Lecture hard tiks soft ticks 9&10.pdf

Transcript

TICKS
“516 ZOO”
Lecture 9 &10
Dr. Osama B Mohammed
&
Dr. Jawahir ALGhamdi
Family Ixodidae
Hard ticks
▪ Approximately 700 species of hard ticks
are included within a total of 12 genera.

▪ Currently recognized genera are
Amblyomma, Anomalohimalaya,
Bothriocroton, Cosmiomma, Dermacentor,
Haemaphysalis, Hyalomma, Ixodes,
Margaropus, Nosomma, Rhipicentor, and
Rhipicephalus, with the genus Boophilus
becoming a subgenus of the genus
Rhipicephalus.
Dorsal view of a generalized
female, ixodid tick.
 1. The egg,
2. Sixlegged larva
3. Eight-legged
Nymph
4. Eight-legged
Adult. Six-legged

The life cycle of an Ixodid tick.
The life cycle of an Ixodid tick.
One-host ticks
Where the entire parasitic development from larvae to adult
takes place on one host.

Two-host ticks where larvae and nymphs occur on one
host adults on another.

Three-host ticks where each stage of development takes
place on different hosts.
 What is important
relative to these terms is
that a one-host tick or a
three-host tick?
 A tick that feeds on only one host is often easier to
control by managing the single host than a three-host tick
with different hosts throughout the environment.

For example, if cattle are hosts to a one-host tick,
dipping and other applications of chemotherapeutic agents
or cattle vaccination will affect all tick life stages.

If three hosts were involved, the first host might be a rodent,
the second a rabbit or a bird, and the third cattle. Thus, it would be
more difficult to manage these two- or three-host systems
because it would be difficult to manage or treat all three hosts
involved.

That three-host ticks may feed on several different hosts
during their lives, from small rodents to large mammals,
makes them perfect vectors for the transmission of
zoonotic agents to humans (e.g., the larva feeds on a
rodent, the nymph or adult will feed on humans); thus,
transmission from rodents to humans becomes a real possibility.

This is exactly what occurs in the case of Lyme borreliosis.
Two- and three-host ticks can transmit disease organisms via interstadial
transmission; that is, infection acquired by a larval tick is carried through the molt
to the nymphal stage and then is conveyed to the host on which the nymph feeds, or
infection acquired by a nymph is carried through the molt and is conveyed to the
host on which the adult tick feeds.

In transovarial transmission, the disease organisms are passed from the adult
female tick to her larvae through infection of her ovaries.
Babesia bigemina is transmitted from the adult female Rhipicephalus (formerly
Boophilus) tick to her progeny through her ovaries.
Transovarial transmission of disease organisms is the only mechanism that
allows one-host ticks, such as Rhipicephalus annulatus, to serve as vectors

Babesia bigemina Pear-shaped
Rhipicephalus annulatus inside a red blood cell (arrow).
▪ Ixodid ticks found attached to domestic animals may be removed
individually by cautious traction with thumb forceps.

▪ The long hypostomes of Ixodes, Amblyomma, and Hyalomma
are effective anchors.

▪ Dermacentor, Rhipicephalus, and Haemaphysalis compensate
for their shorter hypostomes by secreting cement in which the
mouthparts are embedded, which attaches them securely to the skin.

▪ Unless reasonable care is exercised, the capitulum may be torn away
and remain embedded as a foreign body in the host's skin.
 Ixodes

Hyalomma

Rhipicephalus
Representative
genera of hard
ticks (Ixodidae) Dermacentor

Haemaphysalis

Amblyomma
Ixodes
▪ The anal groove forms an arch
anterior to the anus; this can be
seen with oblique illumination of
uncleared specimens. Other genera
have a groove posterior to the anus or
no groove at all.

▪ Ixodes species have no eyes,
festoons, or scutal ornamentation;
their palpi are broadest at the
junction of segments two and
three.
Disease transmission
Ixodes holocyclus of Australia is the most virulent tick paralysis producer
known.
Ixodes pacificus is known to cause tick paralysis in North America.
Species of Ixodes are the major vectors of Lyme disease in North America and in
Europe.
Nymphs and adults of Ixodes scapularis in the eastern and north-central United States,
a three-host tick that normally feeds on mice and voles as larvae and nymphs and on
deer as adults, transmit microtine piroplasmosis (Babesia microti), Lyme disease
(Borrelia burgdorferi), and human granulocytic anaplasmosis (Anaplasma
phagocytophilum) to dogs, humans, and other animals.
I
n Europe, species of Ixodes are vectors of bovine piroplasmosis, louping ill (ovine
encephalomyelitis), and human tick-borne encephalitis virus.
Amblyomma
Mouthparts are a very long, elongate second segment of palps
Conscutum and scutum ornate
Eyes present
Festoons present
Adanal plates on males absent, or when present, very small
Banded legs
Three-host ticks
Hyalomma
▪ Hyalomma resembles Amblyomma in having mouthparts much larger than the
basis capituli but differs in that the second and third palpal segments are
approximately the same length.
▪ Eyes are present.
▪ Festoons are irregularly
▪ The male has adanal and accessory shields. Inordinate. Coalesced
▪ Banded legs

▪ Capitulum of Hyalomma. Palpal segments two
and three of Hyalomma are approximately the
same length, whereas the second palpal
segment of Amblyomma is about twice as long
as the third.
Rhipicephalus
▪ The basis capituli is hexagonal.
▪ eyes and festoons are present, but the scutum is unornamented.
▪ males have salient adanal and accessory shields.
▪ Rhipicephalus microplus, also a piroplasmosis vector, has a broader host
range that includes horses, goats, sheep, and deer.
▪ Rhipicephalus annulatus have one-host (cattle) nature and it is a vector
for bovine piroplasmosis.
▪ Rhipicephalus pulchellus – the zebra tick
▪ It is present in the Horn of Africa and east of the Rift Valley from
Eritrea in the north to north-eastern Tanzania in the south.
▪ It is a three-host tick.
▪ The adults appear to be most abundant during the rainy season.
Three host tick.
▪ Vector for Nairobi sheep disease virus.
Dermacentor
▪ The basis capituli is rectangular, as viewed from above.
▪ Coxae of male's progress in size from the first to the fourth.
▪ Mostly Three-host tick.
▪ Dermacentor resembles Rhipicephalus in having eyes and 11 festoons.
▪ The scutum is ornamented, and the males lack adanal shields.
▪ Dermacentor nitens, the tropical horse tick, has no ornamentation on its
scutum and only seven festoons.
Haemaphysalis
▪ The palpi have laterally flared second segments.
▪ Avoid confusing these structures with the hexagonal basis capituli of
Rhipicephalus.
▪ Like Ixodes, these ticks have neither eyes nor scutal ornamentation,
but they differ in having festoons and a posterior anal groove.

Larvae and nymphs of Haemaphysalis
leporispalustris, the rabbit tick, feed
on ground-nesting birds and small
mammals, and the adults attach to
rabbits' ears and sometimes from
cats.
Family: Argasidae
Soft ticks
Soft ticks are small, consisting of 140 species
belonging to four genera:

Argas

Ornithodoros

Otobius

Cariosare limited to bats.
An argasid tick, Argas vespertilonis. (a) Dorsal view of female.
(b) Ventral view of female (reproduced from Arthur, 1963).
Argas species
Size 5- to 10-mm, flattened,
ovoid, and yellow to
reddish-brown ticks with
leathery, mammillated,
and wrinkled dorsal and
ventral surfaces meeting at
a sharp lateral margin.
The mouthparts are on
the ventral surface and thus
are hidden when the tick is
viewed from above.
Argas is rarely found on the
host; look in cracks and
crevices in the hen house
for these ticks.
▪ DISEASE TRANSMISSION
▪ In South America, Argas species transmit fowl
or avian spirochetosis (Borrelia anserina), via
tick fecal contamination to domestic
poultry, grouse, canaries etc...

▪ Ticks may remain infective for 6 months or
longer and may transmit the spirochetes Spirochetes are long
and slender bacteria,
to their offspring via the ovaries
(transovarial transmission).

▪ TICK PARALYSIS. Infestation with larvae of
Argas persicus can result in fatal flaccid
paralysis of young chickens.
Ornithodoros
Ornithodoros differs from Argas in:
▪ Being more globular.
▪ Lacking a sharp lateral margin.
▪ Not appearing distinctly ovoid when
viewed from above.

▪ The body is flattened in unfed
specimens but is strongly convex
dorsally when distended with blood.

▪ They are found in cracks and
crannies of avian roosts and nests, in
rodent burrows, and in the resting places
of large mammals.
DISEASE TRANSMISSION

▪ Ornithodoros are the most important
vectors and reservoirs of relapsing
fever spirochetes (Borrelia spp.) in
humans.

▪ Infection may be maintained in tick
populations for many years by
transovarial transmission of the
spirochetes from female ticks to
their offspring.

▪ Because the Ornithodoros ticks involved
in transmission are nocturnal and
surreptitious, relapsing fever victims
are frequently unaware of recent tick
exposure.
Otobius

IDENTIFICATION
▪ Larvae and two nymphal stages of Otobius
megnini, the spinose ear tick, parasitize the ear
canals of cattle, remaining in a particular host for
as long as 4 months.

▪ Other domestic animals and humans also
sometimes serve as hosts.

▪ As implied by the common name, the cuticle of
Otobius is covered by spines.

▪ The second nymphal stage is particularly
distinctive.
LIFE HISTORY
Larvae feed in the ear canal and molt into the first nymphal stage, which
in turn feeds in the same host’s ear canal and molts into the second
nymphal stage, which again feeds but leaves the ear canal and drops to
the ground to molt to the adult stage.

Adult Otobius have vestigial hypostomes and do not feed; they copulate
within a day or two after emergence, and the females oviposit in the soil.
Larvae survive unfed for as long as 2 months.

Thus, Otobius differs from Argas and Ornithodorus in being a one host
tick and laying only one egg clutch.
Family Nuttalliellidae
A third family of ticks, the
Nuttalliellidae, represented by a single
species in the genus, Nuttalliella
namaqua, are of real importance only
to acarologists.

Besides having markedly different
morphology, soft and hard ticks vary
greatly in their behavior.
Thanks....