Difference between revisions of "Culicidae"

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[[Image:Aedes aegypti.jpg|thumb|right|150px|''Aeges aegypti'' - Wikimedia Commons]]
 
[[Image:Aedes aegypti.jpg|thumb|right|150px|''Aeges aegypti'' - Wikimedia Commons]]
Members of the Culicidae family are found accross the globe and a attack a wide variety of different species. They holometabola and have four stages to their life cycle; egg, larva, pupa and adult.
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Members of the Culicidae family are found accross the globe and a attack a wide variety of different species. They holometabola and have four stages to their life cycle; egg, larva, pupa and adult. The flies are most active at night and largely feed on necatar, only the females take a blood meal in order to produce eggs. The bites from the female blood feed are painful to the host and can occasionally cause allergic hypersensitivity response. Aside from the pain of the bites Culicidae flies are carriers of a number of other pathogens. Viruses such as arbovirus which causes [[Equine Encephalitis Virus|equine encephalitis]] and [[Myxomatosis|rabbit myxomatosis]]as well as some parasites such as the [[Dirofilaria immitis|canine heartworm]], ''Dirofilaria immitis'' and avian malaria caused by ''Plasmodium''. This transmission of pathogens is the primary health concern attached with Culicidae species and the reason for the requirement to control their levels.
 
The species of greatest veterinary importance are;
 
The species of greatest veterinary importance are;
 
*''Culex''
 
*''Culex''
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The adult fly emerges from the pupa after a number of days and is the only non aquatic stage of the life cycle. Both the male and female are nectar feeders, however in order to provide the nutrients for producing eggs the female must take a blood meal.
 
The adult fly emerges from the pupa after a number of days and is the only non aquatic stage of the life cycle. Both the male and female are nectar feeders, however in order to provide the nutrients for producing eggs the female must take a blood meal.
  
'''Pathogenesis'''
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===Control===
*Most active at night
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The most effective method of control of these species is to remove suitable locations for eggs to be laid. This is acheived by removing objects that collect water and areas of standing water. Alongside this the use of [[Ectoparasiticides|insecticides]] is possible but requires several repeat applications.
  
*Painful, irritating bites
 
**Only females suck blood
 
 
*Transmit human diseases
 
**Viruses such as dengue fever, encephalitis and yellow fever
 
**Parasites such as malaria caused by ''Plasmodium'' and filarial nematodes which cause elephantosis (''Wuchereria and Brugia'')
 
 
*Transmit animal diseases
 
**Viruses such as arbovirus which causes [[Equine Encephalitis Virus|equine encephalitis]] and [[Myxomatosis|rabbit myxomatosis]]
 
**Parasites such as the [[Dirofilaria immitis|canine heartworm]], ''Dirofilaria immitis'' and avian malaria caused by ''Plasmodium''
 
 
 
'''Control'''
 
*Destroy breeding sites by drainage and removal of objects which collect water
 
 
*Repeat applications of [[Ectoparasiticides|insecticides]]
 
 
**Synthetic pyrethroids sprayed from helicopters
 
**Synthetic pyrethroids sprayed from helicopters
 
**Mineral oils applied to breeding sites
 
**Mineral oils applied to breeding sites

Revision as of 16:08, 6 July 2010

Also known as: Mosquitoes
DO NOT CONFUSE WITH Culicoides midges
Aeges aegypti - Wikimedia Commons

Members of the Culicidae family are found accross the globe and a attack a wide variety of different species. They holometabola and have four stages to their life cycle; egg, larva, pupa and adult. The flies are most active at night and largely feed on necatar, only the females take a blood meal in order to produce eggs. The bites from the female blood feed are painful to the host and can occasionally cause allergic hypersensitivity response. Aside from the pain of the bites Culicidae flies are carriers of a number of other pathogens. Viruses such as arbovirus which causes equine encephalitis and rabbit myxomatosisas well as some parasites such as the canine heartworm, Dirofilaria immitis and avian malaria caused by Plasmodium. This transmission of pathogens is the primary health concern attached with Culicidae species and the reason for the requirement to control their levels. The species of greatest veterinary importance are;

  • Culex
  • Aedes
  • Anopheles

Identification

Culicidae flies like all insects have 3 pairs of legs and like all Diptera order flies have only a single set of wings and vestigal set of 'halters'. They are small flies, between 2 and 10mm long with a slender body and legs. They consist of a head, thorax and abdomen and have a forward facing pobosic used for feading that protrudes from the head. The wings of Culicidae flies are narrow and fringed with scales at the rear margins.

Life Cycle

The life cycle of Culicidae flies is holometabolous meaning that they have a number of disticnt morphological states. The initial stages require areas of standing water in which to develop. The life cycle of these flies my take anywhere from two weeks to several months dependant on envirnmental conditrions, principaly the temperature.
Eggs
The eggs of Culicidae flies must be laid on areas of standing water such as buckets or ponds. They are laid either singularly or in rafts.
Larva
The larval stages are aquatic free living stages living close to the surface of standing water and feeding off the algae in the surface layer of the water. They can be seen hanging from the surface but may move deeper into the water if it is disturbed. The larval stage goes through several moults before it pupates.
Pupa
The pupal stage of Culicidae flies is also aquatic and hangs from the surface of standing water.
Adult
The adult fly emerges from the pupa after a number of days and is the only non aquatic stage of the life cycle. Both the male and female are nectar feeders, however in order to provide the nutrients for producing eggs the female must take a blood meal.

Control

The most effective method of control of these species is to remove suitable locations for eggs to be laid. This is acheived by removing objects that collect water and areas of standing water. Alongside this the use of insecticides is possible but requires several repeat applications.

    • Synthetic pyrethroids sprayed from helicopters
    • Mineral oils applied to breeding sites
  • Education
  • Future control methods being developed, such as genetic engineering and biological control methods