatoids among different species can exhibit a wide range of behaviors, with some ergatoids acting only as reproductives and others actively foraging. Ergatoid queens have developed among a large number of ant species, and their presence within colonies can often provide clues on the social structures of colonies and as to how new colonies are founded. Without wings, almost all species of ants that solely produce ergatoid queens establish new colonies by fission.

<i>Megalopta genalis</i> Species of bee

Megalopta genalis is a species of the family Halictidae, otherwise known as the sweat bees. The bee is native to Central and South America. Its eyes have anatomical adaptations that make them 27 times more sensitive to light than diurnal bees, giving it the ability to be nocturnal. However, its eyes are not completely different from other diurnal bees, but are still apposition compound eyes. The difference therefore lies purely in adaptations to become nocturnal, increasing the success of foraging and minimizing the danger of doing so from predation. This species has served as a model organism in studies of social behavior and night vision in bees.

This is a glossary of terms used in the descriptions of ants.

<span class="mw-page-title-main">Pleometrosis</span> Behaviour in social insects

Pleometrosis is a behavior observed in social insects where colony formation is initiated by multiple queens primarily by the same species of insect. This type of behavior has been mainly studied in ants but also occurs in wasps, bees, and termites. This behavior is of significant interest to scientists particularly in ants and termites because nest formation often happens between queens that are unrelated, ruling out the argument of inclusive fitness as the driving force of pleometrosis. Whereas in other species such as wasps and bees co-founding queens are often related. The majority of species that engage in pleometrosis after the initial stages of colony formation will reduce their colonies number of queens down to one dominant queen and either kill or push out the supernumerary queens. However there are some cases where pleometrosis-formed colonies keep multiple queens for longer than the early stages of colony growth. Multiple queens can help to speed a colony through the early stages of colony growth by producing a larger worker ant population faster which helps to out-compete other colonies in colony-dense areas. However forming colonies with multiple queens can also cause intra-colony competition between the queens possibly lowering the likelihood of survival of a queen in a pleometrotic colony.

References

  1. 1 2 Social Insects Specialist Group (1996). "Harpagoxenus sublaevis". IUCN Red List of Threatened Species . 1996: e.T9732A13012251. doi: 10.2305/IUCN.UK.1996.RLTS.T9732A13012251.en . Retrieved 17 November 2021.
  2. Antonova, Vera. "First record of the slave-maker ant Harpagoxenus sublaevis (Nylander, 1849) from Bulgaria (Hymenoptera: Formicidae)". Myrmecological News. 12: 1–2.
  3. 1 2 3 Buschinger, Alfred; Winter, Ursula (March 1978). "Echte Arbeiterinnen, fertile Arbeiterinnen und sterile Wirtsweibchen in Völkern der Dulotischen Ameise Harpagoxenus sublaevis (Nyl.) (Hym., Form.)". Insectes Sociaux. 25 (1): 63–78. doi:10.1007/bf02224486. ISSN   0020-1812.
  4. 1 2 Buschinger, Alfred; Winter, Ursula (December 1975). "Der Polymorphismus der sklavenhaltenden Ameise Harpagoxenus sublaevis (Nyl.)". Insectes Sociaux. 22 (4): 333–362. doi:10.1007/bf02224110. ISSN   0020-1812.
  5. 1 2 3 4 Bourke, A. F. G. (November 1988). "Dominance orders, worker reproduction, and queen-worker conflict in the slave-making ant Harpagoxenus sublaevis". Behavioral Ecology and Sociobiology. 23 (5): 323–333. doi:10.1007/bf00300579. ISSN   0340-5443.
  6. 1 2 3 Buschinger, Alfred (December 1974). "Experimente und beobachtungen zur gründung und Entwicklung neuer Sozietäten der sklavenhaltenden Ameise Harpagoxenus sublaevis (Nyl.)". Insectes Sociaux. 21 (4): 381–406. doi:10.1007/bf02331567. ISSN   0020-1812.
  7. 1 2 Buschinger, A. (September 1983). "Sexual behavior and slave raiding of the dulotic ant, Harpagoxenus sublaevis (Nyl.) under field conditions (Hym., Formicidae)". Insectes Sociaux. 30 (3): 235–240. doi:10.1007/bf02223981. ISSN   0020-1812.
  8. Schumann, Ralf; Buschinger, Alfred (2010-04-26). "Selective acceptance of alien host species pupae by slaves of the dulotic ant, Harpagoxenus sublaevis (Hymenoptera, Formicidae, Myrmicinae)". Ethology. 88 (2): 154–162. doi:10.1111/j.1439-0310.1991.tb00270.x. ISSN   0179-1613.
  9. Heinze, Jürgen; Ortius, Diethe; Kaib, Manfred; Hölldobler, Bert (1994). "Interspecific aggression in colonies of the slave-making ant Harpagoxenus sublaevis". Behavioral Ecology and Sociobiology. 35 (2): 75–83. doi:10.1007/BF00171496. ISSN   0340-5443. JSTOR   4600980.
  10. Bauer, Sabine; Witte, Volker; Böhm, Melanie; Foitzik, Susanne (2009-07-14). "Fight or flight? A geographic mosaic in host reaction and potency of a chemical weapon in the social parasite Harpagoxenus sublaevis". Behavioral Ecology and Sociobiology. 64 (1): 45–56. doi:10.1007/s00265-009-0817-3. ISSN   0340-5443.
  11. Bolton, B. (2015). "Harpagoxenus sublaevis caucasicus". AntCat. Retrieved 20 January 2015.