J. Allen Miller

The '4-poster' passive topical treatment device to apply acaricide for controlling ticks (Acari: Ixodidae) feeding on white-tailed deer.

Abstract A ‘4-poster’ device that attracts white-tailed deer to a bait source, and as they feed, allows a self-application of a pesticide to the head, ears, and neck to control ticks was designed, constructed, and tested. The device consists of a central bin containing bait to attract deer and two feeding and application stations. These stations each have one bait port and two vertical pesticide-impregnated applicator rollers. This design allows unrestricted vertical retraction of the head to minimize injury to the deer or damage to the posts supporting the pesticide application rollers. Observations using deer demonstrated ready acceptance and repeated use by both antlered and antlerless deer. Results of an initial trial indicate that control values for lone star ticks,Amblyomma americanum(L.), exceeded 92–97% on deer that used the device regularly.

Efficacy of Amitraz Applied to White-Tailed Deer by the ‘4-Poster’ Topical Treatment Device in Controlling Free-Living Lone Star Ticks (Acari: Ixodidae)

Abstract White-tailed deer treated themselves with a commercial pour-on acaricide formulation containing 2% amitraz as they fed from an ARS-patented ‘4-poster’ topical treatment device. Whole kernel corn attracted deer to a single device placed in each of two deer-fenced pastures. In the treatment pasture, the rollers of the treatment device were charged with the acaricide, whereas the rollers of the device in the other pasture remained untreated. Deer were allowed to use the ‘4-posters’ during periods of tick activity beginning in early to midspring and lasting through late summer to early fall for three consecutive years. Pretreatment sampling of adults and nymphs with dry-ice traps and larval masses with flip cloths showed no significant differences in population indices between the two pastures; however, after the third year of treatment, control of nymphal and adult ticks in the treated pasture was 91.9 and 93.7%, respectively, when compared with the untreated pasture. Control of larval masses increased from 68.4% in year 1 to 96.4% in year 2, but declined to 88.0% in year 3, probably because of the presence of feral hogs. This study demonstrated that application of amitraz to white-tailed deer through free-choice interaction with a ‘4-poster’ device significantly reduced the abundance of free-living lone star ticks in a deer-fenced experimental pasture. Moreover, the yearly pattern of incremental increases in control and the final percentage control values for all three parasitic life stages in this topical application study were similar in magnitude to that observed in a previously conducted study in which the systemic acaricide ivermectin was used to reduce populations of free-living ticks by controlling ticks on deer.

Comparison of the efficiency of biological transmission of Anaplasma marginale (Rickettsiales: Anaplasmataceae) by Dermacentor andersoni Stiles (Acari: Ixodidae) with mechanical transmission by the horse fly, Tabanus fuscicostatus Hine (Diptera: Muscidae).

Abstract Mechanical transmission of Anaplasma marginale by horse flies (Tabanidae) is thought to be epidemiologically significant in some areas of the United States. We compared the relative efficiencies of mechanical transmission of Anaplasma marginale by the horse fly, Tabanus fuscicostatus Hine, during acute infection (≈107 to ≈109 infected erythrocytes [IE]/ml blood) with biological transmission by Dermacentor andersoni Stiles in the persistent phase of infection (≈102.5 to ≈106 IE/ml). Transmission of A. marginale was not observed when horse flies were partially fed on an acutely infected donor calf and immediately transferred to susceptible calves to complete their blood meal. Ticks that were acquisition fed on the same donor host after it reached the persistent phase of infection successfully transmitted A. marginale when transferred to the same recipient calves that failed to acquire infection after fly feeding. Failure of fly-borne mechanical transmission at a rickettsemia >240-fold higher than that from which ticks transmitted with 100% efficiency shows that tick-borne biological transmission is at least two orders of magnitude more efficient than mechanical transmission by horse flies.

Therapeutic and persistent efficacy of a long-acting (LA) formulation of ivermectin against Rhipicephalus (Boophilus) microplus (Acari: Ixodidae) and sera concentration through time in treated cattle.

The concentration-time profile, therapeutic, and persistent efficacy of a single subcutaneous injection of cattle with a long-acting (LA) formulation of ivermectin at a concentration of 630microg/kg of body weight were determined against Rhipicephalus (Boophilus) microplus. Ivermectin sera concentration in treated cattle increased to 13.0ppb within 1d after treatment, and peaked at 26.2ppb at 11d post-treatment. Ivermectin sera levels remained above the threshold level for control of feeding ticks (>or=8ppb) for 42.6d after treatment. Therapeutic efficacy of ticks on treated animals was >99.9%, and tick number, index of fecundity, engorgement weight, and egg mass weight of ticks from treated animals remained dramatically less than ticks from untreated animals. Tick number and reproductive capacity of ticks infested on treated animals at 14 and 28d post-treatment were less than for ticks on untreated animals, whereas engorgement weight and egg mass weight of treated ticks remained lower than that of untreated ticks 49d post-treatment. However, the level of control against ticks infested at 14d after treatment (99.9%) was the only post-treatment infestation interval that provided the required 99% control necessary for use in the U.S. tick eradication program. The 14d post-treatment infestation was also the only interval at which infested ticks were exposed to ivermectin levels above the threshold level of 8ppb for the entire parasitic development period. Cattle would have to be treated at intervals of no more than 31d apart to ensure that no viable ticks could reach repletion and detach from the host. Although this treatment interval is >2-fold longer than the present treatment requirement (14d), it is dramatically less than the label claim for the LA ivermectin formulation of 75d of prevention against re-infestation.

Dynamics and mechanisms of permethrin resistance in a field population of the horn fly, Haematobia irritans irritans

A study was conducted at the Pressler ranch, near Kerrville, Texas, USA between 2002 and 2006 to determine the dynamics and mechanisms of resistance to permethrin in a field population of the horn fly, Haematobia irritans irritans (L.). Changes of resistance to pyrethroid insecticide associated with use of a pour‐on formulation of cyfluthrin in 2002 and use of diazinon ear tags in subsequent years were studied using a filter paper bioassay technique and a polymerase chain reaction assay that detects two sodium channel mutations, kdr and super‐kdr resistance alleles. A maximum of 294‐fold resistance to permethrin was observed in the summer of 2002. A significant decrease in the resistance level was observed in spring 2003, and resistance continued to decline after animals were treated with diazinon ear tags. In response to pyrethroid treatments, the allelic kdr and super‐kdr frequency increased from 56.3% to 93.8% and from 7.5% to 43.8%, respectively in 2002, and decreased significantly in 2003 when the pyrethroid insecticide was no longer used to treat animals. Females were found to have a higher allelic super‐kdr frequency than males in 2002, while no difference was detected between males and females in the allelic kdr frequency. There was a significant positive correlation between frequencies of the sodium channel mutations and levels of permethrin resistance, suggesting that the sodium channel mutations, kdr and super‐kdr, are the major mechanisms of resistance to pyrethroids in this horn fly population. Results of synergist bioassays also indicated possible contributions of two metabolic detoxification mechanisms, the mixed function oxidases (MFO) and glutathione S‐transferases (GST). Compared to a horn fly infestation of an untreated herd, treatments with the pyrethroid pour‐on formulation failed to control horn flies at the Pressler ranch in 2002. Sustained control of horn flies was achieved with the use of diazinon ear tags in 2003 and subsequent years.

Efficacy of a Single Doramectin Injection Against Adult Female Boophilus microplus (Acari: Ixodidae) in the Final Stages of Engorgement Before Detachment

Abstract The efficacy of injectable doramectin applied at 200 &mgr;g/kg was evaluated against adult female Boophilus microplus (Canestrini) (Acari: Ixodidae) in the later stages of engorgement before detachment. Lethal levels of doramectin in the serum of treated cattle (9.7–36.6 ppb) were reached and sustained within 24 h after treatment. However, treatment at 19 or 20 d postinfestation allowed greater tick survival and reproductive capability (IF) than at 18 d postinfestation, indicating that a significant portion of the ticks were able to engorge and detach before obtaining a lethal dose of doramectin. Thus, treatment at 18 d after infestation provided significantly higher overall control (99.5%) than treatment at 19 or 20 d postinfestation (95.8 and 89.1%, respectively). Analysis of control on a daily basis demonstrated that treatment at 18 d postinfestation provided >99% on each day of the evaluation. Conversely, treatment at 19 or 20 d postinfestation produced levels of control ranging from 22.6 to 85.6% during the first 2 d of female detachment, and ≥99% control was not achieved until after the fourth day of female detachment, where it remained throughout the study. Therefore, application of injectable doramectin at ≤18 d after tick infestation was the only treatment regime considered acceptable for use in the U.S. Boophilus Eradication Program. Treatment intervals >18 d postinfestation could pose a substantial risk of dispersing viable ticks to tick-free areas outside the permanent quarantine zone that has been established along the Texas–Mexico border.

Depletion rates of injected and ingested ivermectin from blood serum of penned white-tailed deer, Odocoileus virginianus (Zimmermann) (Artiodactyla: Cervidae).

Abstract Penned female and male white-tailed deer, Odocoileus virginianus (Zimmerman), were administered ivermectin both by direct subcutaneous injection and by ingestion of ivermectin-medicated whole kernel corn. Depletion rates of ivermectin were determined by biweekly and weekly assays of blood serum. No statistical differences were observed between mean peak ivermectin serum concentrations in deer (data of sexes combined) from injection and ingestion studies, and ivermectin concentrations decreased to below detectable within 21 d after injection and 14 d after ingestion.

Controlled release products for control of ectoparasites of livestock

Publisher Summary A variety of insects, ticks, and mites affect the well-being and productivity of livestock. These pests can cause loss of blood, increase susceptibility to disease and infection, transmit diseases. Despite the inherent environmental problems of chemical control and the inevitable problem of resistance, pesticides remain a significant part of the producers defense against these pests either alone or as part of an integrated pest management strategy. Therefore it is necessary to develop pesticides in a judicious and safe manner. Novel and improved delivery systems provide a means of minimizing the quantity of chemical needed for control of the pests, reducing the labor involved in gathering and treating cattle at frequent intervals, and reducing the environmental hazards associated with chemical control. The purpose of this chapter is to review various controlled release delivery systems that have been developed or are under development for the control of livestock ectoparasites.

Depletion Rate of Doramectin from Blood Serum of Penned Female White-Tailed Deer (Artiodactyla: Cervidae)

Abstract Female white-tailed deer, Odocoileus virginianus (Zimmerman), were held in small pens and administered doramectin by free choice of doramectin-coated whole kernel corn, Zea mays L., fed ad libitum with 19% protein deer pellets also being fed ad libitum in a separate container. The mean concentration of doramectin in the serum during treatment was 72.8 ppb. The mean doramectin concentration in the serum decreased to <2 ppb, the lower limit of detection by high-pressure liquid chromatography, by day 14 after termination of treatment after withdrawal of doramectin-treated corn from the diet.

Effect of rainfall exposure immediately after a single dip treatment with coumaphos on the control of Rhipicephalus (Boophilus) microplus (Acari: Ixodidae) on infested cattle.

ABSTRACT Efficacy of a single dip treatment in coumaphos at 0.182% active ingredient was determined against all parasitic stages of Rhipicephalus (Boophilus) microplus (Canestrini) on infested cattle exposed to various levels of rainfall immediately after treatment. One group of calves remained untreated with no exposure to rainfall to serve as a negative control. A second group of cattle treated with coumaphos, but not exposed to rainfall, acted as a positive treated control. Three additional groups of coumaphos-treated cattle were exposed to 14.3, 28.6, and 42.9 mm of rainfall, respectively. In the coumaphos-treated group not exposed to a rainfall, overall mean control (99.2%) was greater and mean female engorgement weight (200 mg), egg mass weight (43 mg), and index of fecundity (IF; 2.90) were all less than any group exposed to rainfall. Although exposure to the lowest level of rainfall (14.3 mm) resulted in substantially greater control (83.7%) with lower mean egg mass weight (65 mg) and IF (62.26) than ticks exposed to 28.6 or 42.9 mm of rainfall, differences were seldom significant (P > 0.05). This suggested that higher levels of rainfall exposure adversely impacted coumaphos efficacy somewhat more than lower levels of rainfall exposure. Control remained >97% against larval ticks regardless of rainfall exposure level; however, against nymphs or adults, dramatic declines in control occurred as a result of exposure to any rainfall. Thus, the movement of coumaphos treated cattle exposed to any level of rainfall would pose a high risk of dispersing viable ticks into uninfested areas.