Phlebotomus papatasi | |
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Phlebotomus papatasi feeding on human blood | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Class: | Insecta |
Order: | Diptera |
Family: | Psychodidae |
Genus: | Phlebotomus |
Species: | P. papatasi |
Binomial name | |
Phlebotomus papatasi (Scopoli, 1786) | |
Phlebotomus papatasi is a species of insects commonly known as sandflies. Due to their ectothermic climate limitations, P. papatasi are confined to regions with temperatures above sixty degrees Fahrenheit for at least three months of the year, [1] spanning over much of the European Mediterranean, North Africa, the Middle East, and Central Asia. [2] Around one thousand sandfly species have been described, belonging to the subfamily Phlebotominae within the family Psychodidae. [1] The Psychodidae family belongs to the order Diptera within the class Insecta of the subphylum Hexapoda of the Arthropod phylum.
Phlebotomus papatasi are translucent light brown in color, with two large, black compound eyes, six long legs, antennae, pedicel, a transparent abdomen, and a flagellum, totaling the sandfly's size to less than four millimeters in length. Small hairs cover the entire body and wings, which are constantly held at a forty-degree angle. [2] Due to P. papatasi belonging to the Diptera order, they are considered true flies in which the primary flight wings are membraned and the second set of smaller wings are used for balance. [3] The second set of wings are commonly referred to as halteres and they oscillate during flight to maintain the organism's orientation in space. [4] While they can fly, P. papatasi typically stay within a few hundred feet of breeding sites and travel with a mix of flight and hopping motions. [2]
Female adult P. papatasi are blood feeders on many vertebrate hosts and act as vectors for multiple infectious diseases, such as Old World Cutaneous Leishmaniasis and Pappataci fever, both of which will be further explored later in this article.
The exact habitat of P. papatasi at any life stage is unknown; however, many samples are found in protected, dark corners of human and animal dwellings, or in ground level leaf litter amongst nearby vegetation. [5] During the early stages of the sandfly's life cycle, they require slightly different habitats, mostly dependent upon humidity levels. More on this is explained in the life stages section.
Phlebotomus papatasi are endophilic, opportunistic feeders that do not travel far from their dwellings to eat, as they are very weak fliers. [2] Feeding occurs just after dusk until sunrise, with the most activity occurring in summer months, particularly in August. [6] Feeding can happen during the daytime if the sandflies are inside darkened rooms or outside near shaded vegetation. [2] Both male and female P. papatasi feed on plant nectar as adults via their proboscis that extends from their mouthparts. [1] While males are herbivorous or non-feeding, female P. papatasi are also blood feeders which favor animals such as cattle and wild rats, [7] goats, birds, hyraxes, and humans. [8] Female sandflies have scissor-like mouthparts that are used to bite a vertebrate for a blood meal, and oftentimes promote infection dispersal. [1] Unlike mosquitoes, P. papatasi females consume blood using their proboscis to suck up the pool of blood formed from the bite. In exchange for blood, P. papatasi inject their meal with various proteins to increase blood circulation and inhibit platelet aggregation and blood coagulation. [1] This allows the blood to flow faster and not create blood clots and blockages.
The complete life cycle of the P. papatasi fly is typically around six weeks long, although adult males may live for only one week, while adult females live slightly longer. [2] Within cracks in the ground, animal burrows, or leaf litter, male and female P. papatasi undergo a courtship routine before reproduction. [9] The female begins by touching the male on either the antenna or legs, as well as the abdomen to promote male abdominal bending to the left and right, releasing cuticular hydrocarbon sex pheromones. [9] Along with these chemical signals, the potential mates face one another while rubbing their front legs together. The male intermittently flaps his wings throughout this process, and the courtship is accepted when the female briefly flaps her wings in response. [9] At this acceptance, males bend their abdomen towards their head before leaping to contact the female, facing opposite directions to join abdominal tips, allowing sperm release for egg fertilization. [9] The specific location copulation occurs at the female's spermathecae, which has six segments, and is surrounded by secretory cells without pigment. [10] Female P. papatasi may perform this mating process with multiple males per gonadotrophic cycle, resulting in offspring with more favorable characteristics for survival, possibly through post-copulatory sexual selection. [9] It is not uncommon for females to undergo up to three gonadotrophic cycles before the end of their life cycle. [2]
For every gonadotrophic cycle, female P. papatasi lay between 30 and 70 eggs in a protected and dark terrestrial areas with high humidity, such as leaf litter around the base of trees, typically one week after a blood meal. [2] The eggs then incubate for up to twenty days before hatching. [2] The second stage of life occurs in a cooler, moist area with plenty of decomposing organic matter for successful development of four instar larval stages in the span of approximately thirty days. [2] In times of unfavorable conditions, such as over winter, both P. papatasi eggs and instar four larvae can diapause for prolonged periods. [2] The P. papatasi larvae develop into pupae for up to thirteen days before emerging as an adult, typically just before sunrise, with males transforming slightly before females. [2] Once an adult, P. papatasi flies live amongst rock crevices, animal burrows, leaf litter near tree roots, and vegetation near human dwellings, dependent upon the environment's warm temperatures, high humidity, plant nectar, and blood reservoirs. [2]
Phlebotomus papatasi are common vectors of Old World Cutaneous Leishmaniasis (CL). CL is a health problem in 88 countries, particularly the Middle East, European Mediterranean, North Africa, and Central Asia – all hotspots for P. papatasi habitation. [11] While CL can be caused by a multitude of vectors, P. papatasi is incredibly common and hard to prevent due to lack of knowledge on the species habitat. While anyone can be a target, children are often affected as they are more likely to be exposed outside. [12] The infection process begins when a female sandfly bites a vertebrate host, typically humans, and injects promastigotes using their proboscis. Once inside the host, the infectious promastigotes utilize glucose to phagocytize into amastigotes that will undergo mitosis and infect other host cells. [13] For the host, the first sign of infection is simply redness at the sandfly bite site. Over the next few weeks or months, the site of infection will form a papule or an ulcer that will ultimately burst leaving scarring. [11] There is not one particular treatment method, and many times the disease seems to resolve itself spontaneously.
Another common P. papatasi spread health concern is known by many names including Sandfly fever, 3-day fever, and Pappataci fever. Three-day fever was first characterized in the United States when many US soldiers were infected while stationed in North Africa during WWII. [14] This condition results in symptoms such as muscle weakness, joint pains, head and lower back pains, and sudden onset of a high fever over 102 degrees Fahrenheit for 3 to 5 days, with residual body weakness for up to 2 weeks. [14] There is no specific treatment for three-day fever, but patients can be treated for symptomatic relief. [6] To become a vector of Pappataci fever, P. papatasi are infected by biting an infected human or animal between 48 hours before onset of symptoms and 24 hours after the fever has ended. [15] Once the virus has entered the sandfly, it requires up to 10 days to incubate before P. papatasi are completely infected. Unlike in vertebrate hosts, the infection remains in the sandfly body for their entire life, and females can pass the virus onto offspring transovarially, leaving the next generation vectors from the beginning.[ citation needed ]
It is very difficult to prevent the existence of P. papatasi due to much of their habitat location being unknown. Insecticides work to kill them, but determining where to deploy the insecticide in nature is the problem. Typical nets used for other flies such as mosquitoes do not work for P. papatasi protection because the usual 1.2 mm mesh is much too large; however mesh sizes under 0.6 mm may be more successful.[ citation needed ]
Leishmaniasis is a wide array of clinical manifestations caused by parasites of the Trypanosomatida genus Leishmania. It is generally spread through the bite of phlebotomine sandflies, Phlebotomus and Lutzomyia, and occurs most frequently in the tropics and sub-tropics of Africa, Asia, the Americas, and southern Europe. The disease can present in three main ways: cutaneous, mucocutaneous, or visceral. The cutaneous form presents with skin ulcers, while the mucocutaneous form presents with ulcers of the skin, mouth, and nose. The visceral form starts with skin ulcers and later presents with fever, low red blood cell count, and enlarged spleen and liver.
Sandfly or sand fly is a colloquial name for any species or genus of flying, biting, blood-sucking dipteran (fly) encountered in sandy areas. In the United States, sandfly may refer to certain horse flies that are also known as "greenheads", or to members of the family Ceratopogonidae. The bites usually result in a small, intensely itchy bump or welt, the strength of which intensifies over a period of 5-7 days before dissipating. Moderate relief is achieved with varying success through the application of over the counter products such as Benadryl (ingested) or an analgesic cream such as After Bite. Outside the United States, sandfly may refer to members of the subfamily Phlebotominae within the Psychodidae. Biting midges (Ceratopogonidae) are sometimes called sandflies or no-see-ums. New Zealand sandflies are in the genus of sand fly Austrosimulium, a type of black fly.
Lutzomyia is a genus of phlebotomine sand flies consisting of nearly 400 species, at least 33 of which have medical importance as vectors of human disease. Species of the genus Lutzomyia are found only in the New World, distributed in southern areas of the Nearctic and throughout the Neotropical realm. Lutzomyia is one of the two genera of the subfamily Phlebotominae to transmit the Leishmania parasite, with the other being Phlebotomus, found only in the Old World. Lutzomyia sand flies also serve as vectors for the bacterial Carrion's disease and a number of arboviruses.
Phlebotomus is a genus of "sand flies" in the Diptera family Psychodidae. In the past, they have sometimes been considered to belong in a separate family, Phlebotomidae, but this alternative classification has not gained wide acceptance.
Cutaneous leishmaniasis is the most common form of leishmaniasis affecting humans. It is a skin infection caused by a single-celled parasite that is transmitted by the bite of a phlebotomine sand fly. There are about thirty species of Leishmania that may cause cutaneous leishmaniasis.
Phlebovirus is one of twenty genera of the family Phenuiviridae in the order Bunyavirales. The genus contains 66 species. It derives its name from Phlebotominae, the vectors of member species Naples phlebovirus, which is said to be ultimately from the Greek phlebos, meaning "vein". The proper word for "vein" in ancient Greek is however phleps (φλέψ).
The Phlebotominae are a subfamily of the family Psychodidae. In several countries, their common name is sandfly, but that name is also applied to other flies. The Phlebotominae include many genera of blood-feeding (hematophagous) flies, including the primary vectors of leishmaniasis, bartonellosis and pappataci fever. In the New World, leishmaniasis is spread by sand flies in the genus Lutzomyia, which commonly live in caves, where their main hosts are bats. In the Old World, sand flies in the genus Phlebotomus spread leishmaniasis.
A canine vector-borne disease (CVBD) is one of "a group of globally distributed and rapidly spreading illnesses that are caused by a range of pathogens transmitted by arthropods including ticks, fleas, mosquitoes and phlebotomine sandflies." CVBDs are important in the fields of veterinary medicine, animal welfare, and public health. Some CVBDs are of zoonotic concern.
Pappataci fever is a vector-borne febrile arboviral infection caused by three serotypes of Phlebovirus. It occurs in subtropical regions of the Eastern Hemisphere. The name, pappataci fever, comes from the Italian word for sandfly; it is the union of the words pappa and taci (silent), distinguishing these insects from blood-feeding mosquitoes, which produce a typical noise while flying.
Leishmania major is a species of parasite found in the genus Leishmania, and is associated with the disease zoonotic cutaneous leishmaniasis. L. major is an intracellular pathogen which infects the macrophages and dendritic cells of the immune system. Though Leishmania species are found on every continent aside from Antarctica, Leishmania major is found only in the Eastern Hemisphere, specifically in Northern Africa, the Middle East, Northwestern China, and Northwestern India.
Canine leishmaniasis (LEESH-ma-NIGH-ah-sis) is a zoonotic disease caused by Leishmania parasites transmitted by the bite of an infected phlebotomine sandfly. Canine leishmaniasis was first identified in Europe in 1903, and in 1940, 40% of all dogs in Rome were determined to be positive for leishmaniasis. Traditionally thought of as a disease only found near the Mediterranean basin, 2008 research claims new findings are evidence that canine leishmaniasis is currently expanding in continental climate areas of northwestern Italy, far from the recognized disease-endemic areas along the Mediterranean coasts. Cases of leishmaniasis began appearing in North America in 2000, and, as of 2008, Leishmania-positive foxhounds have been reported in 22 U.S. states and two Canadian provinces.
Leishmania tropica is a flagellate parasite and the cause of anthroponotic cutaneous leishmaniasis in humans. This parasite is restricted to Afro-Eurasia and is a common cause of infection in Afghanistan, Iran, Syria, Yemen, Algeria, Morocco, and northern India.
Metofluthrin is a pyrethroid used as an insect repellent. The vapors of metofluthrin are highly effective and capable of repelling up to 97% of mosquitoes in field tests. Metofluthrin is used in a variety of consumer products, called emanators, for indoor and outdoor use. These products produce a vapor that protects an individual or area. Effectiveness is reduced by air movement. Metofluthrin is neurotoxic, and is not meant to be applied directly to human skin.
Robert Killick-Kendrick was a British parasitologist with interests in the vectors of infectious diseases, in particular phlebotomine sandflies. His work on malaria, trypanosomiasis, leishmaniasis and other parasitological infections are numerous and diverse. He published more than 300 articles and scientific contributions.
Lutzomyia shannoni is a species of fly in the subfamily Phlebotominae, the phlebotomine sand flies. It is native to the Americas from the southeastern United States to northern Argentina. It has a disjunct distribution, and is only found in regions with suitable climates, habitat types, and host animals. It is well known as a vector of the vesicular stomatitis virus, which causes the disease vesicular stomatitis in animals, particularly livestock.
Lutzomia anthrophora is a species of what is commonly known as the sandfly in the order Diptera and it is a common vector for Leishmania mexicana.
Many species of flies of the two-winged type, Order Diptera, such as mosquitoes, horse-flies, blow-flies and warble-flies, cause direct parasitic disease to domestic animals, and transmit organisms that cause diseases. These infestations and infections cause distress to companion animals, and in livestock industry the financial costs of these diseases are high. These problems occur wherever domestic animals are reared. This article provides an overview of parasitic flies from a veterinary perspective, with emphasis on the disease-causing relationships between these flies and their host animals. The article is organized following the taxonomic hierarchy of these flies in the phylum Arthropoda, order Insecta. Families and genera of dipteran flies are emphasized rather than many individual species. Disease caused by the feeding activity of the flies is described here under parasitic disease. Disease caused by small pathogenic organisms that pass from the flies to domestic animals is described here under transmitted organisms; prominent examples are provided from the many species.
Lutzomyia longipalpis is a species complex of sandfly belonging to the family Psychodidae. This species is primarily present in Central and South America, but has also appeared in Mexico. There have been reports of L. longipalpis as far south as Argentina, as they are found in a wide variety of ecological conditions. Both males and females feed on sugars from plants and aphids, but only adult females feed on the blood of other mammals. The species has recently begun appearing in urban areas throughout Brazil, and serves as a key vessel for the propagation of the parasite Leishmania infantum. The presence of these flies appears to be strongly correlated to the presence of domestic chickens in Latin America. The first major urban outbreak of the lethal Visceral leishmanias epidemic was detected in Teresina, Piauí State in the early 1980s following a massive planting of acacias.
Phlebotomus argentipes are a species of sandfly in genus Phlebotomus in the Indian subcontinent They are notable as a vector for Leishmania donovani, the parasite which causes leishmaniasis.
María Dora Feliciangeli was Professor of Medical Entomology at the University of Carabobo, Venezuela, who worked on the transmission of tropical parasites especially American trypanosomiasis and leishmaniasis. She was Coordinator of the National Reference Center of Sandflies and the Medical Entomology Section.