Poecilobothrus nobilitatus

Last updated

Poecilobothrus nobilitatus
Poecilobothrus.nobilitatus.-.lindsey.jpg
P. nobilitatus
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Diptera
Family: Dolichopodidae
Genus: Poecilobothrus
Species:
P. nobilitatus
Binomial name
Poecilobothrus nobilitatus
(Linnaeus, 1767)
Synonyms

Poecilobothrus nobilitatus or semaphore fly [3] is a species of fly in the highly studied family Dolichopodidae. [4] P. nobilitatus are popular study subjects because they are easy to recognize and are of large size. They mainly reside around ponds and wet lands, where most of their hunting and mating take place. Their mating ritual is highly studied due to their distinctive mate selection behaviors. [5]

Contents

Range

P. nobilitatus has been found in Austria, Belgium, Czech Republic, Denmark, France, Germany, Hungary, Ireland, Italy, Luxembourg, Netherlands, Poland, Romania, Russia, Slovakia, Spain, Sweden, Switzerland, and the UK. [6]

Appearance

Poecilobothrus nobilitatus sitting on leaf Poecilobothrus nobilitatus01.jpg
Poecilobothrus nobilitatus sitting on leaf

Many flies in the Dolichopodidae family have metallic green reflections in their cornea due to the cornea's wavelength-selective spectral reflectance. [5] Their cornea is built like a multi-layered mirror that reduces the transmission of green light to the cornea's light receptors. [5] This results in distinctive green iridescent eyes that many of the flies have.

Sexual dimorphism

The P. nobilitatus species exhibits sexual dimorphism; females and males have distinctive wing markings. [6] Males are usually 7mm long and are smoky black on the distal half of their wings and white on the tips. Their thorax and abdomen are a shiny golden green. [6] Males tend to be bigger than the females and usually have a wing length of 5.7± 0.4mm, whereas females have a wingspan of 5.2± .03mm. [5] The wing spread of males is about 1mm larger than that of similarly sized females. Reproducing males have a larger wingspan length of 6.0±0.3mm [7] compared to randomly caught males that have a wingspan length of 5.7±0.4mm. [5] In the Dolichopodidae family, there is a lot of diversity in the male signaling organs. The differences in the signaling organs can be found on the antennae, all legs, the wings, the cerci, and certain abdominal projections. [5]

Reproductive behaviors

Courtship

Poecilobothrus nobilitatus has one of the most complicated courtships studied by researchers. [6] Courtship for males is focused on a single female, and the presence of other males can strongly affect a female's choice. [5] This can cause courtship to be a mutual choice rather than a combination of successive choices. [5] The length of the courtship display is determined by individual courtship phases, less repetition of the courtship phases, and possible interruption by male competition. [6] For example, in the presence of many females and males, the courting males might delay courtship in favor of time-consuming, male-male interactions. [6] If the female is feeding on prey, the male will court the female for a longer amount of time. [6]

During this courtship males perform an aerial display just for the female they are interested in. The courtship starts with the male doing short intervals of wing waving, and then he hovers in front of the female. [6] This display is then followed by two types of aerial displays, one where the male will make a circle arc around one side of the area and in the second aerial display the male will fly over the females rotating 180 degrees. [6]

Females take no obvious part in the courtship, except to terminate it by flying away. [8] Females prefer to mate with larger males.

Stages of courtship

The courtship has several stages. Mating is initiated when the walking male makes a quick turn to face the female. [6] The male then extends and vibrates his wings. [6] There can be up to 20 wing waving displays, punctuated by rests where the male might take a small side step if the female isn’t moving. [6] After wing waving the male will takeoff and he then hovers for a little in front of the female or starts to display flight. [6]

Male chasing

Male chasing is a part of courtship for the Poecilobothrus nobilitatus species. [9] Males pursue members of both sexes during courtship displays around the edges of ponds. Male Poecilobothrus nobilitatus participate in two types of male chasing. [9] There are "flat out chases" with other males, in which males chase other males using rotation and fast forward flight. [9] There are also less aggressive chasing methods that males do to females for courtship called “shadowing”. [9] They follow the females at a distance of a couple of centimeters doing rotational and lateral movements during flight. [9]

Reproduction

Successful reproduction requires cooperation from the female that has been courted. [5] She has to slightly spread her wings so that copulation can start. [5] Similar to other flies in the Dolichopodidae family, the males' hypopygium is very prominent and movable by an intra-abdominal joint linked with a 180° inversion and the bending of the abdomen to start copulation. [5]

Hunting

P. nobilitatus capturing prey on the water's surface Poecilobothrus nobilitatus (Diptera sp.) male, Maastricht, the Netherlands.jpg
P. nobilitatus capturing prey on the water's surface

P. nobilitatus are considered predators and hunt on the surface of ponds and wetlands. [8] Both males and females settle on the surface of the water, and they do a series of short flights hovering about 3-6 inches over the water. They settle on the water after each flight. [8] Males are more likely to detect possible prey before females, but females are more likely to start feeding on prey before males. [8] In studies, the flies don't seem particularly interested in the food source and only tend to capture the larvae when they are close by.

Food sources

P. nobilitatus' diet consists of small crustaceans, insects, potworms and Culex pipiens larvae. [10] Most of their food sources are found in the water.

Hunting strategy

When the Culex larvae break the water's surface to get air, the P. nobilitatus will attack with its mouth. [8] After a short struggle the larvae will be carried on the wing of the fly and put into the mud where the fly will eat it.

The Poecilobothrus nobilitatus is a popular fly for animal study because of its relatively large size, evident sexual dimorphism in wing markings, and its courtship and hunting displays on a 2-dimensional surface (water), allowing for more accurate and easy studying of the species. [6] Most of the study surrounding Poecilobothrus nobilitatus is filmed and the size and the habitat of the fly makes it easier to study them on film. [5]

Related Research Articles

<span class="mw-page-title-main">Fly</span> Order of insects

Flies are insects of the order Diptera, the name being derived from the Greek δι- di- "two", and πτερόν pteron "wing". Insects of this order use only a single pair of wings to fly, the hindwings having evolved into advanced mechanosensory organs known as halteres, which act as high-speed sensors of rotational movement and allow dipterans to perform advanced aerobatics. Diptera is a large order containing an estimated 1,000,000 species including horse-flies, crane flies, hoverflies, mosquitoes and others, although only about 125,000 species have been described.

<span class="mw-page-title-main">Damselfly</span> Suborder of insects

Damselflies are flying insects of the suborder Zygoptera in the order Odonata. They are similar to dragonflies but are smaller and have slimmer bodies. Most species fold the wings along the body when at rest, unlike dragonflies which hold the wings flat and away from the body. Damselflies have existed since the Jurassic, and are found on every continent except Antarctica.

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

Hoverflies, also called flower flies or syrphids, make up the insect family Syrphidae. As their common name suggests, they are often seen hovering or nectaring at flowers; the adults of many species feed mainly on nectar and pollen, while the larvae (maggots) eat a wide range of foods. In some species, the larvae are saprotrophs, eating decaying plant and animal matter in the soil or in ponds and streams. In other species, the larvae are insectivores and prey on aphids, thrips, and other plant-sucking insects.

<span class="mw-page-title-main">Bombyliidae</span> Family of flies

The Bombyliidae are a family of flies, commonly known as bee flies. Adults generally feed on nectar and pollen, some being important pollinators. Larvae are mostly parasitoids of other insects.

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

Horse-flies and deer flies are true flies in the family Tabanidae in the insect order Diptera. The adults are often large and agile in flight. Only female horseflies bite land vertebrates, including humans, to obtain blood. They prefer to fly in sunlight, avoiding dark and shady areas, and are inactive at night. They are found all over the world except for some islands and the polar regions. Both horse-flies and botflies (Oestridae) are sometimes referred to as gadflies.

<i>Eristalis tenax</i> Species of fly

Eristalis tenax, the common drone fly, is a common, migratory, cosmopolitan species of hover fly. It is the most widely distributed syrphid species in the world, and is known from all regions except the Antarctic. It has been introduced into North America and is widely established. It can be found in gardens and fields in Europe and Australia. It has also been found in the Himalayas.

<span class="mw-page-title-main">Display (zoology)</span> Set of ritualized behaviours in animals

Display behaviour is a set of ritualized behaviours that enable an animal to communicate to other animals about specific stimuli. Such ritualized behaviours can be visual, but many animals depend on a mixture of visual, audio, tactical and chemical signals. Evolution has tailored these stereotyped behaviours to allow animals to communicate both conspecifically and interspecifically which allows for a broader connection in different niches in an ecosystem. It is connected to sexual selection and survival of the species in various ways. Typically, display behaviour is used for courtship between two animals and to signal to the female that a viable male is ready to mate. In other instances, species may make territorial displays, in order to preserve a foraging or hunting territory for its family or group. A third form is exhibited by tournament species in which males will fight in order to gain the 'right' to breed. Animals from a broad range of evolutionary hierarchies avail of display behaviours - from invertebrates such as the simple jumping spider to the more complex vertebrates like the harbour seal.

<span class="mw-page-title-main">Dolichopodidae</span> Family of flies

Dolichopodidae, the long-legged flies, are a large, cosmopolitan family of true flies with more than 7,000 described species in about 230 genera. The genus Dolichopus is the most speciose, with some 600 species.

<span class="mw-page-title-main">Empididae</span> Family of flies

Empididae is a family of flies with over 3,000 described species occurring worldwide in all the biogeographic realms but the majority are found in the Holarctic. They are mainly predatory flies like most of their relatives in the Empidoidea, and exhibit a wide range of forms but are generally small to medium-sized, non-metallic and rather bristly.

<i>Megaloprepus caerulatus</i> Species of damselfly

Megaloprepus caerulatus, also known as the blue-winged helicopter, is a forest giant damselfly of the family Coenagrionidae. Forest giant damselflies were previously recognized as their own family, Pseudostigmatidae. M. caerulatus is found in wet and moist forests in Central and South America. It has the greatest wingspan of any living damselfly or dragonfly, up to 19 centimeters (7.5 inches) in the largest males. Its large size and the markings on its wings make it a conspicuous species; a hovering Megaloprepus has been described as a "pulsating blue-and-white beacon".

<i>Bombylius major</i> Species of fly

Bombylius major is a parasitic bee mimic fly. B. major is the most common type of fly within the Bombylius genus. The fly derives its name from its close resemblance to bumblebees and are often mistaken for them.

Rhagoletis juglandis, also known as the walnut husk fly, is a species of tephritid or fruit fly in the family Tephritidae. It is closely related to the walnut husk maggot Rhagoletis suavis. This species of fly belongs to the R. suavis group, which has a natural history consistent with allopatric speciation. The flies belonging to this group are morphologically distinguishable.

Diptera is an order of winged insects commonly known as flies. Diptera, which are one of the most successful groups of organisms on Earth, are very diverse biologically. None are truly marine but they occupy virtually every terrestrial niche. Many have co-evolved in association with plants and animals. The Diptera are a very significant group in the decomposition and degeneration of plant and animal matter, are instrumental in the breakdown and release of nutrients back into the soil, and whose larvae supplement the diet of higher agrarian organisms. They are also an important component in food chains.

<i>Nothybus</i> Genus of flies

The family Nothybidae contains only the genus Nothybus, a group of colorful and elongated flies. The family has been recently revised.

<i>Rhamphomyia longicauda</i> Species of insect

Rhamphomyia longicauda, the long-tailed dance fly, is a species of fly commonly found in eastern North America that belongs to the family Empididae and part of the superfamily of dance flies Empidoidea. It is included in the subgenus Rhamphomyia. This species of fly is most known for sex role reversal during courtship, as females put on exaggerated displays and congregate in leks to attract males. Females cannot hunt for food, so they receive protein from nuptial gifts brought to them by males. Female dependence on males for nutrition is the principal cause for sex role reversal in this species of fly.

<i>Drosophila silvestris</i> Species of fly

Drosophila silvestris is a large species of fly in the family Drosophilidae that are primarily black with yellow spots. As a rare species of fruit fly endemic to Hawaii, the fly often experiences reproductive isolation. Despite barriers in nature, D. silvestris is able to breed with D. heteroneura to create hybrid flies in the laboratory.

Hirtodrosophila mycetophaga is a fairly large drosophilid fly, with a mean length of 4.0–4.5 mm. It has thus far only been found in Australia. It mates on bracket fungi, preferentially those with a lighter-colored surface in order to enhance mating displays. In addition to these physical displays, flies emit specific sounds in order to attract and ultimately copulate with females.

<i>Tokunagayusurika akamusi</i> Species of fly

Tokunagayusurika akamusi is a midge fly species of the family Chironomidae, commonly called "nonbiting midges" or "lake flies."

Mallophora ruficauda is a species of parasitic robber fly in the family Asilidae, endemic to South and Central America. Like other robber flies, M. ruficauda is known for its aggressive behavior and predation upon other insects, especially bees. M. ruficauda mimics a bumblebee to fool predators into thinking it has a painful sting and is not worth eating.

<span class="mw-page-title-main">Hover (behaviour)</span> Ability of some flying animals and insects

Hovering is the ability exhibited by some winged animals to remain relatively stationary in midair. Usually this involves rapid downward thrusts of the wings to generate upward lift. Sometimes hovering is maintained by flapping or soaring into a headwind; this form of hovering is called "wind hovering", "windhovering", or "kiting".

References

  1. 1 2 Harris, M. (1780). An exposition of English insects. Vol. Decads III, IV. London: Robson Co. pp. 73–99, 100–138, pls. 21-30, 31–40. Retrieved 16 July 2021.
  2. Meigen, J. W. (1824). "Systematische Beschreibung der bekannten europaischen zweiflugeligen Insekten". Vierter Theil. Schulz-Wundermann, Hamm.: xii + 428 pp.
  3. Brighton, Phil. "Semaphore Fly Poecilobothrus nobilitatus". The Dipterists Forum. The Dipterists Forum. Retrieved 24 October 2016.
  4. Yang, D.; Zhu, Y.; Wang, M.; Zhang, L. (2006). World Catalog of Dolichopodidae (Insecta: Diptera). Beijing: China Agricultural University Press. pp. 1–704. ISBN   9787811171020.
  5. 1 2 3 4 5 6 7 8 9 10 11 12 Lunau, Klaus (2006). "Density- and Food-Resource-Dependent Courtship Behaviour in the Fly Poecilobothrus nobilitatus L.". Entomologie Heute (5): 123–132.
  6. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Land, M. F. (1993-11-01). "The visual control of courtship behaviour in the fly Poecilobothrus nobilitatus". Journal of Comparative Physiology A. 173 (5): 595–603. doi:10.1007/BF00197767. ISSN   1432-1351. S2CID   20574727.
  7. Zimmer, Martin; Diestelhorst, Olaf; Lunau, Klaus (2003-07-01). "Courtship in long-legged flies (Diptera: Dolichopodidae): function and evolution of signals". Behavioral Ecology. 14 (4): 526–530. doi: 10.1093/beheco/arg028 . ISSN   1045-2249.
  8. 1 2 3 4 5 Smith, Kenneth G. V.; Empson, D. W. (1955-01-01). "Note on the courtship and predaceous behaviour of Poecilobothrus nobilitatus L. (Dipt. Dolichopodidae)". The British Journal of Animal Behaviour. 3 (1): 32–34. doi:10.1016/S0950-5601(55)80073-1. ISSN   0950-5601.
  9. 1 2 3 4 5 Land, M.F. (November 1993). "Chasing and pursuit in the dolichopodid fly Poecilobothrus nobilitatus". Journal of Comparative Physiology A. 173 (5). doi:10.1007/bf00197768. ISSN   0340-7594. S2CID   26223821.
  10. SATo, Masahiko (October 1991). COMPARATIVE MORPHOLOGY OF THE MOUTHPARTS OF THE FAMILY DOLICHOPODIDAE (DIPTERA). FACULTY OF AGRICULTURE, HOKKAIDO UNIVERSITY. OCLC   677409746.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.