Situation report on tick infestation of livestock tick-borne disease and tick control methods in Botswana

1992 ◽  
Vol 13 (04) ◽  
pp. 645-648
Author(s):  
M. Fanikiso ◽  
I. T. Ndzinge
1951 ◽  
Vol 41 (3) ◽  
pp. 469-485 ◽  
Author(s):  
G. Owen Evans

Ixodes ricinus is the common tick infesting farmstock in Wales. Dermacentor reticulatus is recorded on cattle and sheep on two farms in N. Cardiganshire.I. ricinus is widely distributed in the four major grassland zones of N.W. Cardiganshire. The most extensive areas of tick infestation are found on the marginal and hill farms. In lowland areas, except on extensive stretches of marshland, infested pastures are confined to isolated tracts of badly managed or poorly drained land. Infested grazings are invariably “rough” and contain one of the following plants as dominant: Festuca spp., Agrostis spp., Molinia caerulea, Nardus stricta, Pteris aquilina or Juncus spp. The degree of infestation of cattle depends on the relative area of the available grazing land colonised by the tick. Continuous stocking of infested pastures results in heavy infestations and vice versa.Bovine piroplasmosis is the major tick-borne disease in N.W. Cardiganshire and predominates in the lowland districts. Outbreaks of the disease on marginal and hill farms are generally infrequent. Reasons are suggested for this phenomenon. Tick pyaemia is confined to lambs on hill grazings. The incidence of this disease is low.The distribution of the tick in Wales and the border counties of Hereford and Salop shows a general relationship to areas of rough grazing. The tick is widespread in the western counties and is almost absent in the border counties. Radnorshire and Breconshire are interesting in that they have few infested farms in relation to the extensive nature of the “rough” grazing. A survey has also been conducted of the incidence of bovine piroplasmosis in Wales.


Author(s):  
André C. Uys ◽  
Ivan G. Horak ◽  
Alan Harrison

This survey of ixodid ticks was the first to compare the species composition and population dynamics of free-living ticks in intensive, sable antelope breeding enclosures, now commonplace in commercial wildlife ranching in South Africa, with those of multi-herbivore enclosures. The species composition, abundance and seasonal abundance of questing ixodid ticks on the vegetation in intensive breeding enclosures for sable antelope (Hippotragus niger), on which strategic tick control is practised, were compared with those of ticks in a multi-species herbivore enclosure surrounding the breeding enclosures in which no tick control is practised. A total of eight ixodid tick species were collected by drag-sampling the woodland and grassland habitats in each enclosure type monthly from July 2011 to July 2013. Rhipicephalus decoloratus, a potential vector of fatal tick-borne disease in sable antelopes, was the most abundant, accounting for 65.4% of the total number of ticks collected in the sable enclosures, whilst representing only 25.4% of number of ticks collected in the multi-species herbivore enclosure. Rhipicephalus decoloratus and R. evertsi evertsi were more abundant than R. appendiculatus (both p < 0.05) and Amblyomma hebraeum (p < 0.001 and p < 0.01, respectively). Rhipicephalus decoloratus larvae were collected throughout the year, with peak collections in November 2012 and October to December 2013 in the sable enclosures; and in April/May 2012 and February/April 2013 in the multi-species herbivore enclosure. More R. decoloratus were recovered in the second year than in the first year in the grassland habitat of the sable enclosures (V = 7.0, p < 0.05) possibly as a result of acaricide resistance. The apparent temporal over-abundance of R. decoloratus in sable antelope breeding enclosures, in the face of strategic tick control, is of concern and requires further investigation.


2019 ◽  
Author(s):  
Nayyereh Choubdar ◽  
Fateh Karimian ◽  
Mona Koosha ◽  
Jalil Nejati ◽  
Mohammad Ali Oshaghi

Abstract Background Anaplasmosis / Ehrlichiosis are tick-borne diseases affecting human and livestock in tropical and subtropical regions of the world. Due to infection both animals and humans and monitoring of ticks and the pathogens they carry, an extensive survey was conducted in border line of Iran-Pakistan of Sistan and Baluchistan, southeast corner of Iran in 2016-2017, where animal husbandry is the main activity of people and every week thousands of cattle cross the borders into the countries. The aim of the survey was to determine the prevalence and geographical distribution of Anaplasmosis / Ehrlichiosis agents in Hyalomma spp hard ticks. Ticks were collected, identified and processed for Anaplasma / Ehrlichia spp DNA detection. Results Six Hyalomma species were found in the region, where Hy. anatolicum was the most prevalent species collected on goats, cattle, and camel. Anaplasma / Ehrlichia genomes were found in 68.3% of the specimens. Anaplasma ovis, A.marginale, and E.ewingii DNAs prevalence were 81.82, 9.09, and 9.09% in the infected ticks respectively. DNA sequence and phylogenetic analysis of the 16SrRNA gene confirmed the detection of these three anaplasmosis agents while they had 99-100% identity with the strains previously reported in genbank from different parts of the world. Conclusion Because A.ovis and A.marginale are important livestock pathogens, and E.ewingii is an important human pathogen, both farmers and people in border line of the countries which engaged in livestock need to be made aware of the risks of tick infestation and the tick-borne disease they transmit.


1969 ◽  
Vol 89 (1-2) ◽  
pp. 59-66 ◽  
Author(s):  
Mildred Cortés ◽  
Alberto Pantoja ◽  
Wilfredo Robles ◽  
José Pantoja

Incidence of tick infestation in Puerto Rico was evaluated, as well as control mechanisms, and economic losses due to ticks in dairy herds. Data were obtained by means of questionnaire information from 261 dairy herds representing 85% of all dairies in Puerto Rico. Seventy-one percent of those interviewed confirmed tick infestation in their herds. To control tick infestation 97% used fumigation of animals; 8%, fumigation of structures. The most common method used for pesticide application (73%) was by fumigating animals in chutes by using a pump. Tick incidence was 72% in dry cows and 54% in milk cows. Poisson regression analysis showed no significant differences in mortality rates between the northeast and northwest zones of the island. Differences were found among municipalities. The average annual cost of the tick control program that farmers maintained was $28.09 per cow but mortality losses are much more costly.


Author(s):  
Charles Muleke Inyagwa ◽  
Frederick Ojiambo Obonyo ◽  
Donald Lubembe Mukolwe ◽  
Eric O. Mungube

Ticks are important ectoparasites of livestock in tropical and sub-tropical countries. They are responsible for the enormous economic losses both through the direct effects of blood sucking and indirectly as vectors of disease pathogens and toxins. Morphologically, ticks are classified into two families known as Ixodidae (hard ticks) and Argasidae (soft ticks). In this chapter, the authors provide a description of the soft and hard ticks. Emphasis is laid on the genera morphology, species, mammalian hosts, and distribution and the diseases transmitted by the ticks species. Various methods for controlling ticks and tick-borne diseases using chemicals are described. A broad range of chemical acaricides used for the control of ticks on livestock are described. Conventional methods and unconventional methods for applying acaricides to protect livestock against ticks are described. Alternative methods for tick control are described. Only the most important hard and soft ticks and associated diseases are discussed within the limits of this review.


2019 ◽  
Vol 57 (3) ◽  
pp. 807-814 ◽  
Author(s):  
Robert A Jordan ◽  
Terry L Schulze

Abstract In an update of earlier surveys conducted in Connecticut and New Jersey in the mid-1990s, an online survey of private commercial pest control firms engaged in residential tick control showed that the application of synthetic acaricides continues to be the primary method of control used. The carbamate and organophospate acaricides, previously the most commonly used against ticks, have given way to synthetic pyrethroids and, to a lesser extent, the use of natural product/organic acaricides. Typical costs for a single acaricide application today ($100–$200 for a 1 acre [0.4 ha] property) remain similar to those reported from the earlier surveys, although the frequency of applications and, therefore, also the overall annual cost has increased. The application habitats within residential properties, life stages targeted, and application equipment used have not changed appreciably since the mid-1990s. While most survey respondents expressed knowledge of natural product acaricides and Damminix Tick Tubes, many reported that they either did not employ or knew very little about other alternative tick control methods (including entomopathogenic fungus and topical application of acaricides to tick hosts via 4-Poster deer treatment stations or Select TCS rodent bait boxes). This suggests either a failure to adequately inform the pest management industry and their potential client base of the availability of alternate methods, and/or industry concerns about cost and effectiveness of the alternatives.


1962 ◽  
Vol 13 (5) ◽  
pp. 974 ◽  
Author(s):  
PR Wilkinson

Weekly counts of Boophilus microplus (Canestrini) on 30 Australian Illawarra Shorthorn heifers enabled the cattle to be ranked in order of tick infestation, with highly significant correlations between counts of two observers and between counts of one observer on different occasions. In May 1960, when the heifers were 1½–2 years old, 12 were selected as relatively tick-resistant and 12 as relatively tick-susceptible. Each of these groups was divided at random into herds of six, and the four herds were then allotted randomly to separate paddocks, each onequarter of the area previously grazed. A herd was sprayed with 0.5% DDT emulsion when its average count of ticks (adult females over 5 mm in length) on one side of the animals exceeded 40. During the ensuing tick season, from October 5, 1960, to June 7, 1961, the sums of average weekly tick counts, and the numbers of sprayings (in parenthesis) were: susceptible herds 4853 (5) and 5962 (6): resistant herds 718 (0) and 1073 (1). Counts of tick larvae on defined body areas showed that, in the summer after segregation, resistant herds carried fewer larvae than the susceptible herds, apparently because fewer mature ticks fell from the resistant cattle in the preceding spring and winter. As a consequence of this, counts of adult ticks were comparatively lower after than before segregation. There was little or no 'spring rise' of tick infestation on the resistant herds. There was no significant correlation between tick resistance and coat score, sweat gland dimensions, or total skin thickness, but a correlation of -0.53 with follicle depth was significant at the 1% level. There was no evidence of adaptation of cattle ticks to the resistant animals, either in the field experiment or in observations on stalled cattle. The experiment draws attention to the appreciable proportion of tick-resistant animals within the Australian Illawarra Shorthorn breed, which has largely been overlooked in past discussions on tick-resistant breeds of cattle. It also suggests a technique for estimating the improvement in tick control that may be obtained by a given degree of selection within any breed, for any given environment.


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