Abstract
A survey to document tick control methods used by resource-limited farmers in the control of cattle ticks in the Eastern Cape Province of South Africa was conducted by interviewing 59 cattle farmers using structured questionnaires and general conversation. Information collected was on external parasites of cattle, their effects and their control methods. Ticks were reported to be a major problem causing diseases like anaplasmosis (89.8%), babesiosis (55.9%) and ehrlichiosis (16.9%), as well as wounds that predispose to screwworm infestation, tick worry and teat damage to cows troubling farmers in their farming enterprises. The main tick control methods were; acaricides provided by government, however 94.9% of the farmers interviewed were of the opinion that the dip wash is not effective in killing the ticks. As a result, farmers complement the government dipping service with their own initiatives like spraying with conventional acaricides (22%), household disinfectants such as Jeyes fluid (18.6%), used engine oil (10.2%), chickens (5.1%), manual removal (5.1%), and pouricides (1.7%). In addition, some farmers also use plants (6.8%), mainly the leaf of Aloe ferox and the bark of Ptaeroxylon obliquum. The study revealed ticks to be a major problem in the study area.
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References
Archer, R. and Reynolds, Y., 2001. Ptaeroxylon obliquum (Thunb) Radlk. South Africa. National Biodiversity institute. (http://www.//bold.cf.ac.uk/Bot.DermFolder/ BotDermR/RUTA.html).
Chamboko, T., Mukhebi, A.W., Callagen, C.J.O., Peter, T.F., Krusha, R.L., Medley, G.F., Mahan, S.M. and Perry, B.D., 1999. The control of Heartwater on large scale commercial and smallholder farms in Zimbabwe, Preventative Veterinary Medicine, 3, 191–210. doi:10.1016/S0167-5877(98)00144-5
Chem Alert Report, 2005. (http://www.waiwhetu.co.nz/msds/jd/jeyes%20fluid% 20(nz).pdf).
COEJL, 2004. (http://www.coejl.org./action/ft-ecphome.php)
de Waal, D.T., 2000. Anaplasmosis control and diagnosis in South Africa. Annals of the New York Academy of Sciences, 916, 474–483.
Delistraty, D. and Stone, A., 2007. Dioxins, metals, and fish toxicity in ash residue from space heaters burning used motor oil, Chemosphere, 68 (5), 907–914. doi:10.1016/j.chemosphere.2007.01.070
Dreyer, K., Fourie, L.J. and Kok, D.J., 1997. Predation of livestock ticks by chickens as tick control method in a resource poor urban environment. Onderspoort Journal of Veterinary Research, 64 (4), 237–276.
Drummond, R.O., 1983. Tick-borne livestock diseases and their vectors. Chemical control of Ticks. World Animal Review, (FAO). 36, 28–33.
Environmental services, 2007. (http://www.ci.arlington.tx.us/enviromentalservices/environmental_autosrvc_usedmotoroil.html).
FAO, 1974. Farm structures in tropical climates. (http://www.fao.org/docrep/ S1250E12.htm).
Garcia-Garcia, J.C., Montero, C., Redondo, M., Vargas, M., Canales, M., Boue, O., Rodriguez, M., Joglar, M., Machado, H., Gonalez, I.L., 2000. Control of ticks resistant to immunization with Bm86 in cattle vaccinated with recombinant antigen Bm95 isolated from the cattle tick, Boophilus microplus. Vaccine, 18 (21), 2275–2287 doi:10.1016/S0264-410X(99)00548-4
George, J.E., 2000. Present and Future technologies for tick control. Annals of the New York Academy of Science, 916, 583–588.
Grahman, O.H. and Hourrigan, J.L., 1977. Eradication programmes for the arthropod parasites of livestock. Journal of Medicinal Entomology, 13, 629–658.
Household products database. 2007. Material safety data sheet. (http://web.Grcc.cc.mi.us/Pr/msds/automechanics/motoroil.pdf).
Kaposhi, C.K.M. 1992. The role of natural products in integrated tick management in Africa. Insect Science and its Applications, 13 (4), 595–598.
Khudrathulla, M. and Jagannath, M.S., 2000. Effect of methanol extract of stylosanthes scabra on ixodid ticks of animals, Indian Journal of Animal Sciences, 70 (10), 1057–1058.
Kohn, W.K. and Norval, R.A.I., 1994. Predation of ticks by chickens in Zimbabwe. Zimbabwe Veterinary Journal, 25 (2), 33–37.
Kunene, N.W. and Fossey, A., 2006. A survey on livestock production in some traditional areas of Northern KwaZulu Natal in South Africa. Livestock Research for Rural Development. 18, (http://www.cipav.org.co/lrrd/lrrd18/8/kunene 18113:htm).
Malesela, J.S., 2004. Assessing implementation of veterinary Extension on control of cattle parasites, in Moretele District, North West Province, South Africa. (unpublished thesis, University of Pretoria).
Marvelous Aloe ferox. 2002. (http://www.marvelousaloeferox.com).
Masika, P.J. and Afolayan, A.J., 2003. An Ethno botanical study of plants used for the treatment of livestock diseases in the Eastern Cape Province, South Africa. Pharmaceutical Biology, 41, 16–21
Masika, P.J., Sonandi, A. & van Averbeke, W., 1997. Tick control by small-scale cattle farmers in the central Eastern Cape Province, South Africa. Journal of the South African Veterinary Association, 68 (2), 45–48.
Matthewson, M.D. and Baker, J.A.F., 1975. Arsenic resistance in species of multihost ticks in the republic of South Africa and Swaziland. Journal of South African.Veterinary Association, 46, 341–344.
Mbati, P.A., Hlatshwayo, M., Mtshali, M.S., Mogaswane, K.R., deWaal, T.D. and Dipeolu, O.O., 2002. Tick and tick borne diseases of livestock belonging to resource poor farmers in the Eastern Free State of South Africa. Springer, Netherlands, 28, 217–224.
Muchenje, V., Dzama, K., Chimonyo, M., Raats, J.G. and Strydom, P.E., 2008. Tick susceptibility and its effects on growth performance and carcass characteristics of Nguni, Bonsmara, and Angus steers raised on natural pasture. Animal, 2, 298–304. doi:10.1017/S1751731107001036
Mwale, M., Bhebhe, E., Chimonyo, M. and Halimani, T.E., 2005. Use of herbal plants in poultry health management in the Mushagashe small-scale commercial farming area in Zimbabwe, International Journal of Applied Research in Veterinary Medicine, 3, 163–170.
Nolan, J., 1990. Acaricide resistance in single and multiple-host ticks and strategies for control. Parasitology, 32, 145–153.
Oliver, J.H.S., 1989. Biology and systematic of ticks (Acari:ixidida) Annual Review of Ecology and System, 20 (1), 397–430. doi:10.1146/annurev.es.20.110189.002145
Peter, R.J., Van den Bossche, P., Penzhorn, B.L. and Sharp, B., 2005. Tick, fly, and mosquito control-lessons from the past, solutions for future, Veterinary Parasitology, 132, 205–215. doi:10.1016/j.vetpar.2005.07.004
Pontes, W.J.T., de Oliveira, J.C.S., da Camara, C.A.G., Lopes, A.C.H.R., 2007. Composition and acaricide Activity of Resin’s Essential Oil of Protium batianum Daly against two spotted spider mite (tetranychus urticae) Journal of Essential oil Research: JEOR. (http://findarticles.com/p/articles/im_qa4091/ is_200707/ai_n19434104).
Purdie, J., Bainbridge, M. and Martin, E. 2006. Management of a Plunge Cattle Dip. (http://www.nt.gov.au/dpifm/Content/File/p/Anim_Man/739.pdf).
Shumba, W. and Choga, S., 2003. Training for Trainers Manual. Department of veterinary services. Harare, Zimbabwe.
Sonenshine, D.E., 1991. Biology of ticks. Oxford University Press, New York, 1, 1–449.
Spickett, A.M., 1998. Acaricide and resistance. Veterinary Ectoparasitology and Protozoology, 1, 1–13.
Tabuti, J.R.S., Dhillion, S.S. and Lye, K.A., 2003. Ethno veterinary medicine for cattle (Bos indicus) in Bulamongi county, Uganda: plant Species and mode of use. Journal of Ethnopharmacolgy 88, 279–286. doi:10.1016/S0378-8741(03)00265-4
van Wyk, B.E., van Oustdtshoorn, B., Gericke, N., 2002. Medicinal Plants of South Africa. Pretoria, Briza, 1–304.
Webb, E.C. and David, M., 2002. The efficacy of neem seed extract (Azadirachta indica) to control tick infestation in Tswana, Simmentaler and Brahman cattle. South African Journal of Animal Science, 32 (1), 1–6.
Wharton, R.H., 1983. Tick borne livestock diseases and their vectors. Acaricide resistance and alternative methods of tick control. World Animal Review, (FAO). 36, 34–41.
Willadsen, P. and Kemp, D.H., 1988. Vaccination with concealed antigens for tick control. Parasitology Today, 4 (7), 196–198. doi:10.1016/0169-4758(88)90084-1
Acknowledgements
The authors acknowledge financial support from the National Research Foundation of South Africa. They also extend their thanks to ARDRI staff and the Department of Livestock and Pasture Science for their support. They are also grateful to all the people in the study areas for their willingness to participate in the surveys.
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Moyo, B., Masika, P.J. Tick control methods used by resource-limited farmers and the effect of ticks on cattle in rural areas of the Eastern Cape Province, South Africa. Trop Anim Health Prod 41, 517–523 (2009). https://doi.org/10.1007/s11250-008-9216-4
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DOI: https://doi.org/10.1007/s11250-008-9216-4