Diachasmimorpha longicaudata

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Diachasmimorpha longicaudata
Parasitoid wasp (51207217381).jpg
Female D. longicaudata
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Braconidae
Genus: Diachasmimorpha
Species:
D. longicaudata
Binomial name
Diachasmimorpha longicaudata
(Ashmead, 1905)

Diachasmimorpha longicaudata is a solitary species of parasitoid wasp and an endoparasitoid of tephritid fruit fly larvae. D. longicaudata is native to many countries in Southeast Asia and subtropical regions and has also been introduced to many other countries as a biological control agent. It is now considered the most extensively used parasitoid for biocontrol of fruit flies in both the southern portion of the United States and Latin America. [1] D. longicaudata is especially useful for agricultural purposes in the control of fruit flies as it is easily mass-reared and has the ability to infect a variety of hosts within the genus Bactrocera . [2] A negative factor in its use as a biocontrol agent is that it is known to oviposit in grapefruit in the state of Florida. This has resulted in quarantines on grapefruit shipped internationally as well as domestically. [3] Research is ongoing to determine whether D. longicaudata is actually a single species, or if it contains multiple species. It is likely multiple biological species separated by both reproductive isolation and morphological characteristics such as wing geometry. [4]

Contents

Distribution

Diachasmimorpha longicaudata originated in the Indo-pacific region of Asia. [2] D. longicaudata has been disseminated into countries in the Americas including United States, Colombia, Costa Rica, Guatemala, El Salvador, Nicaragua, and Trinidad, and Brazil. [1] There are stable colonies in Hawaii and Florida in the United States.

Morphology

The genus Diachasmimorpha has traditionally been defined by the morphology of their apically sinuate ovipositor. [5] D.longicaudata has a body length of between 2.8 and 5.4 mm. The adult male is smaller than the female with a body length of up to 4.0 mm. The body is a reddish-brown color and antennae are longer than the body. Wings are clear. Females have a long ovipositor. The gaster of males and females differs slightly with the female having a dorsal central black band while the gaster of the male has a dark brown to black dorsal posterior. [6]

Three cryptic species have been identified within D. longicaudata based on genetic analysis and geometric differences in wing venation. [4] In forced-contact mating between the three cryptic species reproduction was rare and resulted in sterile female offspring. Subspecies have also been reported based on differing geographical areas with high variation being associated variation of resources. [4] As many as five subspecies have previously been identified around the world and have been primarily characterized by color. [2]

Life cycle

The host organism of Diachasmimorpha longicaudata. Tephritid fruit flies. Pictured is Tephritis formosa. Tephrid or Picture-winged Fly. Tephritis formosa. - Flickr - gailhampshire (1).jpg
The host organism of Diachasmimorpha longicaudata. Tephritid fruit flies. Pictured is Tephritis formosa.

Both males and females are solitary. Third instar tephritid fruit fly larvae are the typical hosts. [7] Female adults of D. longicaudata are attracted to fermenting fruit and then are able to find larvae by sound. Females lay 13-24 eggs per day using her elongated ovipositor to reach the fly larvae. Typically only one egg is laid per instar larvae with exceptions when hosts are insufficient; however only one pupa will reach maturity. [7] Eggs take between two and five days to hatch and will take 18–23 days to reach adulthood. [6] Male parasitoids develop faster than female, emerging two to three days before females from their host. [7]

Symbiotic virus

Diachasmimorpha longicaudata entomopoxvirus (DlEPV) is a notable symbiotic virus that affects Diachasmimorpha longicaudata. DlEPV has a double-stranded DNA genome of 250–300 kb A-T rich with more than 60 of the genome being A-T. [8]

During oviposition, the parasitic wasp infects tephritid fruit fly with DlEPV as well as rhabdovirus (DlRhV). Both DlEPV and DlRhV replicate within the epidermal cells of their new host. These viruses are found within the adult wasps and retained in subsequent generations. [9] This is the first symbiotic EPV described to date from a parasitic wasp. [8]

Related Research Articles

<span class="mw-page-title-main">Parasitoid</span> Organism that lives with its host and kills it

In evolutionary ecology, a parasitoid is an organism that lives in close association with its host at the host's expense, eventually resulting in the death of the host. Parasitoidism is one of six major evolutionary strategies within parasitism, distinguished by the fatal prognosis for the host, which makes the strategy close to predation.

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

The Tachinidae are a large and variable family of true flies within the insect order Diptera, with more than 8,200 known species and many more to be discovered. Over 1,300 species have been described in North America alone. Insects in this family commonly are called tachinid flies or simply tachinids. As far as is known, they all are protelean parasitoids, or occasionally parasites, of arthropods, usually other insects. The family is known from many habitats in all zoogeographical regions and is especially diverse in South America.

<span class="mw-page-title-main">Apocrita</span> Suborder of insects containing wasps, bees, and ants

Apocrita is a suborder of insects in the order Hymenoptera. It includes wasps, bees, and ants, and consists of many families. It contains the most advanced hymenopterans and is distinguished from Symphyta by the narrow "waist" (petiole) formed between the first two segments of the actual abdomen; the first abdominal segment is fused to the thorax, and is called the propodeum. Therefore, it is general practice, when discussing the body of an apocritan in a technical sense, to refer to the mesosoma and metasoma rather than the "thorax" and "abdomen", respectively. The evolution of a constricted waist was an important adaption for the parasitoid lifestyle of the ancestral apocritan, allowing more maneuverability of the female's ovipositor. The ovipositor either extends freely or is retracted, and may be developed into a stinger for both defense and paralyzing prey. Larvae are legless and blind, and either feed inside a host or in a nest cell provisioned by their mothers.

<span class="mw-page-title-main">Apple maggot</span> Species of fly

The apple maggot, also known as the railroad worm, is a species of fruit fly, and a pest of several types of fruits, especially apples. This species evolved about 150 years ago through a sympatric shift from the native host hawthorn to the domesticated apple species Malus domestica in the northeastern United States. This fly is believed to have been accidentally spread to the western United States from the endemic eastern United States region through contaminated apples at multiple points throughout the 20th century. The apple maggot uses Batesian mimicry as a method of defense, with coloration resembling that of the forelegs and pedipalps of a jumping spider.

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

The Tephritidae are one of two fly families referred to as fruit flies, the other family being the Drosophilidae. The family Tephritidae does not include the biological model organisms of the genus Drosophila, which is often called the "common fruit fly". Nearly 5,000 described species of tephritid fruit fly are categorized in almost 500 genera of the Tephritidae. Description, recategorization, and genetic analyses are constantly changing the taxonomy of this family. To distinguish them from the Drosophilidae, the Tephritidae are sometimes called peacock flies, in reference to their elaborate and colorful markings. The name comes from the Greek τεφρος, tephros, meaning "ash grey". They are found in all the biogeographic realms.

<span class="mw-page-title-main">Braconidae</span> Family of wasps

The Braconidae are a family of parasitoid wasps. After the closely related Ichneumonidae, braconids make up the second-largest family in the order Hymenoptera, with about 17,000 recognized species and many thousands more undescribed. One analysis estimated a total between 30,000 and 50,000, and another provided a narrower estimate between 42,000 and 43,000 species.

Rose apple may refer to:

<span class="mw-page-title-main">Parasitoid wasp</span> Group of wasps

Parasitoid wasps are a large group of hymenopteran superfamilies, with all but the wood wasps (Orussoidea) being in the wasp-waisted Apocrita. As parasitoids, they lay their eggs on or in the bodies of other arthropods, sooner or later causing the death of these hosts. Different species specialise in hosts from different insect orders, most often Lepidoptera, though some select beetles, flies, or bugs; the spider wasps (Pompilidae) exclusively attack spiders.

<i>Nasonia</i> Genus of wasps

Nasonia are a genus of small pteromalid parasitoid wasps that sting and lay eggs in the pupae of various flies. The fly species that Nasonia usually parasitize are primarily blow flies and flesh flies, making Nasonia a useful tool for biocontrol of these pest flies. The small match-head sized wasps are also referred to as jewel wasps based on the emerald sheen of their exoskeleton.

<i>Habrobracon hebetor</i> Species of wasp

Habrobracon hebetor is a minute wasp of the family Braconidae that is an ectoparasitoid of several species of moth caterpillars. Well known hosts include the larval stage of Plodia interpunctella, the Indianmeal moth, the late larval stage of the Mediterranean flour moth and the almond moth, and the dried fruit moth. This parasitoid has been used commercially as a way to control pests without using chemical insecticides.

<span class="mw-page-title-main">Wasp</span> Group of insects

A wasp is any insect of the narrow-waisted suborder Apocrita of the order Hymenoptera which is neither a bee nor an ant; this excludes the broad-waisted sawflies (Symphyta), which look somewhat like wasps, but are in a separate suborder. The wasps do not constitute a clade, a complete natural group with a single ancestor, as bees and ants are deeply nested within the wasps, having evolved from wasp ancestors. Wasps that are members of the clade Aculeata can sting their prey.

<i>Anastrepha ludens</i> Species of fly

Anastrepha ludens, the Mexican fruit fly or Mexfly, is a species of fly of the Anastrepha genus in the Tephritidae family. It is closely related to the Caribbean fruit fly Anastrepha suspensa, and the papaya fruit fly Anastrepha curvicauda.

<i>Spathius agrili</i> Species of wasp

Spathius agrili is a parasitic non-stinging wasp of family Braconidae which is native to North Asia. It is a parasitoid of the emerald ash borer, an invasive species which has destroyed tens of millions of ash trees in its introduced range in North America. As part of the campaign against the emerald ash borer (EAB), American scientists in conjunction with the Chinese Academy of Forestry began searching in 2003 for its natural enemies in the wild, leading to the discovery of several parasitoid wasp species, including Spathius agrili. S. agrili was discovered in Tianjin, China where it is a prevalent parasitoid of EAB larvae in stands of an introduced ash species, and an endemic ash species. S. agrili has been recorded to attack and kill up to 90 percent of EAB larvae.

<i>Dinocampus coccinellae</i> Species of insect

Dinocampus coccinellae is a braconid wasp parasite of coccinellid beetles, including the spotted lady beetle, Coleomegilla maculata. D. coccinellae has been described as turning its ladybird host into a temporary "zombie" guarding the wasp cocoon. About 25% of Coleomegilla maculata recover after the cocoon they are guarding matures, although the proportion of other ladybird species which recover is much lower.

<i>Cotesia glomerata</i> Species of wasp

Cotesia glomerata, the white butterfly parasite, is a small parasitoid wasp belonging to family Braconidae. It was described by Carl Linnaeus in his 1758 publication 10th edition of Systema Naturae.

<i>Anastrepha suspensa</i> Species of fly

Anastrepha suspensa, known as the Caribbean fruit fly, the Greater Antillean fruit fly, guava fruit fly, or the Caribfly, is a species of tephritid fruit fly. As the names suggest, these flies feed on and develop in a variety of fruits, primarily in the Caribbean. They mainly infest mature to overripe fruits. While thought to have originated in Cuba, the Caribbean fruit fly can now also be found in Florida, Hispaniola, and Puerto Rico.

Cotesia rubecula is a parasitoid wasp from the large wasp family Braconidae.

Diachasmimorpha is a genus of the Opiinae subfamily of braconid parasitoid wasps and was first described in 1913. It is a small genus relatively restricted to the subtropics but also includes species in the Nearctic and northern Neotropical Regions. The genus is most clearly defined by an apical sinuate ovipositor, which is a synapomorphic character and defines a monophyletic lineage.

<i>Lysiphlebus testaceipes</i> Species of wasp

Lysiphlebus testaceipes is a species of small braconid parasitoid wasp in the subfamily Aphidiinae. L. testaceipes can utilize numerous species of aphids as hosts and has often been used as a biological control agent against aphid pests. It is considered an invasive species in several European countries.

<i>Anastrepha fraterculus</i> South American fruit fly

Anastrepha fraterculus, known as the South American fruit fly, is a fruit fly species from the genus Anastrepha. A. fraterculus is a polyphagous, frugivorous fly that is a significant pest of commercial fruit production in South America.

References

  1. 1 2 Schliserman, Pablo; Ovruski, Sergio M.; De Coll, Olga R. (2003-12-01). "The establishment of diachasmimorpha longicaudata (hymenoptera: braconidae) in misiones, northeastern argentina". Florida Entomologist. 86 (4): 491–492. doi: 10.1653/0015-4040(2003)086[0491:TEODLH]2.0.CO;2 . hdl: 11336/45683 . ISSN   0015-4040.
  2. 1 2 3 Kitthawee, Sangvorn; Dujardin, Jean-Pierre (2016-09-01). "The Diachasmimorpha longicaudata complex in Thailand discriminated by its wing venation". Zoomorphology. 135 (3): 323–332. doi:10.1007/s00435-016-0307-x. ISSN   0720-213X. S2CID   253983095.
  3. Ashley, T. R.; Chambers, D. L. (1979-12-01). "Effects of parasite density and host availability on progeny production byBiosteres (Opius) longicaudatus, [Hym.: Braconidae], a parasite ofAnastrepha suspensa [Dip.: Tephritidae]". Entomophaga. 24 (4): 363–369. doi:10.1007/BF02374175. ISSN   0013-8959. S2CID   20226816.
  4. 1 2 3 Kitthawee, Sangvorn; Dujardin, Jean-Pierre (2009-10-01). "The Diachasmimorpha longicaudata complex: Reproductive isolation and geometric patterns of the wing". Biological Control. 51 (1): 191–197. doi:10.1016/j.biocontrol.2009.06.011.
  5. "Changes in nomenclature and classification of some opiine Braconidae (Hymenoptera)". Proceedings of the Entomological Society of Washington. 89 (1). 1987. ISSN   0013-8797.
  6. 1 2 "a parasitoid wasp - Diachasmimorpha longicaudata (Ashmead)". entnemdept.ufl.edu. Retrieved 2017-11-16.
  7. 1 2 3 Paladino, Leonela Zusel Carabajal; Papeschi, Alba Graciela; Cladera, Jorge Luis (2010-01-01). "Immature Stages of Development in the Parasitoid Wasp,Diachasmimorpha longicaudata". Journal of Insect Science. 10 (56): 56. doi:10.1673/031.010.5601. PMC   3014816 . PMID   20569133.
  8. 1 2 Mwaengo, D. M.; Lawrence, P. O. (2003-06-01). "A putative DNA helicase and novel oligoribonuclease in the Diachasmimorpha longicaudata entomopoxvirus (DlEPV)". Archives of Virology. 148 (7): 1431–1444. doi:10.1007/s00705-002-0975-3. ISSN   0304-8608. PMID   12827471. S2CID   2671807.
  9. Lawrence, Pauline O.; Matos, Luis F. (2005-02-01). "Transmission of the Diachasmimorpha longicaudata rhabdovirus (DlRhV) to wasp offspring: an ultrastructural analysis". Journal of Insect Physiology. Non-poly-DNA viruses, their parasitic wasps and hosts. 51 (2): 235–241. doi:10.1016/j.jinsphys.2005.01.002. PMID   15749107.