Development of polymorphic microsatellite markers for the human botfly, Dermatobia hominis (Diptera: Oestridae)

In this report, we describe the development of 17 polymorphic microsatellite markers for the human botfly, Dermatobia hominis, an obligatory parasite of mammals of great veterinary importance in Latin America. The number of alleles ranged from 5 to 21 per locus, with a mean of 12.2 alleles per locus. The expected heterozygosity ranged from 0.2571 to 0.9206 and from 0.2984 to 0.9291 in two populations from Brazil. These markers should provide a high resolution tool for assessment of the fine-scale genetic structure of natural populations of the human botfly.     

Prevalence of ectoparasites in goats (Capra aegagrus hircus) brought for slaughter in the Gwagwalada area, Abuja, Nigeria

Ectoparasites from the bodies of 600 slaughtered goats between the ages of 1 and 50 months, collected within a period of 10 months (February to November 2005), were isolated using fractionation techniques. Collected data were analysed by χ²‐test. A total of 60 of the 600 goats examined (10.00%) were infected with ectoparasites. The prevalent ectoparasites observed were species of Rhipicephalus (28 goats; 4.67%), Boophilus (8 goats; 1.33%), Amblyomma (6 goats; 1.00%), Hyalomma (6 goats; 1.00%), Linognathus (18 goats; 3.00%) and Damalina (1 goat; 0.17%). The infection rates according to age and sex of goats were not significantly different (P > 0.05). Goats were observed to have single or multiple infections of ectoparasites. More goats (46) had a single infection than a multiple infection (14). Regarding distribution of the ectoparasites on the various sites of the animal body, it was observed that lice preferred the head, back, ears and belly, while ticks were found in the hooves and interdigital spaces as well as at the sites listed for lice.     

Review Biology and ecology of trombidiid mites (Acari: Trombidioidea)

Most mites of the family Trombidiidae are ectoparasites in the larval stage and free-living predators in the deutonymphal and adult stages on a variety of arthropods, among which are pests of many economic crops. This paper provides an updated review of their systematics, life history, reproduction, behaviour, predator-prey and parasite-host relationships, and population dynamics, with particular reference to their possible role in biological control. © Rapid Science Ltd. 1998     

Occurrence of the parasitic sea lamprey<Emphasis Type="Italic">Petromyzon marinus</Emphasis> on western North Atlantic right whales <Emphasis Type="Italic">Eubalaena glacialis</Emphasis>

Few data exist on the marine distribution and host organisms of the parasitic sea lamprey, Petromyzon marinus. Some observers have speculated that cetaceans serve as hosts for these fish based on scars, but few lamprey – cetacean interactions have been described in detail in the literature. Here we discuss 35 previously unreported records of sea lampreys that were observed while attached to western North Atlantic right whales, Eubalaena glacialis, during the period 1984 – 2002. Of these observations, 11 were photographically documented with images of sufficient quality to identify the lamprey as P. marinus based on morphological characteristics. The majority of the attachments were recorded in the Bay of Fundy during the summer months when P. marinus are preparing to spawn. It is unknown how lampreys might benefit from this association or what cost may be incurred by their right whale hosts. Feeding and transport are two possible reasons for the attachments.     

Major ectoparasites of cattle in and around Mekelle, northern Ethiopia

Studies on the identification of major ectoparasites of cattle in and around Mekelle in northern Ethiopia were carried out from November 2006 to June 2007. Ectoparasite prevalence, infestation, and the possible risks associated with ectoparasites were investigated. Data collected were analyzed using the χ²‐test. A total of 849 cattle were examined: 40.2% (341), 53.2% (452) and 5.9% (50) were infested with ticks, lice and Demodex, respectively. A positive correlation was observed between prevalence and production system and breed of cattle. The results also revealed widespread occurrence of ectoparasites that have affected the general health and productivity of cattle in the study area. Seven different species of ticks were found on the cattle, with some capable of transmitting pathogens harmful to both cattle and humans.     

Natural Attachment Duration of Adult Female Ticks Ixodes Uriae (Acari: Ixodidae) on Free-Living Adult Black-Legged Kittiwakes Rissa Tridactyla

An investigation into the attachment duration of the tick Ixodes uriae on free-living adult black-legged kittiwakes Rissa tridactyla was carried out at a colony in southeast Scotland. Adult kittiwakes (n = 14) were caught and searched for ticks. Newly attached ticks (n = 31) were marked as was the bird before its release. These birds were recaptured at intervals of two to seven days and the presence or absence of the tick was recorded. The median attachment duration was estimated as 7.7 days (SE = 0.38) and estimated times for 5% and 95% of ticks to become detached were 5.22 days (SE = 0.67) and 9.51 days (SE = 0.58) respectively. Information on tick attachment duration is essential for the development of accurate models of tick population dynamics and patterns of disease transmission.     

Ectoparasitic mites and their Drosophila hosts

Only two parasite interactions are known for Drosophila to date: Allantonematid nematodes associated with mycophagous Drosophilids and the ectoparasitic mite Macrocheles subbadius with the Sonoran Desert endemic Drosophila nigrospiracula. Unlike the nematode-Drosophila association, breadth of mite parasitism on Drosophila species is unknown. As M. subbadius is a generalist, parasitism of additional Drosophilids is expected. We determined the extent and distribution of mite parasitism in nature Drosophilids collected in Mexico and southern California. Thirteen additional species of Drosophilids were infested. Interestingly, 10 belong to the repleta species group of the subgenus Drosophila, despite the fact that the majority of flies collected were of the subgenus Sophophora. In all cases but 2, the associated mites were M. subbadius. Drosophila hexastigma was found to have not only M. subbadius, but another Mesostigmatid mite, Paragarmania bakeri, as well. One D. hydei was also found to have a mite from genus Lasioseius attached. In both choice and no-choice experiments, mites were more attracted to repleta group species than to Sophophoran. The extent of mite parasitism clearly is much broader than previously reported and suggests a host bias mediated either by mite preference and/or some mechanism of resistance in particular Drosophilid lineages.     

Climate change and livestock parasites: integrated management of sheep blowfly strike in a warmer environment

The incidence of parasite‐mediated livestock disease is the result of a complex interaction of factors such as parasite and host abundance, host susceptibility, climate and, critically, farmer husbandry and intervention strategies, all of which change seasonally in space and time. Given the complexity of the interacting factors, the effects of environment changes on disease incidence are hard to predict, as accordingly are the optimal husbandry responses required to ameliorate any effects. Here a model system is used to explore these issues. Cutaneous myiasis (blowfly strike) is common disease of livestock and would be expected to be highly sensitive to even small changes in climate; it provides a good model for highlighting the problems inherent in attempting to predict the effect of climate change on livestock disease incidence. For this, a stochastic simulation model is used to examine the changes in the seasonal incidence of ovine cutaneous myiasis on farms in the United Kingdom and the likely effects of changes in husbandry and control strategies. The simulations show that the range of elevated temperatures predicted by current climate change scenarios result in an elongated blowfly season with earlier spring emergence and a higher cumulative incidence of strike. Overall, higher temperatures increased strike incidence disproportionately in ewes in early summer, but had relatively less direct effect on the pattern of lamb strike incidence; a +3 °C increase in average temperature approximately doubles the cumulative incidence of strike in lambs but results in four times more strikes in ewes. A range of strike management options is examined and the models show that changes in husbandry practices are also likely to have an important effect in reducing early season ewe strike incidences. The simulations suggest that integrated changes in husbandry practices are likely to be able to manage expected increases in strike, given the range of climate changes currently predicted.