On the spermatophore of ixodid ticks

Structure and formation of the spermatophore and the extrusion of its contents in ixodid ticks were studied. The structure of the ectospermatophore resembles that of argasid ticks, whereas that of the endospermatophore differs completely; it is composed of several organelles which are absent in argasids.The chemical nature of the components of the spermatophore was studied by histochemical methods. The male forms the spermatophore by ejaculating the components in a definite order. The components of the ectospermatophore are deposited one into another—while those of the endospermatophore one on top of the other and are linked together in a chain. The last component to be ejected is a plug that closes the endospermatophore.During extrusion of the endospermatophore all of the components burst out of the ectospermatophore. The endospermatophore sheath evaginates and forms the capsule into which the sperm is inserted. Each capsule has two tube-like appendices.     

Experimental infection of ixodid ticks with Karshi virus

The ixodid ticks Hyalomma asiaticum, H. anatolicum, Dermacentor niveus were infected experimentally with Karsha virus. The virus replication has been proved to occur in the tick's organism. The titre of the virus grows gradually in infected ticks. Entering the tick's gut during its feeding virus particles penetrate into the gut walls where primary multiplication and accumulation of the virus take place.     

Ethanol inactivation of orthonairoviruses in ixodid ticks

Experimental and Applied Acarology - Ixodid ticks represent vectors and reservoirs for a broad range of zoonotic pathogens. Collected ticks from field studies are therefore usually stored in...     

Neural control of salivary glands in ixodid ticks

Studies of tick salivary glands (SGs) and their components have produced a number of interesting discoveries over the last four decades. However, the precise neural and physiological mechanisms controlling SG secretion remain enigmatic. Major studies of SG control have identified and characterized many pharmacological and biological compounds that activate salivary secretion, including dopamine (DA), octopamine, γ-aminobutyric acid (GABA), ergot alkaloids, pilocarpine (PC), and their pharmacological relatives. Specifically, DA has shown the most robust activities in various tick species, and its effect on downstream actions in the SGs has been extensively studied. Our recent work on a SG dopamine receptor has aided new interpretations of previous pharmacological studies and provided new concepts for SG control mechanisms. Furthermore, our recent studies have suggested that multiple neuropeptides are involved in SG control. Myoinhibitory peptide (MIP) and SIFamide have been identified in the neural projections reaching the basal cells of acini types II and III. Pigment-dispersing factor (PDF)-immunoreactive neural projections reach type II acini, and RFamide- and tachykinin-immunoreactive projections reach the SG ducts, but the chemical nature of the latter three immunoreactive substances are unidentified yet. Here, we briefly review previous pharmacological studies and provide a revised summary of SG control mechanisms in ticks.     

Genetic structure in ixodid ticks from Kangaroo Island and the South Australia mainland

We describe here a molecular genetic study designed to elucidate the ability of an ixodid tick to move within their range as well as between species or hosts. A direct match from the contiguous regions of the small rRNA subunit, control region #1, tRNA-Ile, tRNA-Gln and tRNA-Met of the population studied here with previously published sequence suggests that the species is likely Ixodes hirsti . Phylogenetic analysis of tick haplotypes showed no evidence for bird-host specialisation, and a nested clade analysis indicated a high degree of migration between our three collection sites (two sites on Kangaroo Island, and one site on mainland South Australia).     

Differences in the distant transmission of the tick-borne encephalitis virus by ixodid ticks of 2 subfamilies]

Simultaneous but separate feeding of ticks on nonviremic animal (guinea pig) has shown that Amblyomminae ticks are practically unable to transmit distantly tick-borne encephalitis virus (TBEV) to the specimens of their own subfamily and to Ixodinae as well. Ixodes persulcatus and I. ricinus displayed their ability as donors and recipients of TBEV (adults and nymphs) not only for their own subfamily representatives but also as donors for recipients of Amblyomminae subfamily (nymphs and adults of Dermacentor and Rhipicephalus and nymphs of Haemaphysalis). Experimental and literature data analysis permits the authors to conclude that the very important role of TBEV circulation in nature belongs to the distant virus transmission. The absence of such type of virus exchange among Amblyomminae excludes this group of ticks from active virus circulation in TBEV foci.     

Morphofunctional changes of salivary glands of female ixodid ticks of subfamilies Ixodinae and Amblyomminae (Acari: Ixodidae) during feeding and their significance

Using light and electron microscopy, a dynamics of functioning of salivary glands of female ticks of the genus Ixodes was studied. Comparative analysis of morphofunctional changes and role of the salivary gland secretions of females of subfamilies Ixodinae and Amblyomminae during feeding was performed on the basis of literature data and our own studies.     

The effect of avermectins on feeding,salivary fluid secretion,and fecundity in some ixodid ticks

We tested the effects of the potent acaricides, avermectin B₁a (AVM) and 22,23-dihydroavermectin B₁ (ivermectin; IVM) when injected directly into partially fed and fully engorged female ticks. When injected into small ticks (Amblyomma hebraeum Koch), neither drug (up to 100 g/kg b.w.) inhibited subsequent engorgement nor affected oviposition latency, weight of total egg mass laid nor viability of laid eggs. At higher concentrations (1000 and 5000 g/kg b.w.), AVM and IVM were markedly toxic. When injected into engorged ticks, both drugs increased oviposition latency, and reduced fecundity at about 75–100 g/kg b.w. Vitellogenesis, as assessed by a spectrophotometric assay of the ovaries, was not inhibited. Also at 50–100 g/kg b.w., AVM and IVM caused paralysis of the abdominal dorso-ventral muscles and the leg muscles. Both drugs, at 7 days post-injection, proved detrimental to salivary gland function in both small and large ticks, but had little effect on salivary gland weight. At concentrations which did not inhibit oviposition (20–50 g/kg b.w.) many of the eggs dried out even though they were kept at high RH. We then demonstrated inAmblyomma americanum, Dermacentor andersoni andD. albipictus that removal of egg wax (by extraction with hexane) induced a marked increase in water permeability. IVM neither increased water permeability ofD. andersoni eggs nor diminished the amount of egg wax deposited on the surface of the eggs, when injected posteriorly through the alloscutum. However, injection of IVM, dimethylsulphoxide (vehicle for IVM) or distilled water through the articulation between the capitulum and scutum (anterior injection), did markedly reduce the wax coating and increased egg permeability. We suggest that anterior injection damages Gené's organ and thus causes the latter effects.     

Variation in genome size of argasid and ixodid ticks

The suborder Ixodida includes many tick species of medical and veterinary importance, but little is known about the genomic characteristics of these ticks. We report the first study to determine genome size in two species of Argasidae (soft ticks) and seven species of Ixodidae (hard ticks) using flow cytometry analysis of fluorescent stained nuclei. Our results indicate a large haploid genome size (1C>1000 Mbp) for all Ixodida with a mean of 1281 Mbp (1.31+/-0.07 pg) for the Argasidae and 2671 Mbp (2.73+/-0.04 pg) for the Ixodidae. The haploid genome size of Ixodes scapularis was determined to be 2262 Mbp. We observed inter- and intra-familial variation in genome size as well as variation between strains of the same species. We explore the implications of these results for tick genome evolution and tick genomics research.     

A review of the types of parasite-host relations in ixodid ticks

In the first type of mutual relationships the ixodid ticks expose an evident pathogenicity to vertebrate hosts (tick toxicoses) and in the second type the hosts expose a resistance on a base of organism immune system activisation in a response to blood sucking. In the third type of relationships an interaction between the ticks and hosts have a dynamic character (tolerability of host). The first type of relationships leading to a selective elimination of hosts according to our opinion means a comparatively youth of relationships. The third type represent ancient and long term relationships. The second type probably having been widely spread in a historical past occupies an intermediate position. Depending upon areal the ticks of the same type expose different degree of the pathogenicity. Even an acquired resistance of the host does exist in natural conditions, it is a transient phenomenon.     

The ontogenetic variability of the morphometric traits of 2 species of ixodid ticks in the genus Rhipicephalus]

Variability of 10 morphometric characters at all phases was investigated on laboratory cultures of R. turanicus and R. bursa. It has been shown that variability increases from phase to phase. R. turanicus nymphs of both sexes differ in the length of gnathostoma and length of the 1st tarsus. In nymphs of R. bursa sexual dimorphism manifests itself on 8 characters, in all cases sizes of organs are greater in female nymphs. Besides, engorged female nymphs are reliably greater than male ones in length and mass of the body. Mature females and males of R. bursa also reliably differ in the total body length as well as in sizes of all examined structures. Females and males of R. turanicus do not differ in body length but differ in 9 other morphometric characters. Correlation analysis of characters was carried out individually for each phase and sex. Correlation coefficient between characters are most low in larvae. In R. turanicus male and female nymphs the coefficients are close. In R. bursa female nymphs correlation coefficients are noticeably lower than in male ones. The level of independence of characters in female nymphs defines the degree of manifestation of sexual dimorphism at this phase: the closer the links between characters, the lesser the number of characters revealing sexual differences. Coefficients of correlation of characters coincide in males of both species. In females of R. turanicus they are lower than in males that determines the strengthening of sexual dimorphism at the phase of imago.(ABSTRACT TRUNCATED AT 250 WORDS)     

Correlation of the relative population count of ixodid ticks with various recording methods

Data are given on the relative abundance ratio of 3 species of ixodid ticks obtained by different counting methods.     

Resistance and cross-resistance in guinea-pigs and rabbits to immature stages of ixodid ticks

Infestation of guinea-pigs and rabbits with larvae of any one of five species of ticks, Rhipicephalus appendiculatus Neumann, Rhipicephalus evertsi evertsi Neumann, Amblyomma hebrauem Koch, Amblyomma variegatum Fabricius and Ixodes ricinus L., conferred resistance in the animals when exposed to subsequent infestations with the same tick species. Resistance to infestations by other tick species was not observed.