Camponotus fellah

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Camponotus fellah
TaggedCamponotus1.jpg
Camponotus fellah workers (a major and a minor) tagged with fiducial markers
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Formicidae
Subfamily: Formicinae
Genus: Camponotus
Species:
C. fellah
Binomial name
Camponotus fellah
(Dalla Torre, 1893)

Camponotus fellah is a species of ant in the subfamily Formicinae found across the Middle East and North Africa. This species was formally described by Dalla Torre in 1893. A C. fellah queen holds the record for Israeli ant longevity, surviving for 26 years (1983-2009) in a laboratory environment. [1]

Contents

Basic biology

Camponotus fellah is monogynous (i.e., colonies consist of a single queen), with polymorphic workers. Queens are singly inseminated meaning that all workers in a colony are full sisters. [2] Colonies are generally found in dry and warm habitats including coastal dunes and deserts. [3]

C. fellah workers are polymorphic (i.e., they vary markedly in size) CamponotusFellahPolymorphism.jpg
C. fellah workers are polymorphic (i.e., they vary markedly in size)

Nestmate recognition

Ant nest-mate recognition is mediated by low volatile cuticular hydrocarbons. Isolated workers are unable to frequently exchange hydrocarbons with nest-mates, and their hydrocarbon profiles diverge from that of the colony. After 20–40 days in isolation, the hydrocarbon profiles of workers diverges to such an extent that they are no longer accepted by the colony. [4] [5] However, aggression is reduced if the isolated workers are exposed to airflow from the colony, indicating that volatile nest chemicals also contribute to nest-mate recognition. [6] [7]

The role of trophallaxis

Trophallaxis - the mouth-to-mouth transfer of liquid food - is a main mechanism of food dissemination in ant colonies. In C. fellah, the colony trophallactic network has been quantified by combining unique marking of individuals with fluorescently labelled food. This procedure refined our understanding of trophallaxis, revealing that transfer flow can switch direction during a trophallaxis event, that foragers receive (as well as unload) food, that foragers often leave the nest after offloading only a small amount of the food in their crop, and that non-foragers also offload considerable amounts of food. Further, the vast majority of trophallaxis events were short in duration, possibly functioning to maintain the colony odour rather than disseminate food. [8] Indeed, when the hydrocarbon profiles of members of C. fellah colonies are artificially modified, the colony reaches homogeneity more rapidly than non-trophallaxing species. [9] Through maintaining homogenous hydrocarbon profiles, trophallaxis mediates colony cohesion. The engagement of workers in socially cohesive trophallaxis may be underpinned by levels of octopamine in the brain. Usually after isolation, upon return to the colony, workers perform trophallaxis at an elevated rate. However, if workers are treated with octopamine, this increase in trophallaxis is not observed. [10]

Social structure

A combination of automated behavioural tracking and social network analysis revealed that colony social networks comprise two communities: a nurse community of the queen and young workers who care for the brood, and a forager community of older workers who leave the nest to forage. This structure is thought to emerge from age-associated changes in the behaviour of individual workers. [11] [12]

Effects of social isolation

Socially isolated workers rapidly lose weight, and exhibit reduced lifespans and behavioural changes including increased locomotion. [13] [14] This effect is markedly reduced when workers are isolated with just one other individual. The increase in the mortality of isolated workers likely results from an increase in energy expenditure and a decrease in energy income. Through energy balance, social interactions therefore seem to influence health and ageing.

Microbiota

Camponotus fellah, like all tested Carpenter ant species harbours an intracellular endosymbiotic bacteria from the genus Blochmannia. This endosymbiont contributes to host nutrition by recycling nitrogen into aminoacid biosynthesis, and when levels are experimentally reduced colony growth decreases. [15] Blochmannia is harboured in specialised cells (bacteriocytes) in the midgut epithelium, and transmitted exclusively horizontally.

Since Blochmannia's closest sister taxa are endosymbionts of sap-feeding insects, and ants often associate with sap-feeding insects, it is possible that the Blochmannia ancestor was acquired by the Camponotini ancestor via sap-feeding insects. [16]

Learning and memory

In general ants rely heavily on olfactory cues and have well developed olfactory centres in their brains. This is particularly true of Carpenter ants, and C. fellah workers can be trained to associate odours with gustatory reinforcers in lab conditions. They will choose the branch of a Y-maze according to odours they have learnt to associate with gustatory reward. [17]

Foraging above ground the workers rely heavily on vision for navigation. Below ground, workers combine spatial memory, chemical signals, and gravity. When faced with catastrophe, the workers dynamically adjust which of these sources of information they rely on through individual and collective learning. [18]

Related Research Articles

<span class="mw-page-title-main">Ant</span> Family of insects

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.

<span class="mw-page-title-main">Termite</span> Social insects related to cockroaches

Termites are a group of detritophagous eusocial insects which consume a wide variety of decaying plant material, generally in the form of wood, leaf litter, and soil humus. They are distinguished by their moniliform antennae and the soft-bodied and typically unpigmented worker caste for which they have been commonly termed "white ants"; however, they are not ants, to which they are distantly related. About 2,972 extant species are currently described, 2,105 of which are members of the family Termitidae.

<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">Honeypot ant</span> Ants that store food in living workers

Honeypot ants, also called honey ants, are ants which have specialised workers that are gorged with food to the point that their abdomens swell enormously. Other ants then extract nourishment from them, through the process of trophallaxis. They function as living larders. Honeypot ants belong to any of several genera, including Myrmecocystus and Camponotus. They were first documented in 1881 by Henry C. McCook, and described further in 1908 by William Morton Wheeler.

<span class="mw-page-title-main">Red imported fire ant</span> Species of ant

The red imported fire ant, also known as the fire ant or RIFA, is a species of ant native to South America. A member of the genus Solenopsis in the subfamily Myrmicinae, it was described by Swiss entomologist Felix Santschi as a variant of S. saevissima in 1916. Its current specific name invicta was given to the ant in 1972 as a separate species. However, the variant and species were the same ant, and the name was preserved due to its wide use. Though South American in origin, the red imported fire ant has been accidentally introduced in Australia, New Zealand, several Asian and Caribbean countries, Europe and the United States. The red imported fire ant is polymorphic, as workers appear in different shapes and sizes. The ant's colours are red and somewhat yellowish with a brown or black gaster, but males are completely black. Red imported fire ants are dominant in altered areas and live in a wide variety of habitats. They can be found in rainforests, disturbed areas, deserts, grasslands, alongside roads and buildings, and in electrical equipment. Colonies form large mounds constructed from soil with no visible entrances because foraging tunnels are built and workers emerge far away from the nest.

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

Formica rufa, also known as the red wood ant, southern wood ant, or horse ant, is a boreal member of the Formica rufa group of ants, and is the type species for that group, being described already by Linneaus. It is native to Eurasia, with a recorded distribution stretching from the middle of Scandinavia to the northern Iberia and Anatolia, and from Great Britain to Lake Baikal, with unconfirmed reportings of it also to the Russian Far East. There are claims that it can be found in North America, but this is not confirmed in specialised literature, and no recent publication where North American wood ants are listed mentions it as present, while records from North America are all listed as dubious or unconfirmed in a record compilation. Workers head and thorax are colored red and the abdomen brownish-black, usually with a dorsal dark patches on the head and promensonotum, although some individuals may be more uniform reddish and even have some red on the part of the gastern facing the body. In order to separate them from closely related species, specimens needs to be inspected under magnification, where difference in hairyness are among the telling characteristics, with Formica rufa being more hairy than per example Formica polyctena but less hairy than Formica lugubris. Workers are polymorphic, measuring 4.5–9 mm in length. They have large mandibles, and like many other ant species, they are able to spray formic acid from their abdomens as a defence. Formic acid was first extracted in 1671 by the English naturalist John Ray by distilling a large number of crushed ants of this species. These ants primarily eat honeydew from aphids. Some groups form large networks of connected nests with multiple queen colonies, while others have single-queen colonies.

<span class="mw-page-title-main">Decentralised system</span> Systems without a single most important component or cluster

A decentralised system in systems theory is a system in which lower level components operate on local information to accomplish global goals. The global pattern of behaviour is an emergent property of dynamical mechanisms that act upon local components, such as indirect communication, rather than the result of a central ordering influence of a centralised system.

<span class="mw-page-title-main">Carpenter ant</span> Genus of ants (Camponotus spp.)

Carpenter ants are large ants indigenous to many forested parts of the world.

<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">Banded sugar ant</span> Species of carpenter ant (Camponotus consobrinus)

The banded sugar ant, also known as the sugar ant, is a species of ant native to Australia. A member of the genus Camponotus in the subfamily Formicinae, it was described by German entomologist Wilhelm Ferdinand Erichson in 1842. Its common name refers to the ant's liking for sugar and sweet food, as well as the distinctive orange-brown band that wraps around its gaster.

<i>Nothomyrmecia</i> Genus of ants

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.

<span class="mw-page-title-main">Meat ant</span> Common Australian ant

The meat ant, also known as the gravel ant or southern meat ant, is a species of ant endemic to Australia. A member of the genus Iridomyrmex in the subfamily Dolichoderinae, it was described by British entomologist Frederick Smith in 1858. The meat ant is associated with many common names due to its appearance, nest-building behaviour and abundance, of which its specific name, purpureus, refers to its coloured appearance. It is among the best-known species of ant found throughout Australia; it occurs in almost all states and territories except for Tasmania. Its enormous distribution, aggression and ecological importance have made this ant a dominant species.

<i>Ropalidia marginata</i> Species of insect

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<span class="mw-page-title-main">Necrophoresis</span> Undertakers of the insect world

Necrophoresis is a sanitation behavior found in social insects – such as ants, bees, wasps, and termites – in which they carry away the dead bodies of members of their colony from the nest or hive area. The term was introduced in 1958 by E.O. Wilson and his colleagues. The behaviour was however known from before with Pliny making the claim that ants were the only animals other than humans to bury their dead.

<span class="mw-page-title-main">Bumblebee communication</span>

Bumblebees, like the honeybee collect nectar and pollen from flowers and store them for food. Many individuals must be recruited to forage for food to provide for the hive. Some bee species have highly developed ways of communicating with each other about the location and quality of food resources ranging from physical to chemical displays.

<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.

<i>Blochmannia</i>

Blochmannia is a genus of symbiotic bacteria found in carpenter ant. There are over 1000 species of these ants and, as of 2014, of the over 30 species of carpenter ant that have been investigated, all contain some form of Blochmannia. The bacteria filled cells currently known as members of the genus Blochmannia were first discovered by zoologist F. Blochmann in the ovaries and midguts of insects in the 1880s. In 2000 Candidatus Blochmannia was proposed as its own genus.

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

The social network of colonies of social insects have been extensively studied as model biological networks.

References

  1. Vonshak, Merav; Shlagman, Alex (2009). "A Camponotus fellah queen sets a record for Israeli ant longevity" (PDF). Israel Journal of Entomology. Archived from the original (PDF) on 2020-10-12. Retrieved 2020-04-07.
  2. Mersch, Danielle P.; La Mendola, Christine; Keller, Laurent (2017). "Camponotus fellah queens are singly mated". Insectes Sociaux. 64 (2): 269–276. doi:10.1007/s00040-017-0543-1. S2CID   253640000.
  3. Ofer, J; Shulov, A.; Noy-Meir, I. (1978). "Associations of and species in Israel: A multivariate analysis". Israel Journal of Zoology.
  4. Boulay, Raphaël; Hefetz, Abraham; Soroker, Victoria; Lenoir, Alain (2000). "Camponotus fellah colony integration: worker individuality necessitates frequent hydrocarbon exchanges". Animal Behaviour. 59 (6): 1127–1133. doi:10.1006/anbe.2000.1408. PMID   10877891. S2CID   1525222.
  5. Boulay, R.; Lenoir, A. (2001). "Social isolation of mature workers affects nestmate recognition in the ant Camponotus fellah". Behavioural Processes. 55 (2): 67–73. doi:10.1016/S0376-6357(01)00163-2. PMID   11470498. S2CID   44644625.
  6. Katzav-Gozansky, Tamar; Boulay, Raphaël; Ionescu-Hirsha, Armin; Hefetz, Abraham (2008). "Nest volatiles as modulators of nestmate recognition in the ant Camponotus fellah". Journal of Insect Physiology. 54 (2): 378–85. doi:10.1016/j.jinsphys.2007.10.008. PMID   18045612.
  7. Katzav-Gozansky, Tamar; Boulay, Raphaël; Vender Meer, Robert; Hefetz, Abraham (2004). "In-nest environment modulates nestmate recognition in the ant Camponotus fellah". Naturwissenschaften. 91 (4): 186–190. Bibcode:2004NW.....91..186K. doi:10.1007/s00114-004-0513-0. hdl: 10261/63301 . PMID   15085277. S2CID   9786862.
  8. Greenwald, Efrat; Segre, Enrico; Feinerman, Ofer (2015). "Ant trophallactic networks: simultaneous measurement of interaction patterns and food dissemination". Scientific Reports. 5: 12496. Bibcode:2015NatSR...512496G. doi:10.1038/srep12496. PMC   4519732 . PMID   26224025.
  9. Lenoir, Alain; Hefetz, Abraham; Simon, Tovit; Soroker, Victoria (2001). "Comparative dynamics of gestalt odour formation in two ant species Camponotus fellah and Aphaenogaster senilis (Hymenoptera: Formicidae)". Physiological Entomology. 26 (3): 275–283. doi:10.1046/j.0307-6962.2001.00244.x. S2CID   85921826.
  10. Boulay, R.; Soroker, V.; Godzinska, E.J.; Hefetz, A.; Lenoir, A. (2000). "Octopamine reverses the isolation-induced increase in trophallaxis in the carpenter ant Camponotus fellah". Journal of Experimental Biology. 203 (3): 513–520. doi:10.1242/jeb.203.3.513. PMID   10637180.
  11. Mersch, Danielle P.; Crespi, Alessandro; Keller, Laurent (2013). "Tracking individuals shows spatial fidelity is a key regulator of ant social organization". Science. 340 (6136): 1090–3. Bibcode:2013Sci...340.1090M. doi: 10.1126/science.1234316 . PMID   23599264. S2CID   27748253.
  12. Richardson, Thomas O.; Kay, Tomas; Braunschweig, Raphaël; Journeau, Opaline A.; Rüegg, Matthias; McGregor, Sean; De Los Rios, Paolo; Keller, Laurent (2021). "Ant behavioral maturation is mediated by a stochastic transition between two fundamental states". Current Biology. 31 (10): 2253–2260.e3. doi: 10.1016/j.cub.2020.05.038 . PMID   33730550. S2CID   232246353.
  13. Koto, Akiko; Mersch, Danielle P.; Hollis, Brian; Keller, Laurent (2015). "Social isolation causes mortality by disrupting energy homeostasis in ants". Behavioral Ecology and Sociobiology. 69 (4): 583–591. doi:10.1007/s00265-014-1869-6. S2CID   253820221.
  14. Boulay, R.; Quagebeur, M.; Godzinska, E.J.; Lenoir, A. (1999). "Social isolation in ants: evidence of its impact on survivorship and behavior in Camponotus fellah (Hymenoptera: Formicidae)". Sociobiology.
  15. de Souza, Danival J.; Bézier, Annie; Depoix, Delphine; Drezen, Jean-Michel; Lenoir, Alain (2009). "Blochmannia endosymbionts improve colony growth and immune defence in the ant Camponotus fellah". BMC Microbiology. 9: 29. doi:10.1186/1471-2180-9-29. PMC   2660346 . PMID   19200360.
  16. Wernegreen, Jennifer J.; Kauppinen, Seth N.; Brady, Seán G.; Ward, Philip S. (2009). "One nutritional symbiosis begat another: Phylogenetic evidence that the ant tribe Camponotini acquired Blochmannia by tending sap-feeding insects". BMC Evolutionary Biology. 9: 292. doi: 10.1186/1471-2148-9-292 . PMC   2810300 . PMID   20015388.
  17. Dupuy, Fabienne; Sandoz, Jean-Christophe; Giurfa, Martin; Josens, Roxana (2006). "Individual olfactory learning in Camponotus ants" (PDF). Animal Behaviour. 72 (5): 1081–1091. doi:10.1016/j.anbehav.2006.03.011. S2CID   52242163.
  18. Heyman, Yael; Vilk, Yael; Feinerman, Ofer (2019). "Ants Use Multiple Spatial Memories and Chemical Pointers to Navigate Their Nest". iScience. 14: 264–276. Bibcode:2019iSci...14..264H. doi:10.1016/j.isci.2019.04.003. PMC   6476803 . PMID   31005661.
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