Messor capitatus | |
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Class: | Insecta |
Order: | Hymenoptera |
Family: | Formicidae |
Subfamily: | Myrmicinae |
Genus: | Messor |
Species: | M. capitatus |
Binomial name | |
Messor capitatus (Latreille, 1798) | |
Messor capitatus is an ant species part of the genus Messor . This genus includes about 40 specialized species that are found in dry areas of Mediterranean countries such as Africa, Southern Europe, and Asia. [1] Messor capitatus are known as an Old World species because they release trail pheromones from the Dufour gland instead of from poison glands. [2] Messor capitatus are known as individual foragers that collect food independently of one another but sometimes will also use group foraging to form irregular, broad columns. [3] Messor capitatus main food source is seeds but they also will eat remains of plants and animals.
Messor capitatus are seed-harvesting ants that when they find a food source will go back to the nest to recruit other foragers if the food is too large for them to carry. The ants will lay a trail of chemicals from the food to the nest using their gasters. Once they are inside the nest they will perform a motor display that includes running, body vibrations, contact with nestmates, and food transmission. The nestmates will then get excited and follow the trail laid by the scout to the food source and if they want to recruit more to the patch then they will reinforce the trail by also leaving a trail of chemicals with their gasters. The chemical that the scouts use to lay orientation trails is released from the Dufour's gland. The major compounds that are released from the Dufour gland are Tridecane (28%) and Nonadecane (26%). M.capitatus and M. galla are the first species to have more than a trace quantity of nonadecane released from the Dufour gland. [4] The chemicals released from these glands can last up to 30 minutes after reinforcement has ended. [5] M. capitatus will follow a trail that is made of the secretion from the Dufour's gland the most often and will follow this secretion to the end of the trail. Researchers found that even if the secretion was from a different colony ant they would still follow the trail with no hesitation. The ants would also follow the trail left by the poison gland, but would display aggressive behavior while they followed this trail and did not always follow the trail to the end. The ants did not respond to a trail laid with secretions from the ant's abdomen. [6] M. capitatus also secrete faeces containing the same hydrocarbons as the cuticle of worker ants in what is known as anal spots around their nest to identify it. These anal spot secretions helps the ants identify nestmates or aliens. The anal spots contain hydrocarbons similar to the cuticle because these hydrocarbons are detected during close contact to determine if another ant is a colony-member and to help tell other colonies which nest is their own. These spots were found to contain 60 different compounds that were mostly long-chained branched and linear hydrocarbons. The proportion of compound in the anal spots varied between the colonies as another way to distinguish between them. In M.capitatus these anal spots are created using a rectal sac and not secretions from the Dufour gland. [7]
Messor capitatus, M. structor, M. aciculatus, and M. chamberlini are all Messor species that can change between individual foraging and group foraging when a large supply of food is discovered. [8] This helps the species to forage independently when resources are dispersed over a large area. If a large amount of resources is found in a concentrated area then these species can change their behavior to recruit other nestmates to help bring back the resources to the nest. The foraging activity of M. capitatus has been studied with respect to how they affect seed dispersal, optimizing their harvest, and patterns of foraging. M.capitatus create long narrow trails that are no more than 10 cm wide and they will drop seeds along these trails. [9] M. capitatus drops 10-15% of the seeds they transport and will redistribute these seeds in bare soil and low sparse vegetation habitats. They rarely disperse the seeds in low, dense and highly vegetated habitats. [10] The effects of seed dispersal by ants is important as it can affect how vegetation will grow and being placed in sparse vegetation means that the seeds have less competition to grow against. M. capitatus is said to optimize their harvest by looking at seed size and determining if the energetic cost of bringing seed back to the nest individually was worth the net benefit to the colony. M. capitatus is a polymorphic species, which means that they have a larger range of size in the species. To optimize their harvest they have the larger ants carry the heavier food back to the nest and have smaller ants carry the lighter food. The ants also had a preference for seeds of a moderate mass of about 400 mg when the seed was about 5-5.5mm in diameter. [11] M. capitatus have been found to commit cleptobiosis, steal, seeds from other colonies of ants. M.capitatus will use a variety of interference tactics to affect foraging by congeners, those within the same genus. [12] M.capitatus caused significant seed predation to the rare and endangered plant Erodium paularense. This plant produces few viable seeds in fruit and M.capitatus only harvests the fruit of trees that have fully developed seeds. Predation rates by M.capitatus of E. paularense seeds is about 43.3%. [13] Seed collection by ants is due to preference and the availability of the seeds and other food sources.
In a hymenopteran taxa there is usually a fertile queen and sterile workers. Messor capitatus is one of the few species that in rare situations will be able to have thelytokous workers which means through parthenogenesis females are produced by unfertilized eggs. M. capitatus colonies that lose a queen can have workers start to have ovaries that allows them to produce females in the one month after being orphaned and after a ten-month period will start to produce males. This change in sex is not due to the Wolbachia bacterium that infects most insects and is a reproductive parasite. [14]
Ants are eusocial insects of the family Formicidae and, along with the related wasps and bees, belong to the order Hymenoptera. Ants evolved from vespoid wasp ancestors in the Cretaceous period. More than 13,800 of an estimated total of 22,000 species have been classified. They are easily identified by their geniculate (elbowed) antennae and the distinctive node-like structure that forms their slender waists.
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.
Formica cunicularia is a species of ant found all over Europe. They are especially common in western Europe and southern England, but they can be found from southern Scandinavia to northern Africa and from Portugal to the Urals. In England, Donisthorpe records the species as having occurred as far north as Bewdley in Worcestershire. In Formica cunicularia, the worker is an ashy grey black color and is usually 4.0–6.5 mm long. The males are found to have a uniformly dark body and are 8.0–9.0 mm long. The queen is yellowish red to dark black and is 7.5–9.0 mm.
Pogonomyrmex barbatus is a species of harvester ant from the genus Pogonomyrmex. Its common names include red ant and red harvester ant. These large ants prefer arid chaparral habitats and are native to the Southwestern United States. Nests are made underground in exposed areas. Their diets consist primarily of seeds, and they consequently participate in myrmecochory, an ant-plant interaction through which the ants gain nutrients and the plants benefit through seed dispersal. Red harvester ants are often mistaken for fire ants, but are not closely related to any fire ant species, native or introduced.
Carpenter ants are large ants indigenous to many forested parts of the world.
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. The ant's common name is possibly derived from the mistaken belief that it was one of the Egyptian (pharaonic) plagues.
Harvester ant, is a common name for any of the species or genera of ants that collect seeds, or mushrooms as in the case of Euprenolepis procera, which are stored in the nest in communal chambers called granaries. They are also referred to as agricultural ants. Seed harvesting by some desert ants is an adaptation to the lack of typical ant resources such as prey or honeydew from hemipterans. Harvester ants increase seed dispersal and protection, and provide nutrients that increase seedling survival of the desert plants. In addition, ants provide soil aeration through the creation of galleries and chambers, mix deep and upper layers of soil, and incorporate organic refuse into the soil.
Colobopsis saundersi, also called the Malaysian exploding ant, is a species of ant found in Malaysia and Brunei, belonging to the genus Colobopsis. A worker can explode suicidally and aggressively as an ultimate act of defense, an ability it has in common with several other species in this genus and a few other insects. The ant has an enormously enlarged mandibular gland, many times the size of other ants, which produces adhesive secretions for defense. According to a 2018 study, this species forms a species complex and is probably related to C. explodens, which is part of the C. cylindrica group.
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.
Nothomyrmecia, also known as the dinosaur ant or dawn ant, is an extremely rare genus of ants consisting of a single species, Nothomyrmecia macrops. These ants live in South Australia, nesting in old-growth mallee woodland and Eucalyptus woodland. The full distribution of Nothomyrmecia has never been assessed, and it is unknown how widespread the species truly is; its potential range may be wider if it does favour old-growth mallee woodland. Possible threats to its survival include habitat destruction and climate change. Nothomyrmecia is most active when it is cold because workers encounter fewer competitors and predators such as Camponotus and Iridomyrmex, and it also increases hunting success. Thus, the increase of temperature may prevent them from foraging and very few areas would be suitable for the ant to live in. As a result, the IUCN lists the ant as Critically Endangered.
Formica polyctena is a species of European red wood ant in the genus Formica and large family Formicidae. The species was first described by Arnold Förster in 1850. The latin species name polyctena is from Greek and literally means 'many cattle', referring to the species' habit of farming aphids for honeydew food. It is found in many European countries. It is a eusocial species, that has a distinct caste system of sterile workers and a very small reproductive caste. The ants have a genetic based cue that allow them to identify which other ants are members of their nest and which are foreign individuals. When facing these types of foreign invaders the F. polyctena has a system to activate an alarm. It can release pheromones which can trigger an alarm response in other nearby ants.
Trail pheromones are semiochemicals secreted from the body of an individual to affect the behavior of another individual receiving it. Trail pheromones often serve as a multi purpose chemical secretion that leads members of its own species towards a food source, while representing a territorial mark in the form of an allomone to organisms outside of their species. Specifically, trail pheromones are often incorporated with secretions of more than one exocrine gland to produce a higher degree of specificity. Considered one of the primary chemical signaling methods in which many social insects depend on, trail pheromone deposition can be considered one of the main facets to explain the success of social insect communication today. Many species of ants, including those in the genus Crematogaster use trail pheromones.
Dinoponera is a strictly South American genus of ant in the subfamily Ponerinae, commonly called tocandiras or giant Amazonian ants. These ants are generally less well known than Paraponera clavata, the bullet ant, yet Dinoponera females may surpass 3–4 cm (1.2–1.6 in) in total body length, making them among the largest ants in the world.
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.
Messor barbarus is a species of harvester ant in the subfamily Myrmicinae. It is found In Southern Europe and Northern Africa.
Novomessor cockerelli is a species of ant in the subfamily Myrmicinae. It is native to the deserts of the Southwestern United States and Mexico. It lives in large underground colonies in which there is a single queen. The worker ants leave the nest daily to forage for seeds, plant material and dead insects.
Parischnogaster jacobsoni is a species of social wasp within Parischnogaster, the largest and least known genus of Stenogastrinae. It is distinguished mainly by its tendency to construct ant guards on its nests. Natural selection has led this wasp to have a thick substance emitted from its abdominal glands that allows it to protect its nest from invasions. Parischnogaster as a genus has been relatively unstudied; P. jacobsoni is one of the few investigated species because it has sufficient durability to live near human populations and it has demonstrated unusual resilience to pollution. While P. jacobsoni is a more complex organism than other wasps in Parischnogaster, the genus overall is relatively primitive with respect to social wasps as a whole.
Megaponera analis is the sole species of the genus Megaponera. They are a strictly termite-eating (termitophagous) ponerine ant species widely distributed in Sub-Saharan Africa and most commonly known for their column-like raiding formation when attacking termite feeding sites. Their sophisticated raiding behaviour gave them the common name Matabele ant after the Matabele tribe, fierce warriors who overwhelmed various other tribes during the 1800s. With some individuals reaching up to 25 millimetres (0.98 in) in length, M. analis is one of the world's largest ants.
This is a glossary of terms used in the descriptions of ants.
Novomessor albisetosus, also known as the desert harvester ant, is a species of ant found in the United States and Mexico. A member of the genus Novomessor in the subfamily Myrmicinae, it was first described by Austrian entomologist Gustav Mayr in 1886. It was originally placed in the genus Aphaenogaster, but a recent phylogenetic study concluded that it is genetically distinct and should be separated. It is a medium-sized species, measuring 6 to 8.5 millimeters and has a ferruginous body color. It can be distinguished from other Novomessor species by its shorter head and subparallel eyes.