Belonogaster juncea juncea explained

Belonogaster juncea juncea is a subspecies of Belonogaster juncea and is classified as a primitively eusocial wasp, meaning that the species is social while exhibiting a morphology that is indistinguishable from that of other castes.[1] It is also classified as a type of African Paper Wasp. Many of the studies relating specifically to B. j. juncea take place at the University of Yaoundé in Cameroon.[2]

Taxonomy and phylogeny

Johan Christian Fabricius originally discovered and classified Belonogaster juncea juncea in 1781. Belonogaster juncea juncea belongs to the genus Belonogaster which consists of over 80 species of primitively eusocial wasps. In general, the genus is Afrotropical. The genus consists of independent-founding species, meaning that colonies are founded by either one or a few foundresses.[3] Individuals in colonies of various Belonogaster species, such as B. grisea, B. petiolata, and B. j. juncea also tend to display aggressive behavior toward other members of the same colony.

There are two subspecies of Belonogaster juncea: Belonogaster juncea colonials and Belonogaster juncea juncea.

Description and identification

Belonogaster juncea juncea has a gaster that is considerably larger and more bulbous than its petiole, which appears very thin and long. Mesoscutum length is 3.8 mm ± 0.2 mm in dominant individuals and 3.6 mm ± 0.5 mm in subordinate individuals, while petiole length is 6.9 mm ± 0.4 mm in dominant individuals and 6.6 mm ± 0.5 mm in subordinate individuals. It also has somewhat lengthy antennae and typically exhibits a black/dark red color. Along with an increased size, a dominant female in a B. j. juncea colony can be identified by abdominal wiggling behavior, as subordinate females and other males or workers do not exhibit this sort of behavior.[4]

Distribution and habitat

Belonogaster juncea juncea has been sighted primarily in Africa and in various parts of Asia such as Saudi Arabia and India. They also are found in both tropical and temperate climates. B. j. juncea will colonize on buildings with great frequency, as evidenced by the fact that multiple studies have been conducted on colonies found in overhangs and roofs of the buildings of the University of Yaoundé in Cameroon, Africa.[5] Some nests have also been found on large boulders. Their nests are made of paper, as they are a type of African Paper Wasp, and they contain a single comb. Typically, colonies consist of no more than 20 individuals.[6]

Colony cycles

Colony foundation occurs throughout the year, independent of the seasons, and has an average cycle time of roughly seven months.[7] Two phases make up the colony cycle: the pre-emergence phase and the post-emergence phase.

Pre-emergence phase

The pre-emergence phase is the time between the founding of the nest by one or multiple foundresses and the emergence of the first adult. During this phase, labor begins to become divided between dominant and subordinate individuals. For instance, dominant individuals will spend much of their time resting and building the cells in the colony, while subordinate individuals will spend time outside or on the edge of the nest. The pre-emergence phase is typically just over 71 days long and is divided into three portions:

Post-emergence phase

The post-emergence phase is the time between the emergence of the first adult and the abandonment of the colony, and reproductive episodes usually occur during this phase as well. Females typically emerge first, meaning that the initiation of the post-emergence phase coincides with the appearance of the first female. Males begin to emerge after females, but any female that happens to emerge with these males are considered to be worker females.

Between 77 and 196 days after the foundation of the colony, the initial dominant female will abandon the colony. This is followed by an increase in fighting behavior as other females will fight with each other to be the most dominant individual. The losing females will either remain in the colony as subordinates or leave the nest and start a new colony; either way, in many cases, the original nest is completely abandoned by the end of seven months.

Behavior

Studies have shown that B. j. juncea exhibit thirty-nine different types of behavior. These different behaviors fall into five different categories, with some overlap, and these categories are: foraging, building, feeding, inactivity, and reproduction. Some of the behaviors that fall into these five categories include:

The frequency with which these behaviors occur and the way in which the behaviors are carried out also differs between colonies that are in the pre-emergence phase and those that are in the post-emergence phase.

Dominance and subordination acts

B. j. juncea individuals will also exhibit acts of behavior towards other individuals, and these acts are classified as either dominance acts or subordination acts. Dominance acts include:

Dominant females will also be the only ones laying eggs.

Individuals who ultimately succumb to the dominance of another will then exhibit acts of subordination, which include:

Dominance hierarchies

Dominance exists in a hierarchy within colonies of Belonogaster juncea juncea, and the "dominance rank" of a particular individual may largely determine which of the five behavioral categories comprises the majority of an individual's behavior. For example, the most dominant individual will spend most of its time on reproductive behavior and inactive nest behavior. The amount of time that individuals will spend on building the nest and especially foraging activity will increase as one moves down the hierarchy. Because of this, it is possible to deduce the rank of an individual based on the amount of time spent in the nest versus foraging for food.

Dominant females, along with being the largest individual in the nest, also exhibit the most well-developed ovaries, which may indicate that they are the ones who reproduce. Subordinate individuals have thread-like ovaries, with oocytes that are not fully developed.

Hierarchy structure and stability

The results of the Appleby Test, which measures the "dominance index" of a particular individual, determine that the hierarchy in B. j. juncea is linear, meaning that dominant individuals are distinct from subordinates of lower and lower ranks. It has also been noted that most of the time, an individual will more frequently perform dominance acts on individuals of a rank that is immediately below theirs versus individuals that are several ranks below theirs, but occasionally, the most dominant individual (i.e. the α individual) will perform dominance acts on other individuals that are many ranks below them.

The hierarchy is also stable. A dominant female usually emerges in a colony within two days of its founding, and it typically remains dominant until it abandons the colony or dies. When this occurs, dominance acts occur much more frequently within the colony as the replacement female vies for dominance. Falling fights are most frequently observed during this time. Also, because falling fights do not regularly occur during queen replacement in other species of Belonogaster, such as B. grisea or B. petiolata, B. j. juncea dominance hierarchy establishment is considered to be more severe when compared to other members of the genus.

Kin selection

Immature brood recognition

Belonogaster juncea juncea have the ability to recognize their own immature brood and differentiate it from those of other, alien females. They most likely are able to do this through the use of odors and scents that are unique and characteristic to their own brood. Typically, only one female in the nest is responsible for this brood recognition.[9]

Foundress size and colony success

Colonies of Belonogaster juncea juncea can be haplometrotic or pleometrotic, meaning that they are founded by one or several (usually two to eight) foundresses, respectively. Generally, pleometrotic colonies are more successful than haplometrotic colonies; pleometrotic colonies display increased total colony productivity and increased probability that an adult is produced when compared to haplometrotic colonies. Pleometrotic colonies are favored over haplometric colonies because ecological constraints on B. j. juncea are quite high, so the cost of a female attempting to found her own colony are typically greater than the costs of either joining an existing colony as a subordinate or even usurping an existing colony.

Co-foundresses

Co-foundresses are types of foundress females that, while they do not take part in initiating the nest, join a colony upon its initiation by the initial foundress. These females that were associated with each other came from the same nest approximately 86.7% of the time, which suggests that co-foundress relatedness is high. There is also a directly proportional relationship between colony survivability and number of foundresses, as it is much more common for pleometrotic colonies with co-foundresses to reach the stage where reproduction occurs than it is for haplometrotic colonies.

Nest usurpation

Rarely, a foreign female B. j. juncea will invade a colony and take the place of its dominant female. The invader will then eat the eggs already present in the nest and will destroy many of the existing cells. This act of usurpation has been observed primarily in the pre-emergence stages of colonies, specifically during the egg sub-phase and the pupal sub-phase. Usurpation most likely occurs when the costs to a female of founding a new nest are greater than the costs of usurping another, already existing nest. This process has only been effective on pleometrotic colonies in which at least one of the original foundresses remains in the colony after it is usurped, and this is most likely because if a usurper were to invade a haplometrotic colony, the original foundress could quickly abandon the nest, leaving it very prone to failure. It is hypothesized that this behavior is not very common due to the high degree of relatedness among foundresses and because the presence of multiple foundresses strengthens communal defense mechanisms that would keep the usurper out.

Serial polygyny

Occasionally, instead of completely abandoning the nest after seven months, a female may remain in the same nest and start another colony cycle. This female effectively replaces the previously dominant female as the most dominant individual in the nest, since the dominant female left before the original cycle ended. This succession of queens in the same nest is known as serial polygyny. This is not a very common occurrence when compared to complete nest abandonment, and in the periods between queens, egg and larvae quantity decreased as a result of no care being provided to them.

Interactions with other species

Diet

Belonogaster juncea juncea will typically feed and provide food to their larvae in the forms of either liquid matter or prey.[10] Liquid matter primarily consists of honeydew and nectar from various species of plants. In order to obtain this liquid manner, they exhibit a relationship with Aleyrodidae (whiteflies) and can parasitize the various trees or leaves in order to extract fluids. Their prey includes various species of insects such as caterpillars, winged ants, and grasshoppers.

Predators and parasitism

Various species of ants, praying mantises, spiders, and sphecids have been known to attack nests of B. j. juncea. However, when foundresses choose a nesting site, they typically choose places where predators cannot easily reach them, such as sides of buildings and stone rocks. Because of this, attacks on their nests are rare. B. j. juncea is also parasitized by Anacamtomyia, a type of tachinid parasite. This parasitism and infestation of B. j. juncea nests often plays a role in nest abandonment.

Human importance

Traditional medicine

In certain African regions, especially Nigeria, B. j. juncea and other wasps of the genus Belonogaster are used in traditional forms of medicine. They are said to heal sicknesses in children if the whole wasp is cooked with the roots of plants and then later consumed. They are also occasionally used for various ceremonial purposes.[11]

External links

Notes and References

  1. Tindo. M.. Dejean. A.. Behavioural roles and task partitioning in the primitively eusocial wasp: Belonogaster juncea juncea (Hymenoptera: Vespidae). Behavioural Processes . 1997. 41. 2. 201–210. 10.1016/s0376-6357(97)00049-1. 24896676 .
  2. Tindo. M.. Kenne. M.. Orivel. J.. Dejean. A.. Morphological and physiological correlates of the colony foundation mode and reproductive role differentiation in Belonogaster juncea juncea (Vespidae, Polistinae) . Insectes Sociaux. 2007. 54. 2. 154–157. 10.1007/s00040-007-0925-x.
  3. Tindo. M.. D’Agostino. P.. Francescato. E.. Dejean. A.. Turillazzi. S.. Associative colony foundation in the tropical wasp Belonogaster juncea juncea (Vespidae, Polistinae) . Insectes Sociaux . 1997. 44. 4. 365–377. 10.1007/s000400050058.
  4. Tindo. Maurice. Dejan. Alain. Behavioral Profiles Related to Dominance Hierarchy in Associated Foundresses of Belonogaster juncea juncea (F.) (Hymenoptera: Vespidae) . Journal of Insect Behavior . 1998. 11. 6. 845–852. 10.1023/A:1020812127003.
  5. Tindo. Maurice. Keene. Martin. Dejean. Alain. Advantages of multiple foundress colonies in Belonogaster juncea juncea L.: greater survival and increased productivity . Ecological Entomology. 2008. 33. 2. 293–297. 10.1111/j.1365-2311.2007.00966.x. 2008EcoEn..33..293T .
  6. Dejean. A.. Turillazzi. S.. Territoriality during trophobiosis between wasps and homopterans. Tropical Zoology. 1992. 5. 2. 237–247. 10.1080/03946975.1992.10539196. free. 1992TrZoo...5..237D .
  7. Tindo. Maurice. Mony. Ruth. Dejean. Alain. Colony Development and Serial Polygyny in the Primitively Eusocial Wasp Belonogaster juncea juncea (Vespidae: Polistinae) . Journal of Insect Behavior . 2002. 15. 2. 243–252. 10.1023/A:1015489017927.
  8. Tindo. M.. Dejean. A.. Dominance hierarchy in colonies of Belonogaster juncea juncea (Vespidae, Polistinae). Insectes Sociaux . 2000. 47. 2. 158–263. 10.1007/pl00001695.
  9. Tindo. M.. Dejean. A.. Francescato. E.. Turillazzi. S.. Nest and brood recognition in Belonogaster juncea juncea (Hymenoptera Vespidae). Ethology Ecology & Evolution. 1994. 6. 1. 10.1080/03949370.1994.10721973. 53–56. 1994EtEcE...6S..53F .
  10. Tindo. M.. Dejean. A.. Rhythm of Activity and Feeding-Behavior of Belonogaster juncea juncea (Hymenoptera, Vespidae) . Sociobiology . 1998. 32. 1. 101–107. 22 September 2014.
  11. O. A. Lawal and A. D. Banjo, 2007. Survey for the Usage of Arthropods in Traditional Medicine in Southwestern Nigeria. Journal of Entomology, 4: 104–112.