Myrmecocystus mexicanus

Myrmecocystus mexicanus
M. mexicanus worker
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Formicidae
Subfamily: Formicinae
Tribe: Lasiini
Genus: Myrmecocystus
Species: M. mexicanus
Binomial name
Myrmecocystus mexicanus
Wesmael, 1838

Myrmecocystus mexicanus is a species of ant in the genus Myrmecocystus, which is one of the six genera that bear the common name "honey ant" or "honeypot ant", due to curious behavior where some of the workers will swell with liquid food until they become immobile and hang from the ceilings of nest chambers, acting as living food storage for the colony. Honey ants are found in North America, Australia, and Africa. Ant species belonging to the Myrmecocystus genus reside in North America. M. mexicanus in particular is found in the southwestern United States and parts of Mexico.[1]

Description

Head view of an M. mexicanus worker

Workers range from 3–7 mm in length and have a light tan thorax, legs and slightly darker head with black mandibles. The gaster is brownish-gray. Queens are roughly 9 mm in length. The head and mandibles are a reddish brown. The thorax is yellowish brown, and the gaster is a lighter shade of yellow. The legs are a dull yellow. Males are typically about 6 mm long and have a small black head and black thorax, except a reddish brown pronotum. The gaster is a dark brown, and the legs are gray. Males are winged.[2]

Eusociality

M. mexicanus like many ant, wasps and bees, is a eusocial insect species. Eusocial insects are characterized by distinct caste systems, where some individuals breed and most individuals are sterile helpers, and overlapping generations so mother, adult offspring and immature offspring are all living at the same time. In a eusocial colony, an individual is assigned a specialized caste before they become reproductively mature, which makes them behaviorally (and sometimes physiologically) distinct from other castes.[3] The honey pot ants exhibit all of these characteristics within a colony: a queen and males make up the reproductive caste, and the rest of the individuals are sterile female workers.

Colony life cycle

Among other ant species, in degraded grassland in southern Arizona, the M. mexicanus colonies average a life span of 8.9 years and have a maximum life span of 23 years.[4]

Reproduction

Only two castes in the colony reproduce, the queens and the males. Workers are sterile and tend to the queen and brood. Mating occurs during nuptial flights, where winged queens and males swarm outside the nest.[1]

Prenuptial activity

The reproductives (winged queens and males) emerge from preexisting nests several days prior to nuptial flights, and are encouraged back into the nest by workers. Some reproductives die after not returning to their nest. Hours before the nuptial flight, queens, males and workers emerge from the nest and swarm around the entrance hole. Workers will even nip at queens on the ground to encourage them to take flight.[5]

Nuptial flights

To mate, M. mexicanus winged queens and males emerge from an existing colony and swarm in nuptial flights. These flights occur in late July in the evening, typically at about the same time of day when the colony workers begin foraging. The flights usually occur the day after a rain. A normal nuptial flight lasts about an hour and half. After the flight, unmated queens and males return to the nest. The fact that some queens and males return from these flights unmated suggests that aerial union is difficult. The mated queens lose their wings, and the mated males die.[6]

Colony founding and development

After mating, a queen digs a nest chamber. About two days after her flight, she seals the nest chamber.[1] Conway found that many mated queens after digging and sealing nest chambers did not reappear later on, which could indicate a high mortality rate among newly mated queens.[7] Around five days after the flight, the queen lays eggs in clusters of 5–10. The larvae hatch around 20 days, and begin pupating in cocoons around 10 days after that. Adult workers emerge around 63 days after eggs are laid. Larvae are fed and cared for by the queen and workers. It is believed that the larvae may even be fed eggs and dead workers.[8] The workers in the first brood tend to be smaller than workers in subsequent broods, which is believed to be an adaptation to promote rapid population growth. The average worker lives from 11 to 170 days.[9]

Population structure

Ant colonies consist of a queen mother and her offspring, a majority of which are sterile female workers. These workers gather food, tend to the brood and defend the colony, while the queens' main responsibility is to continue laying eggs.[10] Conway surveyed sixty six M. mexicanus nest colonies located near Garden of the Gods, Colorado Springs, CO. He found that a typical nest consisted of about 5,000 ants. Typically, about 75% to 78% of the total population consisted of workers. About 22 -25% of the colony population consisted of replete workers.[11] In preparation for nuptial flights, nests produce a large number of reproductives. 100-110 males were found in one nest, and 209 queens were found in another.[1]

Replete Workers

Role within the colony

The name honeypot ant comes from the peculiar development of replete workers, whose abdomens become so swollen with food that they are used by the rest of the colony as living food storage. They are "drained" during famine, usually the wintertime, to sustain the colony.[12] This behavior is an example of the caste system within ants and other eusocial insects. Repletes are a subset of the sterile "helper" caste.[3]

Development

In M. mexicanus, replete workers develop from the largest workers in the colony. In fact, if the repletes are removed from a colony, the next largest workers quickly become repletes.[13] Typical workers and callows can develop into repletes in about two weeks. Other workers feed the developing repletes with plant nectar collected in the evenings. The repletes become so swollen that they become immobile, and hang from the ceilings of dome chambers in the underground nest.[14]

Morphology

When a replete worker fills with food, her crop, or portion of her digestive tract, swells and displaces other abdominal organs.[12] The crop of replete workers expands about four to five times its normal linear dimension when they are fully engorged with food."[15] In M. mexicanus, the size of a replete worker’s abdomen ranges from 6–12 mm in length.[16] As repletes are drained of their food stores, they become "flaccid depletes".[14]

M. mexicanus repletes also vary in the content of their "honey" or food they carry. They can be classified according to the colors of their distended abdomens: dark amber, amber, milky and clear. Each color is thought to correspond with a particular food source. Dark amber and amber repletes contain sugars such as glucose and fructose, mostly likely from the nectar of flowers. Milky repletes contain large amounts of protein and oils, believed to be from insect prey. Clear repletes contain mostly water and sucrose (sugar), so they are thought to act as water storage for the arid climate.[17] Burgett & Young (1974) found that a small percentage of repletes had two visible layers of liquid in their crops– one consisting of sugars, and the other of lipids, glycerol and cholesterol esters.[18]

Foraging

Food sources

M. mexicanus collects food mainly in the form of nectar from yucca plants (Yucca glauca) and sugary galls formed on scrub oaks (Quercus gambelii). The gall wasp (Holcaspis perniciosus) forms the galls (rotund growths) along scrub oak branches, and these galls leak a clear sugary liquid which the ants feed on. Additionally, these ants feed on a variety of flower nectars, cacti fruit, and the excretions of aphids feeding on yucca plants. Workers will also collect dead insects and attack small, soft bodied insects.[19] In particular, M. mexicanus tends to feed on dead and moribund harvester ants (Pogonomyrmex occidentalis).[20]

Foraging behavior

As worker forage, their abdomens become clear and distended, similar to replete workers. When they return to the nest, they regurgitate their collected nectar into replete workers for storage. March through November is the typical foraging time for M. mexicanus. The summer months are when most nectar is collected. The ants forage in cooler temperatures ranging from 0.5 to 30 °C (32.9 to 86.0 °F) and mainly during the night. The lower temperature preference is most likely an adaptation to allow for nocturnal foraging in desert climates.[19]

Workers forage up to 20 meters (66 feet) away from the entrance of their nest. They exhibit both radial and path foraging patterns. Radial foraging (when the ants spread out radially from the nest entrance) happens mainly early in the season, when the ants are searching for nectar sources. Path foraging (when the ants follow frequently traveled paths) occurs later in the season once paths to nectar sources have been established.[19]

Interference

Other species of ants such as Conomyrma biocolor has been known to drop stones around the entrances of M. mexicanus nests. This behavior usually happens if the two species have colony entrances within 3 meters of each other. The two species have similar foraging times and food sources which creates competition between the colonies. The foraging of a M. mexicanus colony can decrease drastically due to this stone dropping technique.[21]

Nest location

Founding queens appear to prefer place their nests on top of ridges and mesas.[22]

The nest entrances are typically located out in the open, and the colonies will move their entrances if their original entrance hole (tumulus) becomes shaded. M. mexicanus are nocturnal foragers and prefer lower temperatures between 15 to 20 °C (59 to 68 °F). Therefore, it may be critical for them to have uncovered entrances so that the soil can cool off quickly after sunset and allow them to forage sooner.[23]

In a study conducted by Cole, Haight & Wiernasz (2001), M. mexicanus nests have been observed to be closely associated with nests of Pogonomyrmex occidentalis (harvester ants). M. mexicanus feeds on dead and nearly dead P. occidentalis workers, accounting for this close association. Of the 145 food items collected by M. mexicanus workers, 110 items were dead P. occidentalis workers and two were living workers. Nests of M. mexicanus on average were spaced 5–10 meters away from P. occidentalis nests, but a decent fraction of nests were found closer than 3 meters away.[24]

Predation

M. mexicanus appears to not have many natural predators. Coyotes and badgers have been observed digging up colonies of ants.[25]

Relationship to humans

The repletes of M. mexicanus and other honey ants were delicacies for the Native Americans residing in the southwest U.S. and parts of Mexico. The Natives called them "nequacatl" and would consume the swollen bellies of the ants. Mexicans would also use the "honey" from the replete ants in medicines and food, as well as ferment it for alcoholic beverages.[1]

Notes

  1. 1.0 1.1 1.2 1.3 1.4 Conway 1986, p. 336
  2. Cole 1936, pp. 118–119
  3. 3.0 3.1 Davies, Krebs & West 2012, pp. 362–363
  4. Chew 1995, p. 79
  5. Conway 1980, pp. 10–11
  6. Conway 1980, pp. 13–14
  7. Conway 1980, pp. 14
  8. Conway 1981, pp. 42, 44–47, 49
  9. Conway 1981, pp. 47, 49
  10. Dumpert & Johnson 1978, p. 5
  11. Conway 1986, pp. 21, 30
  12. 12.0 12.1 Conway 1986, p. 338
  13. Rissing 1984, pp. 348–349
  14. 14.0 14.1 Conway 1986, pp. 337–338
  15. Sudd & Franks 1987, p. 39
  16. Conway 1990, p. 106
  17. Conway 1990, pp. 105–106
  18. Burgett & Young 1974, pp. 743–744
  19. 19.0 19.1 19.2 Conway 1986, p. 339
  20. Cole, Haight & Wiernasz 2001, p. 62
  21. Conway 1986, p. 342
  22. Conway 1980, pp. 131
  23. Cole, Haight & Wiernasz 2001, pp. 81–82
  24. Cole, Haight & Wiernasz 2001, pp. 61–62
  25. Conway 1986, p. 340

References

  • Burgett, D. M.; Young, R. G. (1974), "Lipid Storage by Honey Ant Repletes.", Annals of the Entomological Society of America 67 (5): 743–744
  • Chew, Robert M. date=1995 (July 1995), "Aspects of the Ecology of Three Species of Ants (Myrmecocystus spp., Aphaenogaster sp.) in Desertified Grassland in Southeastern Arizona, 1958-1993.", American Midland Naturalist 134 (1): 75–83, doi:10.2307/2426484
  • Cole, A. C. Jr. (1936), "Description of Seven New Western Ants (Hymenoptera: Formicidae).", Entomological News, XLVII: 118–121
  • Cole, Blaine J.; Haight, Diane C.; Wiernasz (2001), "Distribution of Myrmecocystus mexicanus (Hymenoptera: Formicidae): Association with Pogonomyrmex occidentalis (Hymenoptera: Formicidae)", Annals of the Entomological Society of America 94 (1): 59–63, doi:10.1603/0013-8746(2001)094[0059:dommhf]2.0.co;2
  • Conway, John R. (1980), "The Seasonal Occurrence of Sexual Brood and the Pre- and Post-Nuptial Behavior of the Honey Ant, Myrmecocystus mexicanus Wesmael, in Colorado.", Journal of the New York Entomological Society 88 (1): 7–14
  • Conway, John R. (1981), "A Study of Dealated Queens of the Honey Ant, Myrmecocystus mexicanus Wesmael, and Their Progeny in Captivity (Hymenoptera: Formicidae).", Journal of the Kansas Entomological Society 54 (1): 41–55
  • Conway, John R. (1983), "Nest Architecture and Population of the Honey Ant, Myrmecocystus mexicanus Wesmael (Formicidae), in Colorado.", The Southern Naturalist 28 (1): 21–31, doi:10.2307/3670588
  • Conway, John R. (1986), "The Biology of Honey Ants.", The American Biology Teacher 48 (6): 335–343, doi:10.2307/4448321
  • Conway, John R. (1990), "Notes on Repletes, Myrmecophiles, and Predators of Honey Ant Nests (Myrmecocystus mexicanus) (Hymenoptera: Formicidae) in Arizona.", Journal of the New York Entomological Society 98 (1): 103–107
  • Davies, N. B.; Krebs, J. R.; West, S. A. (2012), An Introduction to Behavioral Ecology (4th ed.), Oxford: Wiley-Blackwell
  • Dumpert, K. (1978), The Social Biology of Ants, Trans. Johnson, C., Marschfield, Massachusetts: Pitman Publishing Limited
  • Rissing, Steven W. (1984), "Replete Caste Production and Allometry of Workers in the Honey Ant, Myrmecocystus mexicanus Wesmael (Hymenoptera: Formicidae).", Journal of the Kansas Entomological Society 57 (2): 347–350
  • Sudd, John H.; Franks, Nigel R. (1987), The Behavioral Ecology of Ants, New York: Chapman & Hall

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