Ticks

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Introduction

Deer tick - Scott Bauer

Ticks are ectoparasites which live by haematophagy on the blood of mammals, birds and sometimes reptiles and amphibians. Ticks are of considerable veterinary importance, particularly in warmer climates where they can cause substantial economic losses through decreased productivity and most importantly by disease transmission. They are also important in human medicine as they cause Lyme Disease (borreliosis) and tick-borne encephalitis/meningoencephalitis.

Ticks decrease productivity by causing fleece and hide damage, preventing animals from feeding (tick worry), ascending motor paralysis and anaemia. Infestation can also lead to secondary infection from blowfly and screw worms leading to strike.

The soft ticks are only of importance in warmer climates, whereas the hard ticks cause significant problems in both warmer and temperate climates.

Morphology

Hard ticks

  • Hard, chitinous covering over dorsal surface called the scutum
    • Unique to hard ticks
    • Males have a scutum which covers the entire body surface
    • Females have a scutum which only covers a small area behind the head
  • Prominent biting mouthparts
  • Festoons ('pie crust edging') around the posterior body margins
  • Enamel coloured patches on scutum are present on ornate ticks
  • Female hard ticks may swell up to 3 times their normal size when taking a blood meal

Soft ticks

  • No scutum
  • Mouthparts are not visible from dorsal surface
  • Feed little and often as cannot swell as much as hard ticks

Mouthparts

  • Sensory organs for locating a feeding site called palps
  • Chelicerae for puncturing the skin
  • The hypostome pushes through the wound made by the chelicerae where backwards pointing teeth lock the mouthparts into the skin
    • Dorsal groove in the hypostome permits the flow of tick saliva and host blood

Feeding

Engorged Ixodes scapularis - Thomas Hedden
  • Ticks stand upright
  • Chelicerae cut through skin creating a pool of blood
  • Hypostome is inserted deep into the skin
  • Mouthparts are cemented into place
  • Ticks feed continuously
  • Tick saliva flows into host and contains
    • Histamine blocking agents to minimise the host inflammatory response
    • Anticoagulants to ensure the free flow of blood
    • Cytolysins to enlarge the feeding lesion
    • Vasoactive mediators, enterases and carbohydrate splitting enzymes to increase the vascular permeability, facilitating feeding
    • Paralytic toxins
  • Host tissue is broken down leaving a zone of necrosis creating a feeding lesion

Life cycle

  • Ticks are temporary parasites so only spend a short period of their lives on the host species
  • When larvae are seeking a host they are known as seed ticks
  • Both hard and soft ticks have the same life cycle
    • Egg → larva → nymph → adult
  • Soft ticks feed little and often and on many hosts


Hard ticks

  • Classified depending on the number of host species they parasitise during their life cycle
  • Take one blood meal at each life cycle stage which lasts several days
  • One-host ticks
    • Each stage feeds and develops on one host (the same host)
    • E.g. Boophillus spp.
  • Two-host ticks
    • Larvae and nymphs feed on one host
    • Adults feed on a second host
    • E.g. Hyalomma
  • Three-host ticks
    • Each stage feeds and develops on a different host
    • E.g. Ixodes spp.


Disease transmission

  • Trans-ovarian transmission
    • Infection is passed from one generation of ticks to the next through the egg
    • E.g. Babesia
  • Trans-stadial transmission
    • Parasite or microbial organism is ingested during feeding
    • Organism passed onto the next host as the tick develops (only in two and three host ticks)
    • It is not passed onto the next generation through the egg


Ticks of veterinary importance

Ixodes ricinus mating - Wikimedia Commons

Important UK hard ticks

Ixodes ricinus

  • 3 host tick
  • Life cycle takes an average of 3 years to complete (range of 2-7 years)
  • Only feed for a few days each year at each life cycle stage
  • Most of their time is spent on the ground
  • Adult female lays several thousand eggs on the ground in matted vegetation
    • E.g. Rough pasture, hedgerows etc.

Ixodes canisuga

  • Host specific dog tick
  • Problem in kennels

Ixodes hexagonus

  • Known as the hedgehog tick
  • Affects hedgehogs, dogs, cats, ferrets and weasels
  • Common in small animal practice

Haemaphysalis spp.

  • Affects cattle
  • Transmits Babesia major, a relatively non-pathogenic protozoan parasite
  • Uncommon

Dermacentor spp.

  • Affects sheep
  • Rare


Important overseas hard ticks

Ixodes spp.

Rhipicephalus spp.

  • Warmer climates
  • Causes paralysis in livestock
  • Vectors for diseases such as

Boophilus spp.

  • Warmer climates
  • Vector for Babesia spp.
  • Vectors for the bacteria Anaplasma which affects cattle

Amblyomma spp.

Hyalomma spp.

  • Warmer climates
  • Old World
  • Parasites a wide range of both domestic and wild animals
  • Involved in the spread of Theileria and Babesia spp.
    • E.g. H. aegyptium is a parasite of tortoises in North Africa which has been spread around the world by the pet trade


Important overseas soft ticks

Argas spp.

  • Warmer climates worldwide
  • Mainly an avian parasite but will also attack humans
  • E.g. A. persicus, the poultry tick, contributes to production losses in the poultry industry and also feeds on migratory birds in temperate climates

Ornithodoros spp.

  • Warmer climates worldwide
  • Found in primitive housing and sandy soil
  • Vectors for relapsing fever in humans caused by Borrelia spp.
  • Vectors for African swine fever

Otobius spp.

  • Warmer climates worldwide
  • Inhabits the ears of cats and dogs
  • Also referred to as the 'spinose ear tick'
  • Can predispose animals to secondary myiasis


Control

  • In warmer climates where rainfall is present all year round and there is a constant high relative humidity, tick activity may be constant throughout the year
  • If there is a limited vegetation mat, tick activity will mainly be influenced by seasonal rainfall and the vegetation transpiration
  • In temperate climates there is usually 2 distinct periods of tick activity coinciding with warmer temperatures
    • E.g. spring and autumn
  • Some temperate climates only have 1 distinct period of tick activity in the spring


Control methods

Killing ticks on the ground

  • Altering micro-climate
    • E.g. Pasture improvement
  • Starving (spelling) pasture
    • Only useful if ticks do not feed on other hosts
  • Burning pasture to kill off ticks on the ground

Separate the host from the infection

  • Stock management
    • Removing stock from infected pasture when ticks are most active
  • Fencing off infected areas

Killing ticks on the host

  • Acaricides
  • E.g. Dipping, spraying, pour-on solutions
  • For more information on acaricides see here

Enhancing host resistance

  • Stock hybridisation
    • E.g. Breeding the higher resistant Bos indicus with the less resistant Bos taurus
  • Vaccination against the hidden antigens in the tick's gut


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