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Chemical control of ticks on cattle and the resistance of these parasites to acaricides

Published online by Cambridge University Press:  19 April 2005

J. E. GEORGE ,
J. M. POUND  and
R. B. DAVEY
J. E. GEORGE
Affiliation:
Knipling-Bushland US Livestock Insects Research Laboratory, USDA, Agricultural Research Service, 2700 Fredericksburg Road, Kerrville, Texas 78028-9184, USA
J. M. POUND
Affiliation:
Knipling-Bushland US Livestock Insects Research Laboratory, USDA, Agricultural Research Service, 2700 Fredericksburg Road, Kerrville, Texas 78028-9184, USA
R. B. DAVEY
Affiliation:
Cattle Fever Tick Research Laboratory, USDA, Agricultural Research Service, Route 3, Box 1010, Edinburg, Texas 78539, USA
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Abstract

Toward the end of the nineteenth century a complex of problems related to ticks and tick-borne diseases of cattle created a demand for methods to control ticks and reduce losses of cattle. The discovery and use of arsenical solutions in dipping vats for treating cattle to protect them against ticks revolutionized tick and tick-borne disease control programmes. Arsenic dips for cattle were used for about 40 years before the evolution of resistance of ticks to the chemical, and the development and marketing of synthetic organic acaricides after World War II provided superior alternative products. Most of the major groups of organic pesticides are represented on the list of chemicals used to control ticks on cattle. Unfortunately, the successive evolution of resistance of ticks to acaricides in each chemical group with the concomitant reduction in the usefulness of a group of acaricides is a major reason for the diversity of acaricides. Whether a producer chooses a traditional method for treating cattle with an acaricide or uses a new method, he must recognize the benefits, limitations and potential problems with each application method and product. Simulation models and research were the basis of recommendations for tick control strategies advocating approaches that reduced reliance on acaricides. These recommendations for controlling ticks on cattle are in harmony with recommendations for reducing the rate of selection for acaricide resistance. There is a need to transfer knowledge about tick control and resistance mitigation strategies to cattle producers.

Keywords

Tickcattlediseasecontrolacaricideresistance
Type
Research Article
Information
Parasitology , Volume 129 , Issue S1 , October 2004 , pp. S353 - S366
Copyright
© 2004 Cambridge University Press

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References

REFERENCES

AGUIRRE, J., SOBRINO, L., SANTAMARIA, M., ABURTO, S., ROMAN, E., HERNANDEZ, M., ORTIZ, M. & ORTIZ, Y. A. ( 1986). Resistencia de garrapatas en Mexico. In Seminario Internacional de Parasitologia Animal, Memorias ( ed. Cavazzani, A. H. & Garcia, Z.), pp. 282306. Cuernavaca, Morelos, Mexico.
AGUIRRE, D. H., VIÑABAL, A. E., SALATIN, A. O., CAFRUNE, M. M., VOLPOGNI, M. M., MANGOLD, A. J. & GUGLIEMONE, A. A. ( 2000). Susceptibility to two pyrethroids in Boophilus microplus (Acari: Ixodidae) populations in northwest Argentina: Preliminary Results. Veterinary Parasitology 88, 329334.CrossRefGoogle Scholar
ALLAN, S. A., BARRÉ, N., SONENSHINE, D. E. & BURRIDGE, M. J. ( 1998). Efficacy of tags impregnated with pheromone and acaricide for control of Amblyomma variegatum. Medical and Veterinary Entomology 12, 141150.CrossRefGoogle Scholar
ANGUS, B. M. ( 1996). The history of the cattle tick Boophilus microplus in Australia and achievements in its control. International Journal for Parasitology 26, 13411355.CrossRefGoogle Scholar
BAKER, J. A. F. & SHAW, R. D. ( 1965). Toxaphene and lindane resistance in Rhipicephalus appendiculatus, the brown ear tick of equatorial and southern Africa. Journal of the South African Veterinary Medical Association 36, 321330.Google Scholar
BAXTER, G. D. & BARKER, S. C. ( 1998). Acetylcholinesterase cDNA of the cattle tick, Boophilus microplus: characterization and role in organophosphate resistance. Insect Biochemistry and Molecular Biology 28, 581589.CrossRefGoogle Scholar
BENAVIDES, E., RODRÍGUEZ, J. L. & ROMERO, A. ( 2000). Isolation and partial characterization of the Montecitos strain of Boophilus microplus (Canestrini, 1877) multi-resistant to different acaricides. Annals of the New York Academy of Sciences 916, 668671.Google Scholar
BULL, M. S., SWINDALE, S., OVEREND, D. & HESS, E. A. ( 1996). Suppression of Boophilus microplus populations with fluazuron – an acarine growth regulator. Australian Veterinary Journal 74, 468470.CrossRefGoogle Scholar
CAPRONI, L. Jr., UMEHARA, O., MORO, E. & GONCALVES, L. C. B. ( 1998). Field efficacy of doramectin and ivermectin against natural infestations of the cattle tick Boophilus microplus. Brazilian Journal of Veterinary Parasitolgy 7, 151155.Google Scholar
COBBETT, N. G. ( 1947). Preliminary tests in Mexico with DDT, cube hexachlorocyclohexane (Benzene hexachloride), and combinations thereof, for the control of the cattle fever tick, Boophilus annulatus. American Journal of Veterinary Research 8, 280283.Google Scholar
COETZEE, B. B., STANFORD, G. D. & DAVIS, D. A. T. ( 1987). The resistance spectrum shown by a fenvalerate-resistant strain of blue tick (Boophilus decoloratus) to a range of ixodicides. Onderstepoort Journal of Veterinary Research 54, 7982.Google Scholar
CORONADO, A. ( 1995). Current status of the tropical cattle tick, Boophilus microplus in Venezuela. In Resistencia y Control en Garrapatas y Moscas de Importancia Veterinaria, III Seminario Internacional Parasitologia Animal ( ed. Rodriquez, S. & Fragoso, H.), pp. 2229. Acapulco, Guerrero, Mexico.
DAVEY, R. B. & AHRENS, E. H. ( 1984). Control of Boophilus ticks on heifers with two pyrethroids applied as sprays. American Journal of Veterinary Research 45, 10081010.Google Scholar
DAVEY, R. B., AHRENS, E. H., GEORGE, J. E., HUNTER, J. E. III & JEANNIN, P. ( 1998). Therapeutic and persistent efficacy of fipronil against Boophilus microplus (Acari: Ixodidae) on cattle. Veterinary Parasitology 74, 261276.CrossRefGoogle Scholar
DAVEY, R. B., AHRENS, E. H., GEORGE, J. E., HUNTER, J. E. III & JEANNIN, P. ( 1999). Evaluation of a pour-on formulation of fipronil against Boophilus microplus (Acari: Ixodidae) under natural South Texas field conditions. Experimental and Applied Acarology 23, 351364.CrossRefGoogle Scholar
DAVEY, R. B., AHRENS, E. H., GEORGE, J. E. & KARNS, J. S. ( 1995). Efficacy of freshly mixed coumaphos suspensions adjusted to various pH levels for treatment of cattle infested with Boophilus annulatus (Say) (Acari: Ixodidae). Preventative Veterinary Medicine 23, 18.CrossRefGoogle Scholar
DAVEY, R. B. & GEORGE, J. E. ( 2002). Efficacy of macrocyclic lactone endectocides against Boophilus microplus (Acari: Ixodidae) infested cattle using different pour-on application treatment regimes. Journal of Medical Entomology 39, 763769.CrossRefGoogle Scholar
DAVEY, R. B., GEORGE, J. E. & SNYDER, D. E. ( 2001). Efficacy of a single whole-body spray treatment of spinosad, against Boophilus microplus (Acari: Ixodidae) on cattle. Veterinary Parasitology 99, 4152.CrossRefGoogle Scholar
FRAGOSO, H., SOBERANES, N., ORTIZ, M., SANTAMARIA, M. & ORTIZ, A. ( 1995). Epidemiologia de la resistencia a ixodicides piretroides en garrapatas Boophilus microplus en la Republica Mexicana. In Resistencia y Control en Garrapatas y Moscas de Importancia Vetenaria, III Seminario Internacional de Parasitologia Animal ( ed. Rodriquez, S. & Fragoso, H.), pp. 4557. Acapulco, Guerrero, Mexico.
FRANCIS, M. ( 1892). Preventive measures for farm or range use. Bulletin of the Texas Agriculture Experiment Station 24, 253256.Google Scholar
FURLONG, J. ( 1999). Diagnosis of the susceptibility of the cattle tick, Boophilus microplus, to acaricides in Minas, Gerais State, Brazil. In Control de la Resistencia en Garrapatas y Moscas de Importancia Veterinaria y Enfermedades que transmiten, IV Seminario Internacional de Parasitologia Animal ( ed. Morales, G., Fragosa, H. & Garcia, Z.), pp. 4146. Puerto Vallarta, Jalisco, Mexico.
GEORGE, J. E. ( 1990). Summing-up of strategies for the control of ticks in regions of the world other than Africa. Parassitologia 32, 203209.Google Scholar
GEORGE, J. E., DAVEY, R. B., AHRENS, E. H., POUND, J. M. & DRUMMOND, R. O. ( 1998). Efficacy of amitraz (Taktic® 12·5% EC) as a dip for the control of Boophilus microplus (Canestrini) (Acari: Ixodidae) on cattle. Preventive Veterinary Medicine 37, 5567.CrossRefGoogle Scholar
GEORGHIOU, G. P. & TAYLOR, C. E. ( 1977). Operational influences in the evolution of insecticide resistance. Journal of Economic Entomology 70, 653658.CrossRefGoogle Scholar
GONZALES, J. C., MUNIZ, R. A., FARIAS, A., GONCALVES, L. C. B. & REW, R. S. ( 1993). Therapeutic and persistent efficacy of doramectin against Boophilus microplus in cattle. Veterinary Parasitology 49, 107109.CrossRefGoogle Scholar
GRAHAM, O. H. & HOURRIGAN, J. L. ( 1977). Eradication programs for the arthropod parasites of livestock. Journal of Medical Entomology 13, 629658.CrossRefGoogle Scholar
GUERRERO, F. D., LI, A. Y. & HERNANDEZ, R. ( 2002). Molecular diagnosis of pyrethroid resistance in Mexican strains of Boophilus microplus (Acari: Ixodidae). Journal of Medical Entomology 39, 770776.CrossRefGoogle Scholar
HE, H., CHEN, A. C., DAVEY, R. B., IVIE, G. W. & GEORGE, J. E. ( 1999). Identification of a point mutation in the para-type sodium channel gene from a pyrethroid-resistant cattle tick. Biochemical and Biophysical Research Communications 261, 558561.CrossRefGoogle Scholar
HERNANDEZ, R., HE, H., CHEN, A. C., WAGHELA, S. D., IVIE, G. W., GEORGE, J. E. & WAGNER, G. G. ( 2000). Identification of a point mutation in an esterase gene in different populations of the southern cattle tick, Boophilus microplus. Insect Biochemistry and Molecular Biology 30, 969977.CrossRefGoogle Scholar
JONSSON, N. N. ( 1997). Control of cattle ticks (Boophilus microplus) on Queensland dairy farms. Australian Veterinary Journal 75, 802807.CrossRefGoogle Scholar
JONSSON, N. N. & MATSCHOSS, A. L. ( 1998). Attitudes and practices of Queensland dairy farmers to the control of the cattle tick, Boophilus microplus. Australian Veterinary Journal 76, 746751.CrossRefGoogle Scholar
KEMP, D. H., McKENNA, R. V., THULLNER, R. & WILLADSEN, P. ( 1999). Strategies for tick control in a world of acaricide resistance. In Control de la Resistencia en Garrapatas y Moscas de Importancia Veterinaria y Enfermedades que transmiten, IV Seminario Internacional de Parasitologia Animal ( ed. Morales, G., Fragosa, H. & Garcia, Z.), pp. 110. Puerto Vallarta, Jalisco, Mexico.
KEMP, D. H., THULLNER, F., GALE, K. R., NARI, A. & SABATINI, G. A. ( 1998). Acaricide resistance in the cattle-ticks Boophilus microplus and B. decoloratus: Review of Resistance data; standardization of resistance tests and recommendations for integrated parasite control to delay resistance. Report to the Animal Health Services AGAH, FAO, October 1998. FAO, Rome.
KUNZ, S. E. & KEMP, D. H. ( 1994). Insecticides and acaricides: Resistance and environmental impact. Revue scientifique et technique Office International des Epizooties 13, 12491286.CrossRefGoogle Scholar
LASOTA, J. A. & DYBAS, R. A. ( 1991). Avermectins, a novel class of compounds: Implications for use in arthropod pest control. Annual Review of Entomology 36, 91117.CrossRefGoogle Scholar
LAWRENCE, J. ( 1992). History of bovine theileriosis in southern Africa. In The Epidemiology of Theileriosis in Africa ( ed. Norval, R. A. I., Perry, B. D. & Young, A. S.), pp. 140. Academic Press, London.
LAWRENCE, J. A. & NORVAL, R. A. I. ( 1979). A history of ticks and tick-borne diseases of cattle in Rhodesia. Rhodesian Veterinary Journal 10, 2840.Google Scholar
MARTINS, J. R., CORREA, B. L., CERESÉR, V. H. & ARTECHE, C. C. P. ( 1995). A situation report on resistance to acaricides by the cattle tick Boophilus microplus in the state of Rio Grande do Sul, southern Brazil. In Resistencia y Control en Garrapatas y Moscas de Importancia Veterinaria, III Seminario Internacional Parasitologia Animal ( ed. Rodriquez, S. & Fragoso, H.), pp. 16. Acapulco, Guerrero, Mexico.
MARTINS, J. R. & FURLONG, J. ( 2001). Avermectin resistance of the cattle tick Boophilus microplus in Brazil. The Veterinary Record July 14, 2001, 64.Google Scholar
MAUNDER, J. C. J. ( 1949). Cattle tick control: Results achieved in the field with DDT and BHC. Queensland Agricultural Journal September, 18.Google Scholar
McDOUGALL, K. W. & MACHIN, M. V. ( 1988). Stabilization of the carbamate acaricide promacyl in cattle dipping fluid. Pesticide Science 22, 307315.CrossRefGoogle Scholar
MILLER, J. A., DAVEY, R. B., OEHLER, D. D., POUND, J. M. & GEORGE, J. E. ( 1999). Control of Boophilus annulatus (Acari: Ixodidae) on cattle using injectable microspheres containing ivermectin. Journal of Economic Entomology 92, 11421146.CrossRefGoogle Scholar
MILLER, J. A., DAVEY, R. B., OEHLER, D. D., POUND, J. M. & GEORGE, J. E. ( 2001). The Ivomec SR Bolus for control of Boophilus annulatus (Acari: Ixodidae) on cattle in South Texas. Journal of Economic Entomology 94, 16221627.CrossRefGoogle Scholar
MILLER, R. J., DAVEY, R. B. & GEORGE, J. E. ( 2002). Modification of the Food and Agriculture Organization Larval Packet Test to measure amitraz-susceptibility against Ixodidae. Journal of Medical Entomology 39, 645651.CrossRefGoogle Scholar
MILLER, R. J., GEORGE, J. E., GUERRERO, F., CARPENTER, L. & WELCH, J. B. ( 2001). Characterization of acaricide resistance in Rhipicephalus sanguineus (Latrille) (Acari: Ixodidae) collected from the Corozal Army Veterinary Quarantine Center, Panama. Journal of Medical Entomology 38, 298302.CrossRefGoogle Scholar
MOHLER, J. R. ( 1906). Texas or tick fever and its prevention. United States Department of Agriculture Farmer's Bulletin Number 258, 145.Google Scholar
MUNIZ, R. A., HERNANDEZ, F., LOMBARDERO, O., LEITE, R. C., MORENO, J., ERRECALDE, J. & GONCALVES, L. C. B. ( 1995). Efficacy of injectable doramectin against natural Boophilus microplus infestations in cattle. American Journal of Veterinary Research 56, 460463.Google Scholar
NARI, A. & HANSEN, J. W. ( 1999). Resistance of Ecto- and Entoparasites: Current and Future Solutions. Office International des Épizooties Technical Report 67 SG/10. OIE, Paris.
NEWTON, L. G. ( 1967). Acaricide resistance and cattle tick control. Australian Veterinary Journal 43, 389394.CrossRefGoogle Scholar
NOLAN, J. ( 1981). Current developments in resistance to amidine and pyrethroid tickicides in Australia. In Tick Biology and Control ( ed. Whitehead, G. B. & Gibson, J. D.), pp. 109114. Tick Research Unit, Rhodes University, Grahamstown, South Africa.
NOLAN, J. ( 1990). Acaricide resistance in single and multi-host ticks and strategies for control. Parassitologia 32, 145153.Google Scholar
NOLAN, J., ROULSTON, W. J. & SCHNITZERLING, H. J. ( 1979). The potential value of some synthetic pyrethroids for control of the cattle tick (Boophilus microplus). Australian Veterinary Journal 55, 463466.CrossRefGoogle Scholar
NOLAN, J. & SCHNITZERLING, H. J. ( 1986). Drug resistance in arthropod parasites. In Chemotherapy of Parasitic Diseases ( ed. Campbell, W. C. & Rew, R. S.), pp. 603620. Plenum Press, New York.CrossRef
NORRIS, K. R. & STONE, B. F. ( 1956). Toxaphene-resistant cattle ticks (Boophilus microplus (Canestrini)) occurring in Queensland. Australian Journal of Agricultural Research 7, 211226.CrossRefGoogle Scholar
NORTON, G. A., SUTHERST, R. W. & MAYWALD, G. F. ( 1983). A framework for integrating control methods against the cattle tick, Boophilus microplus, in Australia. Journal of Applied Ecology 20, 489505.CrossRefGoogle Scholar
NORVAL, R. A. I., FIVAZ, B. H., LAWRENCE, J. A. & BROWN, A. F. ( 1984). Epidemiology of tick-borne diseases of cattle in Zimbabwe. II. Anaplasmosis. Tropical Animal Health and Production 16, 6370.CrossRefGoogle Scholar
NORVAL, R. A. I., SONENSHINE, D. E., ALLAN, S. A. & BURRIDGE, M. J. ( 1996). Efficacy of pheromone-acaricide-impregnated tail-tags decoys for controlling the bont tick, Amblyomma hebraeum (Acari: Ixodidae), on cattle in Zimbabwe. Experimental and Applied Acarology 20, 3146.Google Scholar
ORTIZ, E. M., SANTAMARIA, E. M. & FRAGOSO, S. H. ( 1994). Resistencia en garrapatas Boophilus microplus, a los ixodicidas en Mexico. In XIV Pan American Congress on Veterinary Sciences, Proceedings ( ed. Peréz Trujillo, J. M. & Gonzales Padilla, E.), pp. 473474. Acapulco, Guerrero, Mexico.
PALMER, B. H., McCARTHY, J. F., KOZLIK, A. & HARRISON, I. R. ( 1971). A new chemical group of cattle acaricides. Proceedings of the 3rd International Congress of Acarology, Prague 1971, pp. 687691.
PERRY, B. D. ( 1992). History of east coast fever in eastern and central Africa. In The Epidemiology of Theileriosis in Africa ( ed. Norval, R. A. I., Perry, B. D. & Young, A. S.), pp. 4162. Academic Press, London.
RECHAV, Y. ( 1987). Use of acaricide-impregnated ear tags for controlling the brown ear tick (Acari: Ixodidae) in South Africa. Journal of Economic Entomology 80, 822825.CrossRefGoogle Scholar
REMINGTON, B., KIERAN, P., COBB, R. & BODERO, D. ( 1997). The application of moxidectin formulations for control of the cattle tick (Boophilus microplus) under Queensland field conditions. Australian Veterinary Journal 75, 588591.CrossRefGoogle Scholar
RIDDLES, P. W. & NOLAN, J. ( 1986). Prospects for the management of arthropod resistance to pesticides. In Parasitology – Quo Vadit? ( ed. Howell, M. J.), pp. 679687. Proceedings of the 6th International Congress of Parasitology.
ROMERO, A., BENAVIDES, E., HERRERA, C. & PARRA, M. H. ( 1997). Resistencia de la garrapata Boophilus microplus a acaricides organofosforados y piretroides sintéticos en el departamento del Huila. Revista Colombiana de Entomologia 23, 917.Google Scholar
ROULSTON, W. J., STONE, B. F., WILSON, J. T. & WHITE, L. I. ( 1968). Chemical control of an organophosphorus- and carbamate-resistant strain of Boophilus microplus (Can.) from Queensland. Bulletin of Entomological Research 58, 379392.CrossRefGoogle Scholar
ROUSH, R. T. ( 1993). Occurrence, genetics and management of insecticide resistance. Parasitology Today 9, 174179.CrossRefGoogle Scholar
ROY-SMITH, F. ( 1975). Amitraz – Australian field trials against the cattle tick (Boophilus microplus). Proceedings of the 8th British Insecticide and Fungicide Conference, pp. 565571.
SABATINI, G. A., KEMP, D. H., HUGHES, S., NARI, A. & HANSEN, J. ( 2001). Tests to determine LC50 and discriminating doses for macrocyclic lactones against the cattle tick, Boophilus microplus. Veterinary Parasitology 95, 5362.CrossRefGoogle Scholar
SANGSTER, N. C. ( 2001). Managing parasiticide resistance. Veterinary Parasitology 98, 89109.CrossRefGoogle Scholar
SANGSTER, N., BATTERHAM, P., CHAPMAN, H. D., DURAISINGH, M., JAMBRE, L. L., SHIRLEY, M., UPCROFT, J. & UPCROFT, P. ( 2002). Resistance to antiparasitic drugs: the role of molecular diagnosis. International Journal for Parasitology 32, 637653.CrossRefGoogle Scholar
SCHNITZERLING, H. J., NOLAN, J. & HUGHES, S. ( 1983). Toxicology and metabolism of some synthetic pyrethroids in larvae of susceptible and resistant strains of the cattle tick Boophilus microplus (Can.). Pesticide Science 14, 6472.CrossRefGoogle Scholar
SCHNITZERLING, H. J., NOLAN, J. & HUGHES, S. ( 1989). Toxicology and metabolism of isomers of flumethrin in larvae of pyrethroid-suceptible and resistant strains of the cattle tick Boophilus microplus (Acari: Ixodidae). Experimental and Applied Acarology 6, 4754.CrossRefGoogle Scholar
SCHNITZERLING, H. J. & WALKER, T. B. ( 1985). Factors affecting the performance of acaricides used for control of the cattle tick, Boophilus microplus. Tropical Pest Management 31, 199203.CrossRefGoogle Scholar
SCHUNTNER, C. A., SCHNITZERLING, H. J. & ROULSTON, W. J. ( 1972). Carbaryl metabolism in larvae of organophosphorus and carbamate-susceptible and -resistant strains of cattle tick Boophilus microplus. Pesticide Biochemistry and Physiology 1, 424433.Google Scholar
SHAW, R. D. ( 1969). Tick control on domestic animals (i) A brief history of the economic significance of tick infestations. Tropical Science 11, 113119.Google Scholar
SHAW, R. D. ( 1970). Tick control on domestic animals (ii) The effect of modern treatment methods. Tropical Science 12, 2936.Google Scholar
SMITH, T. & KILBORNE, F. L. ( 1893). Investigations into the nature, causation, and prevention of Texas or southern cattle fever. United States Department of Agriculture, Bureau of Animal Industries Bulletin 1, 1301.CrossRefGoogle Scholar
SOBERANES, N., SANTAMARIA, M., FRAGOSO, H. & GARCIA, Z. ( 2002). Primer caso de resistencia al amitraz en garrapata del Ganado Boophilus microplus en México. Técnica Pecuaria en México 40, 8192.Google Scholar
SOLL, M. D., BENZ, G. W., CARMICHAEL, I. H. & GROSS, S. J. ( 1990). Efficacy of ivermectin delivered from an intraruminal sustained-released bolus against natural infestations of five African tick species on cattle. Veterinary Parasitology 37, 285295.CrossRefGoogle Scholar
SOLOMON, K. R. ( 1983). Acaricide resistance in ticks. Advances in Veterinary Science and Comparative Medicine 27, 273296.Google Scholar
STANFORD, G. D., BAKER, J. A. F., RATLEY, C. V. & TAYLOR, R. J. ( 1981). The development of a stabilized amitraz cattle dip for control of single and multi-host ticks and their resistant strains in South Africa. In Proceedings of a Conference on Tick Biology and Control ( ed. Whitehead, G. B. & Gibson, J. D.), pp. 143181. Rhodes University, Grahamstown, South Africa.
STENDEL, W. ( 1985). Experimental studies on the tickicidal effect of Bayticol® Pour-on. Veterinary Medical Report 2, 99111.Google Scholar
STONE, B. F. & MEYERS, R. A. J. ( 1957). Dieldrin-resistant cattle ticks, Boophilus microplus (Canestrini), in Queensland. Australian Journal of Agricultural Research 8, 312317.CrossRefGoogle Scholar
STRYDOM, T. & PETER, R. ( 1999). Acaricides and Boophilus spp. Resistance in South Africa. In Control de la Resistencia en Garrapatas y Moscas de Importancia Veterinaria y Enfermedades que transmiten, IV Seminario Internacional de Parasitologia Animal ( ed. Morales, G., Fragosa, H. & Garcia, Z.), pp. 3540. Puerto Vallarta, Jalisco, Mexico.
STUBBS, V. K., WILSHIRE, C. & WEBBER, G. ( 1982). Cyhalothrin – a novel acaricidal and insecticidal synthetic pyrethroid for the control of the cattle tick (Boophilus microplus) and the buffalo fly (Haematobia irritans exigua). Australian Veterinary Journal 59, 152155.CrossRefGoogle Scholar
SUTHERST, R. W. & COMINS, H. N. ( 1979). The management of acaricide resistance in the cattle tick, Boophilus microplus (Canestrini) (Acari: Ixodidae), in Australia. Bulletin of Entomological Research 69, 519537.CrossRefGoogle Scholar
SUTHERST, R. W., NORTON, G. A., BARLOW, N. D., CONWAY, C. R., BIRLEY, M. & COMINS, H. N. ( 1979). An analysis of management strategies for cattle tick (Boophilus microplus) control in Australia. Journal of Applied Ecology 16, 359382.CrossRefGoogle Scholar
TABASHNIK, B. E. ( 1990). Modeling and evaluation of resistance management tactics. In Pesticide Resistance in Arthropods ( ed. Roush, R. T. & Tabashnik, B. E.), 153182. Chapman Hall, New York.CrossRef
TAYLOR, M. A. ( 2001). Recent development in ectoparasiticides. The Veterinary Journal 161, 253268.CrossRefGoogle Scholar
TEEL, P. D., HAIR, J. A. & STRATTON, L. G. ( 1979). Laboratory evaluation of a sustained-release famphur bolus against gulf coast and lone star ticks feeding on Hereford heifers. Journal of Economic Entomology 72, 230233.CrossRefGoogle Scholar
WARE, G. W. ( 2000). The Pesticide Book, 5th edn. Thomson Publications, Fresno, California.
WHARTON, R. H. ( 1976). Tick-borne livestock diseases and their vectors. 5. Acaricide resistance and alternative methods of tick control. World Animal Review 20, 815.Google Scholar
WHARTON, R. H. & ROULSTON, W. J. ( 1970). Resistance of ticks to chemicals. Annual Review of Entomology 15, 381403.CrossRefGoogle Scholar
WHARTON, R. H., ROULSTON, W. J., UTECH, K. B. W. & KERR, J. D. ( 1970). Assessment of the efficiency of acaricides and their mode of application against the cattle tick Boophilus microplus. Australian Journal of Agricultural Research 21, 9851006.CrossRefGoogle Scholar
WHITEHEAD, G. B. ( 1958). A review of insecticide resistance in the blue tick, Boophilus decoloratus, in South Africa. Indian Journal of Malariology 12, 427432.Google Scholar
WHITNALL, A. B. M., McHARDY, W. M., WHITEHEAD, G. B. & MEERHOLZ, F. ( 1951). Some observations on the control of the bont tick, Amblyomma hebraeum Koch. Bulletin of Entomological Research 41, 577591.CrossRefGoogle Scholar
YOUNG, A. S., DE CASTRO, J. J. & KIZA-AURU, P. P. ( 1985). Control of tick (Acari: Ixodidae) infestation by application of ear tags impregnated with acaricides to cattle in Africa. Bulletin of Entomological Research 75, 609619.CrossRefGoogle Scholar