Ticks of domestic animals directly cause poor health and loss of production to their hosts. Ticks also transmit numerous kinds of viruses, bacteria, and protozoa between domestic animals. These microbes cause diseases which can be severely debilitating or fatal to domestic animals, and may also affect humans. Ticks are especially important to domestic animals in tropical and subtropical countries, where the warm climate enables many species to flourish. Also, the large populations of wild animals in warm countries provide a reservoir of ticks and infective microbes that spread to domestic animals. Farmers of livestock animals use many methods to control ticks, and related treatments are used to reduce infestation of companion animals.

Variety of ticks affecting domestic animals

Ticks are invertebrate animals in the phylum

Arthropoda Arthropods (, (gen. ποδός)) are invertebrate animals with an exoskeleton, a segmented body, and paired jointed appendages. Arthropods form the phylum Arthropoda. They are distinguished by their jointed limbs and cuticle made of chitin ...

, and are related to spiders. Ticks are in the subclass

Acari Mites are small arachnids (eight-legged arthropods). Mites span two large orders of arachnids, the Acariformes and the Parasitiformes, which were historically grouped together in the subclass Acari, but genetic analysis does not show clear evid ...

, which consists of many orders of mites and one

tick Ticks (order Ixodida) are parasitic arachnids that are part of the mite superorder Parasitiformes. Adult ticks are approximately 3 to 5 mm in length depending on age, sex, species, and "fullness". Ticks are external parasites, living ...

order, the Ixodida. Some mites are parasitic, but all ticks are parasitic feeders. Ticks pierce the skin of their hosts with specialized mouthparts to suck blood, and they survive exclusively by this obligate method of feeding. Some species of mites may be mistaken for larval ticks at infestations on animal hosts, but their feeding mechanisms are distinctive. All ticks have an incomplete metamorphosis: after hatching from the egg, a series of similar stages (instars) develops from a six-legged larva, to eight-legged nymph, and then a sexually developed, eight-legged adult. Between each stage is a molt (ecdysis), which enables the developing tick to expand within a new external skeleton. Ticks are grouped in three families, of which two have genera of importance to domestic animals, as follows.Sonenshine, D.E. (1993), ''Biology of ticks'' (vol 1). Oxford University Press, New York. The family

Argasidae The Argasidae are the family of soft ticks, one of the three families of ticks. The family contains 193 species, although the composition of the genera is less certain, and more study is needed before the genera can become stable. The currently ...

contains the important genera ''Argas'', ''Ornithodoros'', and ''Otobius''. These genera are known as soft ticks because their outer body surfaces lack hard plates. The family

Ixodidae The Ixodidae are the family of hard ticks or scale ticks, one of the three families of ticks, consisting of over 700 species. They are known as 'hard ticks' because they have a scutum or hard shield, which the other major family of ticks, the 'sof ...

contains 14 genera, including ''Amblyomma'', ''Dermacentor'', ''Haemaphysalis'', ''Hyalomma'', ''Ixodes'', ''Margaropus'', and ''Rhipicephalus''. Also, the important boophilid ticks, formerly of the genus ''Boophilus'', are now classified as a subgenus within the genus ''Rhipicephalus''. These genera are known as hard ticks because their outer surfaces have hard plates. Within these genera are, very roughly, 100 species of importance to domestic animals. Some of these species are also important to humans. The only countries that do not have some kind of problem with ticks on domestic animals are those that are permanently cold. An outline classification of the Acari, including the two families of ticks of importance to domestic animals is in the article

Mites of livestock Mites are small crawling animals related to ticks and spiders. Most mites are free-living and harmless. Other mites are parasitic, and those that infest livestock animals cause many diseases that are widespread, reduce production and profit for f ...

Typical ticks of domestic animals

''Amblyomma'' and ''Rhipicephalus'' ixodid ticks

''Amblyomma'' species are widespread on domestic animals throughout tropical and subtropical regions. Typical ''Amblyomma'' species are: ''

Amblyomma americanum ''Amblyomma americanum'', also known as the lone star tick, the northeastern water tick, or the turkey tick, or the "Cricker Tick", is a type of tick indigenous to much of the eastern United States and Mexico, that bites painlessly and commonly ...

'', the lone star tick of the Southern and Eastern USA; ''Am. cajennense'', the Cayenne tick of South America and Southern USA; ''

Amblyomma variegatum ''Amblyomma variegatum'', commonly known as the tropical bont tick, is a species of tick of the genus ''Amblyomma'' endemic to Africa. It has spread from its centre of origin to several countries, including the Caribbean islands, where it is kn ...

'', the bont tick of Africa and the Caribbean (see Gallery below for photograph of female and male). A typical ''Rhipicephalus'' species is ''

Rhipicephalus sanguineus ''Rhipicephalus sanguineus'', commonly called the brown dog tick, kennel tick, or pantropical dog tick, is a species of tick found worldwide, but more commonly in warmer climates. This species is unusual among ticks in that its entire lifecycle c ...

'', the tropical dog tick, specialized to feed only on dogs. It is distributed globally throughout the warm countries, wherever humans with their dogs live. Typical ''Rhipicephalus'' species that feed on cattle in Africa are ''R. appendiculatus'', the brown ear-tick, and ''R. evertsi'', the red-legged tick. ''Rhipicephalus (Boophilus) microplus'' (or now simply ''Rhipicephalus microplus'') is the most important tick of cattle in many tropical and subtropical countries to which it spread from Southeast Asia on transported cattle.

Boophilid ticks, a subgenus within ''Rhipicephalus''

These ticks, commonly known as cattle ticks or blue ticks, have a highly characteristic morphology and one-host lifecycle. They have high specificity for cattle as hosts and their morphological characteristics used for identification are less distinct than those of three-host rhipicephalids such as ''R. appendiculatus''. They are economically important to the cattle-rearing industry by causing direct parasitic losses and by transmission of microbes. In addition to ''

Rhipicephalus microplus The Asian blue tick (''Rhipicephalus'' (''Boophilus'') ''microplus'', ''Rhipicephalus microplus'', or ''Boophilus microplus'') is an economically important tick that parasitises a variety of livestock species especially cattle, on which it is th ...

'', species of most importance to domestic animals are ''R. annulatus'', which is widespread in tropical and subtropical countries, and ''R. decoloratus'' which occurs in Africa.

One-host lifecycle of ''R. microplus''

These ticks are adapted to the advantages of specialising to feed on cattle and with all the feeding stages occurring on one individual host in a rapid sequence. They also can survive by feeding on deer or some wild bovid hosts. Infestation starts when larvae on vegetation attach to a new host. When a larva feeds, it molts at the site where it feeds and emerges as a nymph. The nymph feeds at the same site or close by and molts where it feeds. It emerges from molt as either an adult female or male. The female's single large blood meal is converted into a batch of 2000 eggs. The males take several small meals of blood to support their repeated attempts at mating. The molts are rapid and the next stage remains in the hair coat to start feeding again. The combined feeding and molting periods take about 21 days. The engorged female drops from the host, hides under leaf litter on soil surface, lays one batch of eggs, and then dies. When eggs hatch, the larvae crawl up grass stems and wait until they can attach to passing cattle.

''Hyalomma'' ticks

This genus contains many species of hard ticks important to domestic animals in hot, dry regions in Africa, the Mediterranean basin, the Middle East, Pakistan, India, and through to China. Typical species are ''Hyalomma anatolicum'', ''Hy. rufipes'', ''Hy. truncatum'', and ''Hy. detritum'', which feed as adults on cattle, sheep, and goats. '' Hyalomma dromedarii'' is specialized to feed on dromedary camels. ''Hyalomma'' ticks are adapted to live in regions with large seasonal variation of temperature and low rainfall. Diapause is an important mechanism to adjust to these climates. Another adaptation is to have a lifecycle within one species that can be two-host or three-host. For example: ''Hy. anatolicum'' may feed on a hare, molt on the hare, and feed again on the same individual hare, detach and molt to an adult and then feed on a cow - that is a two-host lifecycle. Or it may feed as a larva on a gerbil, then as a nymph on a cow, and then as an adult on another cow in a three-host lifecycle. Furthermore, this tick commonly feeds as a three-host tick with larvae, nymphs, and adults feeding on separate individual dairy cows confined to cattle housing in zero-grazing systems.

''Argas'' and ''Ornithodoros'' soft ticks

''Argas persicus'', the fowl tick, is a major pest of poultry birds. The tampan ticks within the '' Ornithodoros moubata'' complex of species infest domestic pigs and also feed on humans. ''

Ornithodoros savignyi ''Ornithodoros savignyi'', known as sand tampan, African eyed tampan or Kalahari sand tampan, is one of some 37 species in the genus ''Ornithodoros'' and is a soft tick with a leathery, mammillated integument, causing paralysis and tampan toxico ...

'' is often found in large numbers at enclosures where camels and cattle are herded. Many species of argasid soft ticks are adapted to live in the nest or regular resting sites of their hosts, often waiting for months or even years for the host to return and enable the tick to feed. This nest-dwelling behavior is described as endophilic or nidicolous.

Multihost lifecycle of ''O. moubata''

Argasidae soft ticks have different lifecycles from Ixodidae hard ticks, and these are very variable between species. Typically, in ''Ornithodoros'', a larva hatches from an egg laid in the nest or resting place of the host. The larva does not feed, but directly molts into the first nymph stage. This stage feeds, then molts into the next nymph stage. Feeding by soft ticks is generally completed within minutes rather than days, as with hard ticks. Depending on circumstances, four or five nymph stages occur, each progressively larger. Finally, a molt produces an adult female or male. The female takes repeated blood meals that are small compared to a female hard tick. Each blood meal is converted to a small batch of eggs. The male feeds sufficiently to support its mating. The lifecycle of ''Argas persicus'' is similar, but the larva feeds on blood of its bird host, remaining attached around 7 days.

Other groups of ticks

Other genera with species that are often of high local importance to domestic animals include the following examples, some of which are illustrated in the gallery below. ''Ixodes'' (''

Ixodes ricinus ''Ixodes ricinus'', the castor bean tick, is a chiefly European species of hard-bodied tick. It may reach a length of when engorged with a blood meal, and can transmit both bacterial and viral pathogens such as the causative agents of Lyme disea ...

'', the deer tick of Europe; '' Ixodes scapularis'', the black-legged tick of North America; '' Ixodes holocyclus'', the paralysis tick of Australia). ''Haemaphysalis'' (''Ha. leachii'', the yellow dog tick of the tropics). ''Dermacentor'' ('' Dermacentor andersoni'', the Rocky Mountain wood tick; ''

Dermacentor variabilis ''Dermacentor variabilis'', also known as the American dog tick or wood tick, is a species of tick that is known to carry bacteria responsible for several diseases in humans, including Rocky Mountain spotted fever and tularemia (''Francisella tul ...

'', the American dog tick; '' D. reticulatus'', the ornate dog tick of Europe). ''D. nitens,'' the tropical horse tick of the Americas, has a one-host lifecycle similar to the boophilids. ''Margaropus winthemi'', the beady-legged tick, infests horses and cattle in South Africa. The soft tick ''Otobius megnini'', the spinose ear tick, has its nymphs feeding within the ear canal of many species of domestic animals. Adults of ''Ot. megnini'' do not feed. This tick occurs in the Americas and has spread to Africa and Asia.

Negative impacts to health

Biting stress and lost production

When a hard tick pierces the skin of its host, initially little or no pain is caused. Later, during the prolonged feeding of ticks, inflammation is caused at the wound, followed by acquired immune reactions in the skin (dermal hypersensitivities types 1 and 4) to the foreign proteins in tick saliva. This defense by the host is generally effective, but at the cost of pruritus (itch) and pain at the feeding site. Infestations of ticks on certain individual animals of a herd of livestock animals can build up to very high levels. This occurs on a minor proportion of individuals in the herd, whilst most individual animals have low infestations. On a herd basis, the accumulated effect of this biting stress can cause

loss of appetite Anorexia is a medical term for a loss of appetite. While the term in non-scientific publications is often used interchangeably with anorexia nervosa, many possible causes exist for a loss of appetite, some of which may be harmless, while others i ...

and loss of blood. These two losses result in reduced feed intake and anemia; combined, they cause a lower rate of growth or of milk production compared to hosts without tick infestation. The feeding of soft ticks can cause severe biting stress because of the pain whilst they feed; ''Ornithodoros savignyi'' feeding on livestock that are herded in enclosures during nighttime is one notorious example.

Physical damage

At each feeding site of hard ticks, granuloma and wound healing produce a scar that remains for years after the tick has detached. When the skin of livestock animals is made into leather, these scars remain as blemishes that reduce the value of the leather. Larger ticks cause obstructive and painful damage, such as ''Amblyomma variegatum'' adults, which often feed on udders of cattle and reduce suckling by the calves. ''Hyalomma truncatum'' adults feed on the feet of sheep and goats, causing lameness. Wounds caused by dense clusters of adult ticks can make the host susceptible to infestation with larvae of flesh-eating myiasis flies, such as the screw-worm, ''

Cochliomyia hominivorax ''Cochliomyia hominivorax'', the New World screw-worm fly, or screw-worm for short, is a species of parasitic fly that is well known for the way in which its larvae (maggots) eat the living tissue of warm-blooded animals. It is present in the ...

''.

Poisoning

When ticks feed, they secrete saliva containing powerful enzymes and substances with strong pharmacological properties to maintain flow of blood and reduce host immunity. Sometimes, this causes a poisoning of the host. This is not because of a functional toxin in the sense that snake poison is functional for the snake. However, the result can be various forms of toxaemia caused by a variety of ticks. A moist eczema, sometimes with hair loss (alopecia) known as sweating sickness in cattle is caused by ''Hyalomma truncatum''. Tick paralysis can be life-threatening and is caused in sheep by feeding of ''Ixodes rubicundus'' of South Africa. In cattle, paralysis is caused by both '' Dermacentor andersoni'' in North America and the Australian paralysis tick, '' Ixodes holocyclus.'' ''I. holocyclus'' also causes paralysis in dogs and humans.

Ticks as vectors of disease

Because ticks feed repeatedly and only on blood, and have long lives, they are suitable hosts for many types of microbes, which exploit the ticks for transmission between one domestic animal and another. Ticks are thus known as vectors (transmitters) of microbes. Most of these parasitic relationships are highly developed with a strict biological relationship between the microbe and the tick's gut and salivary glands. However, some microbes, such as ''

Anaplasma ''Anaplasma'' is a genus of bacteria of the alphaproteobacterial order Rickettsiales, family Anaplasmataceae. ''Anaplasma'' species reside in host blood cells and lead to the disease anaplasmosis. The disease most commonly occurs in areas wher ...

marginale'' and ''A. centrale'', can also be transmitted by biting flies, or by blood on injection needles (iatrogenic transmission). A characteristic of diseases caused by tick-transmitted microbes is that herds or flocks of livestock often acquire effective levels of immune resistance to both the vector ticks and the microbes, so outbreaks of acute disease tend to be rare. This stability is often due to immunity to the microbes developing as a result of survival through early infection from ticks carrying small infective doses of the microbe, the epidemiology of infections with ''

Babesia ''Babesia'', also called ''Nuttallia'', is an apicomplexan parasite that infects red blood cells and is transmitted by ticks. Originally discovered by the Romanian bacteriologist Victor Babeș in 1888, over 100 species of ''Babesia'' have since ...

'' species of protozoa is a well described example. The ticks are often constantly present and long-lived. Acquisition of immunity may be aided by the protection of antibodies in the mother's colostrum (first milk). At least one microbe causing disease associated with ticks is not transmitted by the ticks. The skin disease dermatophilosis of cattle, sheep, and goats is caused by the bacterium ''

Dermatophilus congolensis ''Dermatophilus congolensis'' is a Gram-positive bacterium and the cause of a disease called dermatophilosis (sometimes called mud fever) in animals and humans, a dermatologic condition that manifests as the formation of crusty scabs containing ...

'', which is transmitted by simple contagion. When ''Amblyomma variegatum'' adult ticks are also feeding and causing a systemic suppression of immunity in the host, then dermatophilosis becomes severe or even fatal.

Viral diseases

The virus of Nairobi sheep disease in East Africa is transmitted by ''Rhipicephalus'' ticks. African swine fever is naturally transmitted between wild species of the pig family by feeding of ''Ornithodoros moubata'' group ticks. This pattern of transmission can expand to include domestic pigs. However, within groups of domestic pigs, the virus can also be transmitted by contagion. Crimean-Congo hemorrhagic fever virus is transmitted between many mammal species by ''Hyalomma truncatum'', ''Hyalomma rufipes'', and ''Hyalomma turanicum'' over a wide area of Africa, Europe, and Asia. In cattle and sheep, it causes mild fever and its main importance is when it spreads to humans (

zoonosis A zoonosis (; plural zoonoses) or zoonotic disease is an infectious disease of humans caused by a pathogen (an infectious agent, such as a bacterium, virus, parasite or prion) that has jumped from a non-human (usually a vertebrate) to a human. ...

) by feeding of the larvae or nymphs of these ticks. There are other viruses transmitted by ticks between wild animals and that have zoonotic importance when humans also become infected. The epidemiological pathways of these viruses can also involve domestic animals, if only by being hosts that add to the size of the tick population. Examples include the viruses that cause

Tick-borne encephalitis Tick-borne encephalitis (TBE) is a viral infectious disease involving the central nervous system. The disease most often manifests as meningitis, encephalitis or meningoencephalitis. Myelitis and spinal paralysis also occurs. In about one third ...

, and Kyasanur Forest disease.

Bacterial diseases

Borrelia ''Borrelia'' is a genus of bacteria of the spirochete phylum. Several species cause Lyme disease, also called Lyme borreliosis, a zoonotic, vector-borne disease transmitted by ticks. Other species of ''Borrelia'' cause relapsing fever, and are t ...

'' bacteria are well described elsewhere in association with ''Ixodes'' ticks for causing

Lyme disease Lyme disease, also known as Lyme borreliosis, is a vector-borne disease caused by the '' Borrelia'' bacterium, which is spread by ticks in the genus '' Ixodes''. The most common sign of infection is an expanding red rash, known as erythema ...

in humans, but this disease also affects domestic dogs. ''Borrelia anserina'' is transmitted by ''Argas persicus'' to poultry, causing avian borreliosis in a wide spread of tropical and subtropical countries. ''

Anaplasma phagocytophilum ''Anaplasma phagocytophilum'' (formerly ''Ehrlichia phagocytophilum'') is a Gram-negative bacterium that is unusual in its tropism to neutrophils. It causes anaplasmosis in sheep and cattle, also known as tick-borne fever and pasture fever, and ...

'' (formerly ''Ehrlichia phagocytophila'') is a bacterium of deer that spreads to sheep where it causes tick-borne fever in Europe, resulting in abortion by ewes and temporary sterility of rams. This bacterium invades and proliferates in neutrophil cells of the blood. This depletes these antibacterial cells and renders the host susceptible to opportunistic infections by ''

Staphylococcus aureus ''Staphylococcus aureus'' is a Gram-positive spherically shaped bacterium, a member of the Bacillota, and is a usual member of the microbiota of the body, frequently found in the upper respiratory tract and on the skin. It is often posit ...

'' bacteria which invade joints and cause the crippling disease of sheep called tick pyaemia. ''Anaplasma marginale'' infects marginal areas of red blood cells of cattle and causes

anaplasmosis Anaplasmosis is a tick-borne disease affecting ruminants, dogs, and horses, and is caused by ''Anaplasma'' bacteria. Anaplasmosis is an infectious but not contagious disease. Anaplasmosis can be transmitted through mechanical and biological vector ...

wherever boophilid ticks occur as transmitters. ''Anaplasma centrale'' tends to infect the central region of red blood cells, and is sufficiently closely related to ''An. marginale'' to have been used from long ago as a live vaccine to protect cattle against the more virulent ''An. marginale''. Sheep and goats suffer disease from infection with ''Anaplasma ovis'' which is transmitted similarly to the anaplasmas described above. ''Ehrlichia ruminantium'' (formerly ''Cowdria ruminantium'') is transmitted mainly by ''Amblyomma hebraeum'' and ''Am. variegatum'' in Africa, causing the severe disease heartwater in cattle, sheep, and goats. This disease is named after the prominent sign of pericardial edema. The bacteria infect the brain, causing prostration. Heartwater also occurs on the Caribbean islands, having spread there on shipments of cattle from Africa about 150 years ago, before anything was known of tick transmitted microbes.

Protozoal diseases

''Babesia bovis'' protozoa are transmitted by ''R. microplus'' and cause babesiosis or redwater fever in cattle throughout the tropics and subtropics wherever this boophilid species occurs. The less pathogenic ''Ba. bigemina'' is transmitted by ''R. microplus'' and ''R. decoloratorus''. Development of ''

'' in the tick is complex and includes sexual reproduction. These ''Babesia'' are transmitted from adult female boophilid ticks to the next generation, as larvae, by infection of the eggs. This is known as transovarian transmission; it provides the only opportunity for transmission through one-host ticks. Other species of ''Babesia'' are transmitted by three-host ticks in ways similar to ''Theileria'' protozoa, as described below. In cattle, infection of the red blood cells may grow rapidly to create a potentially fatal inflammatory crisis of the blood. The name redwater (coloured urine) derives from the hemoglobinuria caused by the destruction of red blood cells infected with the merozoite stage of ''Babesia''; anemia results from the same destruction. Horses suffer babesiosis or biliary fever when infected by ''Ba. equi'' or ''B. caballi''. This occurs in many countries where vector ticks are found, such as ''R. e. evertsi'', ''Hy. truncatum'', and ''D. nitens''. Dogs are at risk from severe infection with ''Ba. canis'' and its subspecies, transmitted by the dog ticks ''R. sanguineus'', '' D. reticulatus'', and ''Ha. leachi''. Domestic cats become infected with ''Ba. felis'' and ''Ba. cati'' from feeding ticks. ''Cytauxzoon felis'' is a protozoan related to ''Babesia'' and ''Theileria''. It is transmitted by the American dog tick, ''

''. This microbe circulates between wild bobcats in southern USA, causing little apparent disease. If it infects domestic cats, it causes a

cytauxzoonosis ''Cytauxzoon felis'' is a protozoal organism transmitted to domestic cats by tick bites, and whose natural reservoir host is the bobcat. ''C. felis'' has been found in other wild felid species such as the cougar, as well as a white tiger in capt ...

that is eventually fatal. babesia-bovis-transmission

'' Theileria annulata'' is a protozoan closely related to ''Babesia''. In cattle, it causes the disease tropical theileriosis throughout a long arc of countries from Morocco across to China. ''Theileria parva'' is the causative microbe of

East Coast fever East Coast fever, also known as theileriosis, is a disease of cattle which occurs in Africa and is caused by the protozoan parasite '' Theileria parva''. The primary vector which spreads ''T. parva'' between cattle is a tick, '' Rhipicephalus ap ...

of cattle in Eastern, Central, and Southern Africa. ''Theileria'' species infect monocytic white blood cells of their hosts. The infected cells are induced to divide by the ''Theileria'', which then proliferates within each daughter cell, in a rapidly expanding infection. This causes multiple inflammatory crises, of which pulmonary edema is a predominant cause of death. ''Theileria annulata'' is transmitted by ''Hy. anatolicum'', ''Hy. detritum'', and other hyalommas. ''Theileria parva'' is transmitted predominantly by ''Rhipicephalus appendiculatus''. Because this is a three-host feeding tick, the opportunities for transmission are from infected cow to feeding larva then through the molt into the nymph which feeds and transmits. Similarly, transmission can also be from feeding nymphs to infected adult. This is known as

transstadial transmission Transstadial transmission occurs when a pathogen remains with the vector from one life stage ("stadium") to the next. For example, the bacteria ''Borrelia burgdorferi'', the causative agent for Lyme disease, infects the tick vector as a larva, and ...

, and no transovarian transmission occurs in this case. The development of ''Theileria'' in ticks includes sexual reproduction which enables generation of new variants that can evade the immune mechanisms of cattle.

Disease control methods

Treatment with chemical and botanical pesticides against ticks

Synthetic chemical acaricides

Ticks infesting sheep and cattle have been controlled with a wide variety of chemicals ranging from coal tar extracts, arsenic salts, and specific pesticidal chemicals such as DDT for many decades. These are now replaced by various synthetic chemicals of high specificity for acarines and ticks, and farmers frequently rely on treating their animals with these materials as their default method. However, the expense of labour, equipment and acaricide can sometimes upset a good balance of cost : benefit with conventional treatment methods. Synthetic chemical pesticides specific for ticks (

acaricide Acaricides are pesticides that kill members of the arachnid subclass ''Acari'', which includes ticks and mites. Acaricides are used both in medicine and agriculture, although the desired selective toxicity differs between the two fields. Termino ...

s) are suspended in water for application to the hair coat of domestic animals. Cattle can be immersed in dip-baths containing dipwash, or soaked using a pressurized spray-race made of metal tubing and nozzles. Sheep can be treated in smaller dips or showers. Acaricides can be applied to dogs in watery shampoo formulations. Acaricide active ingredients are usually soluble in oil. This makes them suitable for concentrated oily formulations which spread from a pour-on applicator over the hair coat. Alternatively, some acaricides are incorporated in polyvinylchoride plastic ear tags for cattle, or collars for dogs. Modern acaricides belong to the general classes of

organophosphate In organic chemistry, organophosphates (also known as phosphate esters, or OPEs) are a class of organophosphorus compounds with the general structure , a central phosphate molecule with alkyl or aromatic substituents. They can be considered ...

s (example chlorfenvinphos), formamidines (example

amitraz Amitraz (development code BTS27419) is a non-systemic acaricide and insecticideCorta, E., Bakkali, A., Berrueta, L. A., Gallo, B., & Vicente, F. (1999). Kinetics and mechanism of amitraz hydrolysis in aqueous media by HPLC and GC-MS. Talanta, 48(1 ...

), synthetic

pyrethroid A pyrethroid is an organic compound similar to the natural pyrethrins, which are produced by the flowers of pyrethrums ('' Chrysanthemum cinerariaefolium'' and '' C. coccineum''). Pyrethroids are used as commercial and household insecticides. ...

s (example

flumethrin Flumethrin is a pyrethroid insecticide. It is used externally in veterinary medicine against parasitic insects and ticks on cattle, sheep, goats, horses, and dogs, and the treatment of parasitic mites in honeybee colonies. Chemistry Flumethrin ...

), phenylpyrazoles (example

fipronil Fipronil is a broad-spectrum insecticide that belongs to the phenylpyrazole chemical family. Fipronil disrupts the insect central nervous system by blocking the ligand-gated ion channel of the GABAA receptor and glutamate-gated chloride (GluC ...

), and benzylphenyl ureas (example fluazuron).^{/sup> When correctly applied, they can be highly effective. Problems with acaricides are: danger of acute poisoning of treated animals and human staff; residues contaminating meat and milk; environmental contamination especially water sources; resistance that ticks acquire to acaricides; and cost of application. Cost and contamination can be reduced by seasonal timing of application (strategic treatment) based on ecological knowledge. Prediction of best times for treatment can be made using computerized models of the population dynamics of ticks.

Botanical acaricides

Farmers lacking access to, or sufficient cash for, manufactured synthetic acaricides often use various herbal treatments, locally available. Nicotine from treated tobacco leaf is an example, but such unregistered preparations require careful use to avoid poisoning or skin damage. Commercially formulated botanical acaricide may often be available in tropical regions, containing the active ingredient azadirachtin. This is extracted as neem oil

Neem oil, also known as margosa oil, is a vegetable oil pressed from the fruits and seeds of the neem (''Azadirachta indica''), a tree which is indigenous to the Indian subcontinent and has been introduced to many other areas in the tropics. It ...
from fruits and seeds from the neem tree, ''Azadirachta indica

''Azadirachta indica'', commonly known as neem, nimtree or Indian lilac, is a tree in the mahogany family Meliaceae. It is one of two species in the genus ''Azadirachta'', and is native to the Indian subcontinent and most of the countries in Af ...
''.

Eradication of ticks

Eradication of ticks, as total removal of all populations of a species over a wide geographical area defined by natural boundaries, has been attempted several times. In the southern states of the USA the tick then known as ''Boophilus annulatus'' (Rhipicephalus annulatus

The Cattle tick, (''Rhipicephalus annulatus''), is a hard-bodied tick of the genus '' Rhipicephalus''. It is also known as North American cattle tick, North American Texas fever tick, and Texas fever tick.
Distribution
It shows a cosmopolitan d ...
) was eradicated for the purpose of control of babesiosis in cattle. The eradication was successful after more than 50 years of control with much emphasis on dipping in chemical acaricides. The tick was eradicated up to the border of USA with Mexico, and a control and quarantine zone remains in place there. Similar efforts were made to eradicate the tick then known as ''Boophilus microplus'' (also a Rhipicephalus, Rhipicephalus microplus

The Asian blue tick (''Rhipicephalus'' (''Boophilus'') ''microplus'', ''Rhipicephalus microplus'', or ''Boophilus microplus'') is an economically important tick that parasitises a variety of livestock species especially cattle, on which it is th ...
) from New South Wales, Australia. However, this failed, partly due to the difficulty of maintaining a barrier against invasions from the more favourable areas for the tick in sub-tropical Queensland. ''Amblyomma variegatum'' was subject to a multi-country eradication program in the Caribbean area, but it failed for complex economic and political reasons.

Biological and ecological based methods in control of ticks and transmitted microbes

Cattle breeding for disease resistance

Breeding for resistant cattle has been successful for their ability to acquire strong immune resistance to ''Rhipicephalus microplus'' following natural exposure to these ticks. Commercial breeds of cattle (examples: Australian Friesian Sahiwal and Australian Milking Zebu

The Australian Milking Zebu (AMZ) is a composite breed of dairy cattle, developed by the Commonwealth Scientific and Industrial Research Organisation (CSIRO) in Australia during the mid-1950s. To develop the breed, the CSIRO bred Sahiwal and Red ...
) are successful in the relevant environment. Only a few commercial breeds of tick-resistant cattle are available. These breeds were developed under laboratory conditions where bulls were selected for good ability to acquire immune resistance to ticks, and cows were selected for heat tolerance and milk yield. The scope for selecting cattle under farm conditions includes culling those animals persistently with heavy infestations of ticks. This is due to a characteristic of many parasitic infestations where in a population of hosts, a few individual hosts carry heavy infestations, whilst the majority are lightly infested. This is called an overdispersed, or aggregated, distribution; it may be caused by individual variation in immune competence, which has a genetic component.

Pasture management

For farms infested with ''R. microplus'' in Australia and South America, rotation of pasture can kill the questing larvae. Pasture management is feasible for control of these one-host ticks because the only stage that quests for hosts on vegetation is the larval stage. Because of their small size, larvae are highly susceptible to dehydration and starvation, so a period without access to hosts of about 2 months can be effective. The nymphs and adults of three-host ticks, such as ''Amblyomma'' and ''Rhipicephalus'' species, can live for many months to a year or more, respectively, whilst questing on the vegetation. Thus, controlling them by pasture management is usually not practical. In addition, farmers find the priority to provide their stock with good feed often conflicts with the regimens for pasture rotation for tick control. Ticks affecting dogs and other companion animals around private houses are reduced by clearing of vegetation and leaf litter, mowing grass short, and fencing out deer and other wild animals that bring in ticks.

Epidemiological factors

Compared to other arthropods of veterinary and medical importance, most species of ticks are long-lived over their whole lifecycles. ''Ixodes'' species in cool, temperate climates typically take one year to develop through each of the three feeding stages. ''Amblyomma'' species may also have a three-year lifecycle, and the adults can live off-host, without feeding, for up to 2 years. ''Ornithodoros'' and ''Argas'' ticks are particularly adapted to wait for their hosts to arrive by being able to survive for years between blood meals as adults, 18 years have been recorded for ''O. lahorensis''. Food reserves for survival of off-host ticks include large membrane-bound vesicles of lipid in the digestive cells of their gut. Further adaptations include a thick integument with waxy waterproofing combined with ability to secrete hygroscopic salts from specialized parts of their salivary glands (type 1 acini) out to the exterior of their mouthparts and then suck back in the watery solution that develops around the salty material.

At least some species of ticks have fairly stable populations, with variations in population densities from year to year varying by roughly 10- to 100-fold. The abiotic (environmental) factor that appears to have most influence on tick distribution and abundance is dehydration stress from the combination of high temperatures and low moisture (measured as relative humidity or low saturation deficit, usually resulting from a climate of low rainfall). Computer models to test hypotheses and to predict the distribution of ticks reflect these stresses, using meteorological information where available, or indices of vegetation type as an analogue of temperature and dehydration stress. Biotic (host related) factors that influence tick distribution and abundance include the obvious need for the hosts to which the ticks are adapted to be present, and also the defenses that the hosts have against the ticks. During the lifecycle of a three-host tick feeding on its natural host that has acquired immunological resistance to the feeding of the ticks, tick mortality can be high. This mortality is highest for the larvae which are easily killed by the immune reactions in the host's skin. It is lowest in the feeding adults. However, even if the ticks do feed, detach, and moult, the size of newly moulted adults is smaller, and the reproductive capacity of the females is reduced. These biotic factors are likely to produce a pattern of mortality of the ticks that is density-dependent. A high density of ticks attempting to feed induces strong immune resistance in their hosts, but a low density of ticks does not induce such strong resistance.

Ticks combine long life of the stages of that carry pathogenic microbes and long survival of these microbes in specialized niches within the tick, such as within cells of the salivary glands or the gut. In a population of ''Rhipicephalus'' or ''Hyalomma'' ticks feeding on cattle in which ''Theileria'' species of protozoa circulate and cause theileriosis, the ticks act as long-term reservoirs of the protozoans. In addition, some species of protozoans (within the ''Theileria'' and ''Babesia'' genera), are able to infect ticks even when they exist in the blood of their hosts at such a low level that no signs of disease can be detected. This is known as a carrier state of infection. These pathogenic protozoa can be detected circulating in populations of the cattle hosts and tick vectors with only low levels of detectable disease in the cattle caused by the protozoa. Any situation like this - with prevalent infection or infestation but little disease - is called endemic stability

Endemism is the state of a species being found in a single defined geographic location, such as an island, state, nation, country or other defined zone; organisms that are Indigenous (ecology), indigenous to a place are not endemic to it if the ...
. It is possible that this can be exploited for better control of tick related diseases by use of breeds of cattle with good ability to acquire resistance to both the ticks and the protozoans. However, there are commonly situations where the potential benefits of endemic stability to disease are difficult for farmers to use effectively. The farmers may prefer to rely more on direct tick control, and drugs and vaccines against the protozoans.

Drug treatment against microbes

Antibiotics with efficacy against bacterial pathogens transmitted by ticks include tetracycline

Tetracycline, sold under various brand names, is an oral antibiotic in the tetracyclines family of medications, used to treat a number of infections, including acne, cholera, brucellosis, plague, malaria, and syphilis.

Common side effects in ...
, penicillin

Penicillins (P, PCN or PEN) are a group of β-lactam antibiotics originally obtained from '' Penicillium'' moulds, principally '' P. chrysogenum'' and '' P. rubens''. Most penicillins in clinical use are synthesised by P. chrysogenum usin ...
, and doxycycline

Doxycycline is a broad-spectrum tetracycline class antibiotic used in the treatment of infections caused by bacteria and certain parasites. It is used to treat bacterial pneumonia, acne, chlamydia infections, Lyme disease, cholera, typhus ...
. Against ''Babesia'' protozoa are imidocarb and diminazine, both of which can be used to treat patent clinical infections. Against ''Theileria'' are parvaquone and halofuginone, both effective for clinical cases. These drugs are usually administered to treat diagnosed cases, but the timing of treatment then becomes critical. Problems with drug treatment include the development of resistance by the microbes and cost. Also, treatment does not necessarily fully clear infections, and this may lead to persistent subclinical infections that remain infective to more ticks (carrier infections); this may be considered unsafe in some situations.

Vaccination against microbes and ticks

Vaccination against ''An. marginale'' is done using live strains of the cross-reactive ''An. centrale''. Vaccines are available on a commercial basis to immunize cattle against ''Babesia bovis''. This is made by serial infection of calves to attenuate the virulence of the strain of ''Babesia'', followed by splenectomy to produce many of the piroplasm stage in blood, which is then bottled for use. The vaccine is delivered containing the live protozoa to induce immunity without acute disease. ''Theileria annulata'' can be grown and attenuated in virulence by means of infecting cell cultures with the schizont stage of the protozoan. This is delivered as a frozen vaccine from which live parasites are thawed out before injection. Cattle can be protected against East Coast fever

East Coast fever, also known as theileriosis, is a disease of cattle which occurs in Africa and is caused by the protozoan parasite '' Theileria parva''. The primary vector which spreads ''T. parva'' between cattle is a tick, '' Rhipicephalus ap ...
by an infection-and-treatment procedure. ''Rhipicephalus appendiculatus'' ticks are infected with ''Theileria parva'' under laboratory conditions; theilerial sporozoites are extracted from the ticks and stored in liquid nitrogen; infective doses of the live vaccine are delivered to identified cattle and a few days later a protective dose of antibiotic is delivered to stop the infection from developing into clinical East Coast fever. Vaccines are often highly effective, but the live parasite vaccines have problems of potential contamination with other microbes and induction of a carrier state which may be unwanted. Intensive attempts are made to develop vaccines to control these diseases using a recombinant DNA techniques to synthesize the relevant antigens, but as with vaccines against human malaria this is a difficult technological challenge.

A commercial vaccine was developed in Australia against ''Rh. microplus''. It acts against a glycoprotein molecule that is exposed on the outer membrane of digestive cells of the gut of feeding ticks. This molecule is synthesized using recombinant DNA technique to make the antigen of the vaccine. Vaccinated cattle develop antibodies circulating in their blood. When the ''Rh. microplus'' female ticks engorge with blood, the antibody reacts with the natural antigen in their guts so strongly that digestion is disrupted and the reproductive rate of the ticks is reduced. This vaccine is manufactured in Australia and a closely similar vaccine is manufactured in Cuba.

References

External links

Ticks.
Centers for Disease Control and Prevention, USA.

Food and Agriculture Organization of the United Nations.

Ticks.
Livestock Veterinary Entomology. Texas A&M AgriLife Extension.

Prine, K. C. and A. C. Hodges. EENY-518. University of Florida IFAS. Published 2012, updated 2013.

Overview of tick paralysis.

Parasitic Insects, Mites and Ticks: Genera of Medical and Veterinary Importance
Wikibooks

Further reading

* Baker, A.S. (1999) ''Mites and Ticks of Domestic Animals: an identification guide and information source''. London: The Stationery Office, .
* Bowman, A. S. & Nuttall, P. A. (2008) ''Ticks: Biology, Disease and Control''. Cambridge University Press, Cambridge,
* Estrada-Peña, A., Bouattour, A., Camicas, J.-L. & Walker, A.R. (2004) ''Ticks of domestic animals in the Mediterranean Region''. University of Zaragoza, .
* Fivaz, B., Petney, T. & Horak I. (1992) ''Tick vector biology: medical and veterinary aspects''. Springer-Verlag, Heidelberg,
* Howell C.J., Walker J.B. & Nevill E.M. (1978) ''Ticks, mites and insects infesting domestic animals in South Africa''. Republic of South Africa Department of Agricultural Technical Services, Science Bulletin 393, Pretoria.
* Latif, A.A. (2013) ''Illustrated guide to identification of African tick species''. Agricultural Research Council, Pretoria.
* Roberts, F.H.S. (1970) ''Australian ticks''. Commonwealth Scientific and Industrial Research Organisation, Melbourne.
* Russell, R.C., Otranto, D. & Wall R.L. (2013) ''The Encyclopedia of Medical and Veterinary Entomology''. CABI, Wallingford. .
* Slamon, M. & Tarrés-Call, J. (eds) (2013) ''Ticks and Tick-borne Diseases: Geographical Distribution and Control Strategies in the Euro-Asia Region''. CABI, Wallingford. .
* Sonenshine, D.E. & Mather, T.N. (eds) (1994) ''Ecological Dynamics of Tick-borne Zoonoses''. Oxford University Press, New York.
* Sonenshine, D.E. & Roe, M.R. (eds) (2014) ''Biology of Ticks'' (2nd edition, vols 1&2) Oxford University Press, New York. vol 1 ; vol 2 .
* Spickett, A.M. (2013) ''Ixodid ticks of major economic importance and their distribution in South Africa''. Agricultural Research Council, Pretoria.
* Walker, A.R., Bouattour, A., Camicas, J.-L., Estrada-Peña, A., Horak, I.G., Latif, A.A., Pegram, R.G. & Preston, P.M. 2003. ''Ticks of domestic animals in Africa: a guide to identification of species''. Bioscience Reports, Edinburgh. {{ISBN, 0-9545173-0-X, http://www.alanrwalker.com/guidebooks/ticks/

Gallery

File:Argas-persicus-female-dorsal-ventral.jpg, ''Argas persicus'' argasid ticks, female, dorsal and ventral.
File:Otobius-megnini-argasid-tick-nymph.jpg, ''Otobius megnini'' argasid nymph, dorsal.
File:Amblyomma-variegatum-female-male-dorsal.jpg, ''Amblyomma variegatum'' ixodid ticks, female and male, dorsal.
File:Dermacentor-andersoni-female-male.jpg, ''Dermacentor andersoni'' ixodid ticks, female and male, dorsal.
File:Haemaphysalis-bancrofti-female-male.jpg, ''Haemaphysalis bancrofti'' ixodid ticks, female and male, dorsal.
File:Ixodes-holocyclus-female-male.jpg, ''Ixodes holocyclus'' ixodid ticks, female and male, dorsal.

Veterinary parasitology
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