Glossina morsitans

Glossina morsitans is found in Africa and the Arabian Peninsula beneath the Tropic of Cancer. (Lehane M, 1991)

Glossina morsitans can be found in savannah during the wet season, but in the dry season prefers shaded wooded areas. They always remain in the lowlands however, due to their inactivity at temperatures below 18°C. (Askew R, 1971; Lehane M, 1991; Roberts S and Javony L, 2000)

Glossina morsitans is 7.5 to 14 millimeters long and is brownish gray in color. its wings cross like scissors and it has recognizable branched arista on the antennae. Adults have highly specialized mouthparts used to bite and lap up blood. (Askew R, 1971; Roberts S and Javony L, 2000)

Copulation lasts an hour, and after fertilization the embryo is kept within the females uterus. While still in utero, the embryo develops into the first juvenile stage and hatches. The larvae pass through the first, second, and third larval instars on the first, midway through the second, and fifth day respectively. "Milk" glands from the mother's reproductive tract provide nourishment during this time. The adult female must have three blood meals in order to sustain a single progeny.

Larval respiration occurs through a pair of posterior spiracles during the first two instars and then is altered into a two-way respiration system as it moves into the third and final larval instar and prepares for birth. Upon full larval development in the third instar, lasting approximately four days, the female deposits the larva, which is nearly as big as the adult into a suitable environment of loose soil. Once here, the larva has about an hour in which to dig underground. Once under the soil the larva turns black and forms a puparium that hardens over the next four days. Pupae remain underground for about a month. Upon emergence, the adult fly is capable of flight after an hour, and begins to form sclerotized cuticle over the nine day teneral period. (Askew R, 1971; Chapman R, 1998; Lehane M, 1991; Malele I, 1999; Roberts S and Javony L, 2000)

The female tse tse fly is capable of mating within one day of eclosing from the puparium. She produces a pheromone in the waxy cuticle on her wings to attract a mate. Copulation lasts an hour, and after fertilization the embryo is kept within the females uterus. (Askew R, 1971; Chapman R, 1998; Lehane M, 1991; Malele I, 1999; Roberts S and Javony L, 2000)

After fertilization the embryo is kept within the females uterus. The embryo develops into the first juvenile stage, hatches, and begins life outside the egg while still in utero. (Askew R, 1971; Chapman R, 1998; Lehane M, 1991; Malele I, 1999; Roberts S and Javony L, 2000)

Glossina morsitans are diurnal, and only active between the temperatures of 18-32°C. Tse tse flies feed primarily on suids and bovids, but blood from animals as diverse as monitor lizards and hippopotami have been found in their guts. There is no sexual dimorphism in the feeding habits of G. morsitans except that the female must eat more to sustain the large larvae during pregnancy. (Lehane M, 1991; Roberts S and Javony L, 2000)

Glossina morsitans, commonly called the tse tse fly, is solely a daytime feeder which is attracted to moving objects visually, but also has an acute sense of smell. They respond to CO2 produced by the exhalation of animals. Both sexes feed exclusively on blood and produce anticoagulants to prevent clotting. They prefer pig blood, but also feed on livestock, wild game, and humans. (Lehane M, 1991; Roberts S and Javony L, 2000)

Glossina morsitans is the primary vector of Tyrpanosoma brucei, the causative agent of African sleeping sickness in humans. Transmission occurs when a tse tse fly bites an infected animal and contracts the protozoan while feeding off of its blood. The parasite then rapidly moves to the midintestine of the fly and begins to reproduce. From here they move to the fly's salivary glands and remain there to mature. Once in the epimastigote form, they divide and are ready to be transmitted to a mammalian host via saliva injected into the bite. After transmission, trypanosomes cause a local infection called a chancre, and then proceed into the blood stream. From the bloodstream they can infect the brain and spinal fluid where they remain, and cause the degenerative disease. (Smyth J, 1994)

This animal requires no special status.

The tse tse fly is a host to the causeative agent of African Sleeping Sickness and thus has become an important vector of human disease. Antelopes are the natural hosts for the causative agent, Trypanosoma brucei. The presence of the trypanosome within the gut of the fly increases the level of feeding and thus increases the vector potential of the tse tse when infected. (Lehane M, 1991; Roberts S and Javony L, 2000)