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Housefly lesser

Parasitic diseases

Fania canicularis

Fannia canicularis, fly less:

A few species gender Fannia often found breeding in the animal manure and livestock facilities to intensive production. The most common is the housefly and lesser. Fannia canicularis (L.). It is smaller than the housefly popular, because it only measures 5-6 mm in length.

The adult is gray-black, with three black stripes diffuse arranged longitudinally on the back of the chest. The sides of the thorax are of color more clear; the legs are black and the halterios yellow.

The head is gray with stripes front and black sides, gray. The mouthparts of the fly, lesser, are the type esponjan-you-succionante due to its fleshy structure and the method of blending the food before ingestion. This small fly that lives in the poultry farms, their larvae are different from those of a housefly.

The larvae of Fannia canicularis is rough, brown and flattened the back ventrally, the life cycle is slightly longer in comparison to the housefly, and this fly does not tolerate high temperatures, the adults are characterized because their flight is slow and in circles, in addition of that it is typical to observe them circling about the pens or cages.

As in the case of the housefly common, the eyes of the male are almost together (holópticos), while those of the female are more separated (dicópticos).

The antennas are similar to those of the housefly popular, but the edge respective is thin and appears covered with a fine pubescence. The basal part of the abdomen is yellow.

The adults of the species very close Fannia scalaris (Fabr.) you seem to be, but they can be distinguished by the presence of a clear crest in the apical part of the tibia of the second pair of legs. Fannia canicularis lacks of this ridge.

It is known to Fannia scalaris as fly to the latrines for its presence in the toilets.

It is less usual in animal manure.

In these photos James Lindsey at The Ecology of Commanster appreciate other varieties of Fania, as well as the shape of its wings.

Larva fly less:

Fania canicularis. Larval form of the lesser fly.

Larvae of the housefly and lesser are clearly different from the larvae are cylindrical, white and spindle of the housefly common.

The larva of Fannia canicularis It is rough, brown, dorsoventrally flattened, abruptly tapering at the anterior end, and has numerous, well-developed lateral and dorsal spiny projections on each of the segments following the first.

There are a pair of anterior prothoracic spiracles, each with 3–12 short processes arranged radially. The posterior spiracles rise on short, stout stalks. The mandibular hooks are well developed.

The larvae develop in three stages. All the larvae of the species of Fannia The fungi that can be found in animal manure fit this general description; they grow in animal droppings, particularly those of birds.

To distinguish between the various species, it is necessary to examine the lateral processes and other characteristics in detail, especially in the posterior region.

Details of the posterior segments of larvae of Fania

Development, fly less:

Eggs F. canicularis They are white. They hatch in 20–48 hours at 24–27 °C (75–80 °F), and, with a pair of longitudinal dorsal ridges or fins, the larvae take 6 or more days to reach the pupal stage.

The complete life cycle (from egg to adult) lasts 15–30 days, depending on the temperature. At any given temperature, the life cycle is slightly longer than that of the housefly.

Female Fannia canicularis produce a pheromone, (Z)-9-pentacosane, which is slightly attractive to males.

It has been identified as a sex pheromone weaker in Fania femoralis and Fania pusio, el (Z)-11-hentriacontano.

The adults of the housefly child can be recognized by their behavior in the facility of animal production. The adult males fly slowly in a circle and it appears that you are chasing and tend regularly to stay still in the air.

They are often seen circling above animal pens and corridors.

Given that the housefly lesser does not tolerate high temperatures as well as the housefly common in the temperate regions, the number of adults used to go down to the middle of the summer, after having reached a peak of abundance at the beginning of this.

Photographic process of the birth of the fly-Fannia canicularis

Photos Javanerkelens

Head of larva, Fannia canicularis

Rear larva, fannia canicularis

Front and back of fannia

Breaking the pupa

Leaving quickly

Rest of the pupa after birth

A male Fannia canicularis fly hatched.

Videos housefly lesser:

Insect of the order Diptera, genus Fannia, Italian.

Fly-Fannia canicularis

Literature review:

MERCK & CO. (1995). Manual Merck de Veterinaria . Rahway, N. J., EE. UU.

BUXADÉ, P. (1987). The laying hen. Ed. Mundiprensa. Madrid.

DORN, P. (1987). Manual of avian pathology. Ed. Acribia. Zaragoza.

HOFSTAD, M. S. (1984). Diseases of Poultry. Iowa State University Press, Ames, Iowa.

MAURER, VERONIKA. Contrôle des mouches des étables. Service romand de vulgarisation agricole (Agridea, Lausanne), CFPPA Montmorot et FiBL (Research Institute of Organic Agriculture, Switzerland).

LOFTIN, KELLYet al. Fly control for Organic Dairies. Cooperative Extension Service. Division of agriculture. The University of Arkansas.

D ASSIS FONSECA, E. C. M. (1968) Diptera: Muscidae. Royal Entomological Society of London Handbook

ROZKOSNY, R, GREGOR. F., & Pont, BC (1997) The European Fanniidae (Diptera). Brno: Institute of Landscape Ecology. Séguy, E. (1923)

DIPTÉRES:Anthomyides. Paris: Éditions Faune de France

ZARZUELO, E. (1982). Vade mecum of the pathology, infectious poultry. Ed. Aedos, Barcelona.

CASTELLÓ, F and CASTELLÓ, J. A. (1960). The new art of raising chickens. Ed. Aedos, Barcelona.

OROZCO, F. (1989). Breeds of chickens Spanish. Ed. Mundiprensa. Madrid.

LACADENA, J. R. (1998). Genetics. Ed. AGESA

GATES, M. J. (1992). Genetics, fundamentals and perspectives. Ed. Interamericana McGraw – Hill.

SANCHEZ-MONGE, E. (1969), Genetics. Ed. Espasa – calpe SA

OROZCO, F, and ROBLA, F. (1986). Genetic aspects of the cock of a Lion. XXIV Symposium of the WPSA (Spanish Section): 199 – 212.

HILL, J. L. (1973). Genetics, general and applied . Ed. UTEHA.

CASTELLÓ, J. A., LLEONART, R., FIELD, J. L., OROZCO, F. (1989). Biology of the chicken. Real Escuela de Avicultura.

LLEONART, F., ROCA, E. CALLÍS, M. GURRI, A. PONTES, M. (1991). Hygiene and pathology avian . Real escuela de avicultura.

STURKIE, NB (1968). Physiology Of Avian. Ed. Acribia. Zaragoza.

LOHMANN ANIMAL HEAFTH (2012)

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