Black garden ant
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The black garden ant (Lasius niger), also known as the common black ant, is a formicine ant, the type species of the subgenus Lasius, found all over Europe and in some parts of North America, South America, Asia and Australasia. The European species was split into two species; L. niger is found in open areas, while L. platythorax is found in forest habitats. It is monogynous, meaning colonies have a single queen.
|Black garden ant|
|Black garden ants tending to mealybugs|
Lasius niger colonies can reach in size up to around 40,000 workers in rare cases but 4,000–7,000 is around average. A Lasius Niger queen can live up to around 15 years and it has been claimed that some have lived for 30 years. Lasius niger queens while in the early stages of founding can have two to three other queens in the nest. They will tolerate each other until the first workers come, then it is most likely they will fight until one queen remains. In certain circumstances, it is possible that there can be multiple queens in a single colony if they are founding somewhat near each other and eventually their two tunnels connect.. Under laboratory conditions, workers can live at least 4 years.
|Queen phenotype||9 mm long, glossy black colour but appears to have slight brown stripes on her abdomen. The queen can reach 6-9mm in length and is smaller as a new queen. When a queen is fertilised she removes her wings and digests her wing muscles as food over the winter.|
|Male phenotype||3.5–4.5 mm long, slim, colour black. Only produced by queens when the nuptial flights are approaching. They appear with a dark glossy body with a different shape from the workers, almost resembling a wasp appearance. They have wing muscles which stand out from the rest of the body. They are 5-7mm long and have delicate wings|
|Worker phenotype||3–5 mm long, workers are dark glossy black. As the colony gets older it has been known for workers to increase in size over generations|
|Nest building||Nests underground, commonly under stones, but also in rotten wood, and under roots.|
|Nutrition||Nectar, small insects such as codling moth larvae, fruit, will farm aphids, cockroaches, beetles.|
Ants mate on the wing, so "flying ants" are alates (reproductive individuals), which includes males and gynes (virgin queens). The mating (or nuptial) flights of Lasius niger usually occur around June to September throughout the species' range; in North America flights usually occur during the autumn, whereas in Europe they generally take place during the hot summer months of July and August. Flights can contain thousands of winged males and females.
Disparities between local weather conditions can cause nuptial flights to be out of phase amongst widespread populations of L. niger. During long-lasting, hot summers, flights can take place simultaneously across the country, but overcast weather with local patches of sunshine results in a far less synchronised emergence of alates (winged individuals).
Once the queens have mated they will land and discard their wings and begin to find a suitable place to dig a tunnel. Meanwhile, the males generally only live for a day or two after the mating flights and will then die.
After removing her wings, a queen will move quickly to find moist ground, then start digging a tunnel. Once the tunnel has been completed, the queen will block the entrance and retreat to the bottom. Subsequently, she will dig out a small chamber. This will serve as the claustral chamber of the new colony. Generally, a queen will begin to lay eggs immediately after the construction of the chamber, and the eggs will hatch after 8–10 weeks. Until the eggs hatch and the larvae grow to maturity, a Lasius niger queen will not eat, relying on the protein of her wing muscles to be broken down and digested. In some cases, a Lasius niger queen may eat her own eggs in order to survive.
Egg to antEdit
Lasius niger have four stages of development: egg, larva, pupa, and adult. Lasius niger lay tiny, white, kidney-shaped eggs with a smooth sticky surface which helps them to be carried in a group instead of one by one. After hatching Lasius niger proceed onto the larva stage resembling tiny maggots. The larvae need to be fed by the queen (or workers in the case of an established colony) if they are to mature; as they feed the larvae grow, shedding their skin, doing so usually three times in total. With each molt, the larvae grow hooked hairs which allow them to be carried in groups. When Lasius niger larvae reach the last molt they are generally too big to be carried as part of a group and so are carried singly. Once the larva grows big enough it spins a cocoon around itself. To aid this process a queen (or workers) may bury the larva so that it can spin its cocoon undisturbed, and begin a process of metamorphosis. Once the process is complete the Lasius niger worker emerges from the cocoon. At this stage Lasius niger is completely white but will darken over the course of an hour until it has turned black.
The first worker ants that emerge are very small compared to later generations. At this point the workers immediately begin to expand the nest and care for the queen and brood; they eventually remove the seal from the entrance to the nest and begin to forage above ground. This is a critical time for the colony as they need to gather food quickly to support future growth and particularly to feed the starved queen, who would have lost around 50% of her body weight. From this point on the queen's egg laying output will increase significantly, becoming the queen's sole function. The later generations of worker ants will be bigger, stronger and more aggressive because there is more nutrition for them at the larval stage. The initial brood being fed only by the scarce resources available to a queen will be much smaller than brood supported by a team of foraging and nursing workers. Provided workers are able to find food, at this stage the colony will see an exponential rise in population. After several years, once the colony is well established, the queen will lay eggs that will become queens and males. Black ants often make large nests with extensive tunnel connections.
When building their colony, the ants structure it so as to inhibit the transmission of different contagions. Different communities within the colony are segregated by a limited number of connective nodes, allowing for greater protection of vulnerable hive members, such as larvae and pupae, and the queen.
Additionally, individual infected ants have been observed as spending more time foraging outside of the hive, venturing farther than other ants, and limiting their interactions once within the hive again.
Although worker ants live for at least four years, queens can survive for almost 30 years. Understanding the basis for the greater longevity of queens has a bearing on the general unsolved problem in biology of the causes of aging. In the study of long-lived queen ants it was found that queens have a higher expression than genetically identical workers of genes involved in processing damaged macromolecules. Genes with higher expression included those that are necessary for repair of DNA damage (see DNA damage theory of aging) and genes involved in proteasome-mediated, ubiquitin-dependent, protein catabolic processes.
The Plebejus argus butterfly lays eggs near nests of L. niger, forming a mutualistic relationship. This mutualistic relationship benefits the adult butterfly by reducing the need for parental investment. Once the eggs hatch, the ants chaperone the larvae, averting the attacks of predatory organisms like wasps and spiders as well as parasites. In return, the ants receive a saccharine secretion fortified with amino acids from an eversible gland on the larvae’s back. As first instar larvae prepare to pupate, the ants carry the larvae into their nests. Once the larvae become pupae, the ants continue to provide protection against predation and parasitism. The butterfly leaves the nest when it emerges in June.
- Klotz, John H. (2008). Urban Ants of North America and Europe: Identification, Biology, and Management. Cornell University Press. pp. 39–44. ISBN 978-0801474736.
- Czaczkes, T. J. (2017). "unpublished data". Cite journal requires
- Gitig, Diana (November 26, 2018). "Sick ants stay away from the kids". Ars Technica. Retrieved November 27, 2018.
- Lucas ER, Privman E, Keller L (2016). "Higher expression of somatic repair genes in long-lived ant queens than workers". Aging. 8 (9): 1940–1951. doi:10.18632/aging.101027. PMC 5076446. PMID 27617474.
- Seymour, Adrian S.; Gutiérrez, David; Jordano, Diego (2003-10-01). "Dispersal of the lycaenid Plebejus argus in response to patches of its mutualist ant Lasius niger". Oikos. 103 (1): 162–174. doi:10.1034/j.1600-0706.2003.12331.x. ISSN 1600-0706.
- Jordano, D.; Rodríguez, J.; Thomas, C. D.; Haeger, J. Fernández (1992-09-01). "The distribution and density of a lycaenid butterfly in relation to Lasius ants". Oecologia. 91 (3): 439–446. doi:10.1007/bf00317635. ISSN 0029-8549. PMID 28313554.