Difference between revisions of "Lice"

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**Lipeurus spp. are the most pathogenic
 
**Lipeurus spp. are the most pathogenic
 
***E.g. the 'wing louse' and the 'head louse'
 
***E.g. the 'wing louse' and the 'head louse'
 
+
**Menacanthis spp. are also pathogenic
*Menacanthis spp. are also pathogenic
+
***Lays its eggs in clusters around the [[The Avian Vent and Cloaca - Anatomy & Physiology|cloaca]]
**Lays its eggs in clusters around the [[The Avian Vent and Cloaca - Anatomy & Physiology|cloaca]]
 
  
 
*No sucking lice
 
*No sucking lice

Revision as of 18:02, 28 October 2008



Infectious agents and parasitesWikiBugs Banner.png
INSECTA
PARASITES



Phthiraptera Introduction

Arthropod Classification - copyright nabrown RVC

Lice are obligate ectoparasites of every avian and most mammalian species. They are only a few milimetres long and like fleas, are wingless but unlike fleas are dorsoventally flattened.

Lice are host specific, permanent parasites which cause pediculosis. The louse saliva and faeces contains allergenic substances which causes irritation, rubbing, licking and skin damage to the host which will decrease the host's productivity.

Mammalian lice species have a single pair of claws on the ends of stout legs, whereas avian lice species have a double claw on each leg.

There are two main groups of veterinary importance, the mallophaga (chewing lice) and anoplura (sucking lice).

Mallophaga

Also known as chewing lice or biting lice

  • Broad head
  • Thorax narrower than the head
  • Rasping mouthparts
  • Feeds on epithelial scales, scabs, feathers and other bodily debris
  • Speices occurs on both mammals and birds

Anoplura

Also known as sucking lice

  • Narrow head
  • Thorax wider than the head
  • Powerful legs
  • Piercing mouthparts
  • Feed on blood and tissue fluids
  • Heavy infestations can cause anaemia
  • Species occur only on mammals

Life Cycle

  • The whole life cycle takes 2-3 weeks
  • The lice spends its whole life on the animal
    • But, can survive for one week off the animal
  • In some species parthenogenesis can occur
  • Close contact transmission can occur

1. Eggs

  • Known as nits
  • Cemented to hairs

2. Nymphs

  • Nymphs hatch from the egg (no larval stage)
  • Undergoes several moults

3. Adults

  • Females can lay up to 10 eggs per day

Pediculosis

  • Pediculosis is an infestation of lice
  • Pediculosis in farm animals in most usually seen in winter when the coat is thickest
  • Debilitated animals are often lousy as they cannot groom properly

Cattle

  • One chewing louse
    • Bovicola bovis
  • Several sucking lice
    • E.g. Linognathus vituli
  • Most lice have a preferred predilection site on the body
  • Some lice will gather in clusters
  • Causes ill-thrift, anaemia and can lead to down-graded leather

Sheep

  • One chewing louse
    • Damalinia ovis
  • Two sucking lice
    • Lignognathus spp.
      • The 'foot louse' and the 'face louse'
  • Causes fleece damage

Pigs

  • One sucking louse
    • Haematopinus suis
    • Large 5mm louse which is easily visible on the skin
    • Vector of African swine fever virus and rickettsiae

Horses

  • One chewing louse
    • Damalinia equi
  • One sucking louse
    • Haematopinus asini
  • Mainly in the mane and tail but can spread over the body

Dogs

  • One chewing louse
    • Trichodectes
  • One sucking louse
    • Linognathus setosus
  • Neglect is usually associated with heavy infestations

Cats

  • One chewing louse
    • Felicola

Poultry

  • Several species of chewing lice
    • Lipeurus spp. are the most pathogenic
      • E.g. the 'wing louse' and the 'head louse'
    • Menacanthis spp. are also pathogenic
      • Lays its eggs in clusters around the cloaca
  • No sucking lice

Control

  • Few insecticides will kill lice eggs on the animal
  • Two treatments are needed to kill nymphs emerging from eggs at the time of the initial treatment and those that will emerge 2-3 weeks later
    • At two week intervals
    • Or a product with a two week residual activity can be used

Anopleura lice are more susceptible to systemic insecticide treatment than mallophaga lice

  • Resistance to insecticides may become a problem so alternating the chemicals used and avoiding pour on treatments (which have a greater risk of resistance developing) should be considered