Pseudomyrmex spinicola

Last updated

Pseudomyrmex spinicola
Pseudomyrmex spinicola casent0005800 profile 1.jpg
Pseudomyrmex spinicola worker
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Formicidae
Genus: Pseudomyrmex
Species:
P. spinicola
Binomial name
Pseudomyrmex spinicola
Emery, 1890

Pseudomyrmex spinicola is a species of red myrmecophyte-inhabiting neotropical ants which are found only in Nicaragua and Costa Rica. They live in the thorns of tropical trees like Acacia collinsii or Acacia allenii, feeding on nectaries along with the protein and lipid-rich beltian bodies. [1] These bodies are named for Thomas Belt, a naturalist who first described the interactions between acacias and ants in his 1874 book Naturalist in Nicaragua. Belt's book in fact described ants of this species, then unknown.[ citation needed ]

Contents

P. spinicola are the more aggressive among a number of A. collinsii-inhabiting species that engage in a classic case of mutualism. The ants receive colony space in A. collinsii to support their population structure. In return, the ants actively defend the tree from herbivory and often from competing plants nearby, clearing the forest floor of other seedlings. Sometimes, a large P. spinicola colony may be spread between two or more trees, protecting each tree within their colony and possibly grooming A. collinsii seedlings within that microhabitat to be used by the colony.[ citation needed ]

Populations of mutualistic myrmecophyte-inhabiting ants may be space limited, [2] and therefore P. spinicola use the largest-volume thorns for the queen's chamber and other large-volume thorns for egg nurseries. [3] The smallest eggs will be found in the queen's chamber, before being redistributed to other larger thorns to be nursed through early life stages.[ citation needed ]

Chemical Ecology

The symbiotic ants living on this tree become alarmed at tissue disruption of the plant’s leaves by herbivores like the scarab, Pelidnota punctulate. This beetle only feeds on ant-acacias and is protected by its heavy cuticle. Tissue disruption of the tree leaves releases trans-2-hexenal, a compound that ants detect as a kairomone. On exposure to test samples of this compound the ants become alarmed and displayed alarm behavior. [4] This compound is not found in the mandibular gland secretions of Costa Rican acacia ants, that are likely to be the source of the ant’s alarm pheromones. [5]

Related Research Articles

<i>Acacia sensu lato</i> Genus of legumes

Acacia s.l., known commonly as mimosa, acacia, thorntree or wattle, is a polyphyletic genus of shrubs and trees belonging to the subfamily Mimosoideae of the family Fabaceae. It was described by the Swedish botanist Carl Linnaeus in 1773 based on the African species Acacia nilotica. Many non-Australian species tend to be thorny, whereas the majority of Australian acacias are not. All species are pod-bearing, with sap and leaves often bearing large amounts of tannins and condensed tannins that historically found use as pharmaceuticals and preservatives.

<span class="mw-page-title-main">Daniel H. Janzen</span> American evolutionary ecologist

Daniel Hunt Janzen is an American evolutionary ecologist and conservationist. He divides his time between his professorship in biology at the University of Pennsylvania, where he is the DiMaura Professor of Conservation Biology, and his research and field work in Costa Rica.

<span class="mw-page-title-main">Myrmecophyte</span> Plants that live in association with ants

Myrmecophytes are plants that live in a mutualistic association with a colony of ants. There are over 100 different genera of myrmecophytes. These plants possess structural adaptations that provide ants with food and/or shelter. These specialized structures include domatia, food bodies, and extrafloral nectaries. In exchange for food and shelter, ants aid the myrmecophyte in pollination, seed dispersal, gathering of essential nutrients, and/or defense. Specifically, domatia adapted to ants may be called myrmecodomatia.

<span class="mw-page-title-main">Thomas Belt</span>

Thomas Belt, an English geologist and naturalist, was born at Newcastle-on-Tyne in 1832, and educated in that city. He is remembered for his work on the geology of gold bearing minerals, glacial geology, and for his description of the mutualistic relationship between certain bullthorn Acacia species and their Pseudomyrmex ants.

<i>Vachellia cornigera</i> Species of legume

Vachellia cornigera, commonly known as bullhorn acacia, is a swollen-thorn tree and Myrmecophyte native to Mexico and Central America. The common name of "bullhorn" refers to the enlarged, hollowed-out, swollen thorns that occur in pairs at the base of leaves, and resemble the horns of a steer. In Yucatán it is called "subín", in Panamá the locals call them "cachito". The trees are commonly found in wet lowlands

Ecological facilitation or probiosis describes species interactions that benefit at least one of the participants and cause harm to neither. Facilitations can be categorized as mutualisms, in which both species benefit, or commensalisms, in which one species benefits and the other is unaffected. This article addresses both the mechanisms of facilitation and the increasing information available concerning the impacts of facilitation on community ecology.

<i>Vachellia collinsii</i> Species of legume

Vachellia collinsii, previously Acacia collinsii, is a species of flowering plant native to Central America and parts of Africa.

<span class="mw-page-title-main">Myrmecophily</span> Positive interspecies associations between ants and other organisms

Myrmecophily is the term applied to positive interspecies associations between ants and a variety of other organisms, such as plants, other arthropods, and fungi. Myrmecophily refers to mutualistic associations with ants, though in its more general use, the term may also refer to commensal or even parasitic interactions.

<i>Pseudomyrmex</i> Genus of ants

Pseudomyrmex is a genus of stinging, wasp-like ants in the subfamily Pseudomyrmecinae. They are large-eyed, slender ants, found mainly in tropical and subtropical regions of the New World.

<i>Vachellia drepanolobium</i> Species of legume

Vachellia drepanolobium, more commonly known as Acacia drepanolobium or whistling thorn, is a swollen-thorn acacia native to East Africa. The whistling thorn grows up to 6 meters tall. It produces a pair of straight spines at each node, some of which have large bulbous bases. These swollen spines are naturally hollow and occupied by any one of several symbiotic ant species. The common name of the plant is derived from the observation that when wind blows over bulbous spines in which ants have made entry and exit holes, they produce a whistling noise.

<span class="mw-page-title-main">Domatium</span> Plant structure

A domatium is a tiny chamber that houses arthropods, produced by a plant.

<i>Bagheera kiplingi</i> Jumping spider from Central America named after Rudyard Kipling

Bagheera kiplingi is a species of jumping spider found in Central America, including Mexico, Costa Rica, and Guatemala. It is the type species of the genus Bagheera, which includes three other species, including B. prosper. B. kiplingi is notable for its peculiar diet, which is mostly herbivorous. No other known species of omnivorous spider has such a markedly herbivorous diet.

<i>Pseudomyrmex ferruginea</i> Species of ant

The acacia ant is a species of ant of the genus Pseudomyrmex. These arboreal, wasp-like ants have an orange-brown body around 3 mm in length and very large eyes. The acacia ant is best known and named for living in symbiosis with the bullhorn acacia throughout Central America.

<i>Tetraponera</i> Genus of ants

Tetraponera is a genus of ants in the subfamily Pseudomyrmecinae that are commonly known as slender ants and are characterized by their arboreal nature and slender bodies. The 96 described species of Tetraponera all of which live in hollow structures of plants and trees, such as thorns or branches; these hosts are known as myrmecophytes. Tetraponera species are closely related to the New World genus of ants Pseudomyrmex, but differ in their relationships with host plants.

<i>Simarouba amara</i> Species of tree in the family Simaroubaceae

Simarouba amara is a species of tree in the family Simaroubaceae, found in the rainforests and savannahs of South and Central America and the Caribbean. It was first described by Aubl. in French Guiana in 1775 and is one of six species of Simarouba. The tree is evergreen, but produces a new set of leaves once a year. It requires relatively high levels of light to grow and grows rapidly in these conditions, but lives for a relatively short time. In Panama, it flowers during the dry season in February and March, whereas in Costa Rica, where there is no dry season it flowers later, between March and July. As the species is dioecious, the trees are either male or female and only produce male or female flowers. The small yellow flowers are thought to be pollinated by insects, the resulting fruits are dispersed by animals including monkeys, birds and fruit-eating bats and the seeds are also dispersed by leaf cutter ants.

<i>Duroia hirsuta</i> Species of flowering plant

Duroia hirsuta is a myrmecophyte tree species from the Amazon Forest. It is one of some 37 species of Duroia, which are shrubs or canopy trees in the family Rubiaceae, favouring ants (myrmecophilous), and occurring in Central America as far north as Mexico, the Amazon Basin, the Guiana Shield, the Brazilian Atlantic coast and planalto.

<i>Triplaris americana</i> Species of tree

Triplaris americana is a species of flowering plant in the knotweed family known by many common names, including ant tree or pau-formiga, guacamayo, guayabo zancón, hormiguero, palo de Santa María, tachí, vara santa, pau-de-novato, formigueiro, taxizeiro, and devil tree. It is native to Central and South America, occurring from Panama to Brazil. It is also cultivated as an ornamental for its showy pink flowers.

Tetraponera penzigi, is a species of ant of the subfamily Pseudomyrmecinae, which can be found in East Africa. It forms an obligate symbiosis with the whistling thorn acacia, a dominant tree in some upland areas of East Africa.

Barteria fistulosa is a species of tree in the family Passifloraceae, native to tropical Central Africa. The tree has an association with an aggressive species of ant with a very painful sting, which lives in its hollow branches and twigs, and gives rise to its common name of "ant tree".

Tetraponera tessmanni is a species of ant in the subfamily Pseudomyrmecinae, which is native to tropical Central Africa, where it inhabits the hollow stems of the liana Vitex thyrsiflora.

References

  1. Zuchowski, Willow (2005). A Guide to the Tropical Plants of Costa Rica. Distribuidores Zona Tropical, S.A: Miami, FL.
  2. Fonseca, Carlos (1999). "Amazonian ant-plant interactions and the nesting space limitation hypothesis". Journal of Tropical Ecology . 15 (6): 807–825. doi:10.1017/S0266467499001194. S2CID   86671402.
  3. Gorbatkin, Chad; Samwick Haynor; Sarah Isbey & Sonia Lei (2007). "The colony architecture of Pseudomyrmex spinicola in the ant-plant Acacia collinsii". Dartmouth Studies in Tropical Ecology: in press.
  4. Wood, William F.; Wood, Brenda J. (2004). "Chemical Released from Host Acacia by Feeding Herbivores is Detected by Symbiotic Acacia-ants". Caribbean Journal of Science. 40: 396–399.
  5. Wood, William F. (2005). "Comparison of mandibular gland volatiles from ants of the bull horn acacia, Acacia collinsii". Biochemical Systematics and Ecology. 33: 651–658. doi:10.1016/j.bse.2004.12.009.