Abstract
A compilation of the known distribution of Boophilus ticks in Africa and Latin America is presented, together with details on climate preferences. B. annulatus is recorded mainly in the western part of a strip from the equator to parallel 20° N. It associates with woodlands and forests (lowland rain forest and secondary grassland). This species is also present in the Mediterranean region, associated to woodland and open areas. B. decoloratus extends southern to parallel 20° N, in woodland with montane vegetation and Zambezian miombo; some records have been collected in the highveld grassland. B. geigyi is mainly collected in the western range of a stripe extending between parallels 5° N and 18° N, associated with Sudanian woodland, lowland rain forest with secondary grassland and woodland. Confirmed records of microplus in Africa are restricted to Malagasy region and south and eastern Africa, being predominant in the Zambezian miombo, deciduous forest with secondary grassland, and woodland. In Latin America, microplus is abundant in the Mesoamerican corridor to Venezuela and Colombia, and southern in Brazil and Argentina. The tick is mainly associated to the biomes of Chaco and Pampas in Argentina, the North-central moist Andes, the Atlantic forest (southern range) and the moist Meso-American vegetation (northern range). Most collections of B. annulatus and B. geigyi came from areas where winter minimum temperature is above 15 °C, maximum temperatures remain between 33 and 36 °C and maximum rainfall is recorded between June and September. B. decoloratus and African B. microplus are recorded in sites with low temperatures in May–September. Minimum temperature requirements are similar for both B. decoloratus and African B. microplus, and both are around 4 °C less than the value recorded for collections of Latin-American B. microplus. The rainfall pattern observed for decoloratus shows a minimum in May and June. The requirements of total rainfall are highest for B. microplus in Latin America, while records of African B. microplus are concentrated in areas of low rainfall between May and October, and high rainfall between November and March (low rainfall in the same period for B. decoloratus). Statistical analysis revealed the existence of populations (demes) with ecologically different requirements within each tick species. Both B. annulatus and B. decoloratus showed many different demes clearly associated to defined areas. The collections of Latin American B. microplus are very homogeneous according climate preferences and well separated from the African counterpart.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
D.R. Arthur J.G.H. Londt (1973) ArticleTitleThe parasitic cycle of Boophilus decoloratus (Koch 1844) (Acarina: Ixodidae) J. Ent. Soc. Southern Africa 36 87–116
I. Beati J.E. Keirans (2001) ArticleTitleAnalysis of the systematic relationships among ticks of the genera Rhipicephalus and Boophilus (AcarI: Ixodidae) based on mitochondrial 12S ribosomal DNA gene sequences and morphological characters J. Parasitol. 87 32–48 Occurrence Handle1:CAS:528:DC%2BD3MXhsFWqu7s%3D Occurrence Handle11227901
D.L. Berkvens D.M. Geysen G. Chaka M. Madder J.R.A. Brandt (1998) ArticleTitleA survey of the ixodid ticks parasitizing cattle in the Eastern province of Zambia Med. Vet. Entomol. 12 234–240 Occurrence Handle10.1046/j.1365-2915.1998.00106.x Occurrence Handle1:STN:280:DyaK1cvgslKisA%3D%3D Occurrence Handle9737594
G.S. Cumming (1999) The Evolutionary Ecology in African Ticks (Acari: Ixodidae) University of Oxford Oxford, UK
G.S. Cumming (2002) ArticleTitleComparing climate and vegetation as limiting factors for species ranges of African ticks Ecology 83 255–268
A.J. Davies L.S. Jenkinson J.L. Lawton B. Shorrocks S. Wood (1998) ArticleTitleMaking mistakes when predicting shifts in species range in response to global warming Nature 391 783–786 Occurrence Handle10.1038/35264
M.B. Davis R.G. Shaw (2001) ArticleTitleRange shifts and adaptive responses to Quaternary climate change Science 292 673–679 Occurrence Handle10.1126/science.292.5517.673 Occurrence Handle1:CAS:528:DC%2BD3MXjt1elsrY%3D Occurrence Handle11326089
A.J. Vos ParticleDe (1979) ArticleTitleEpidemiology and control of bovine babesiosis in South Africa J. South African Vet. Assoc. 50 357–362
A. Estrada-Peña (2003) ArticleTitleClimate change decreases habitat suitability for some tick species (Acari: Ixodidae) in South Africa Onderstepoort J. Vet. Res. 70 79–93 Occurrence Handle12967169
George J.E. 1987. Cattle fever tick eradication programme in the USA: history, achievements, problems and implications for other countries. In “The eradication of ticks”, Proceedings of the expert consultation on the eradication of ticks with special reference to Latin America, pp. 1–7
R. Gothe (1967) ArticleTitleTicks in the South African Zoological Survey Collection. Part XII. The genera Boophilus Curtice1891 and Margaropus Karsch 1879 Onderstepoort J. Vet. Res. 38 81–108
R.D. Holt (1996) ArticleTitleAdaptive evolution in source-sink environments: direct and indirect effects of density-dependence on niche evolution Oikos 75 182–192
R.D. Holt R. Gomulkiewicz (1996) The evolution of species niches: population dynamics perspectives H.G. Othmer (Eds) et al. Case Studies in Mathematical Modelling: Ecology, Physiology, and Cell Biology Prentice Hall Saddle RiverNew Jersey, USA 1–7
I.G. Horak J.-L. Camicas J.E. Keirans (2002) ArticleTitleThe ArgasidaeIxodidae and Nuttalliellidae (Acari: Ixodida): a list of valid tick names Exp. Appl. Acarol. 28 27–54 Occurrence Handle10.1023/A:1025381712339 Occurrence Handle14570115
Hutchinson G.E. 1957. Concluding remarks. In “Population studies: animal ecology and demography”. Cold Spring Harbor Symposia on Quantitative Biology, vol. 22. Cold Spring Harbor Laboratory Press.
International Consortium of Ticks and Tick-Borne Diseases (ICTTD) 2004. Ticks of Veterinary and Medical Importance. A series of three CD's on ticks on livestock in Afrucathe Mediterranean Region and Latin America (http://www.icttd.nl ).
J.L. Lawton (2000) Concluding remarks: a review of some open questions M.J. Hutchings E. John A.J.A. Stewart (Eds) Ecological Consequences of Heterogeneity Cambridge University Press Cambridge 401–424
J. McLeod B. Mwanaumo (1978) ArticleTitleEcological studies of ixodid ticks (Acari: Ixodidae) on cattle in Zambia. IV: Some anomalous infestation patterns in the northern and eastern regions Bull. Entomol. Res. 68 409–429
P.-C. Morel (1965) Les tiques de l’Afrique et du Bassin Méditerranéen (Ixodoidea) IEMVPT Maisons-AlfortFrance 1105
A.N. Murrell J.H. Campbell S.C. Barrer (2000) ArticleTitlePhylogenetic análisis of the rhipicephaline ticks indicates that the genus Rhipicephalus is paraphyletic Mol. Phylogenet. Evol. 16 1–7 Occurrence Handle1:CAS:528:DC%2BD3cXksVaqt7g%3D Occurrence Handle10877935
M. New M. Hulme P.D. Jones (1999) ArticleTitleRepresenting twentieth century space-time climate variability. Part I. development of a 1950–1999 mean monthly terrestrial climatology J. Climate 12 829–56 Occurrence Handle10.1175/1520-0442(1999)012<0829:RTCSTC>2.0.CO;2
R.A.I. Norval B.D. Perry S.K. Hargreaves (1992) ArticleTitleTick and tick-borne disease control in Zimbabwe: what might the future hold? Zimbabwe Vet. Journal 23 1–15
J.M. Olwoch C.J. de W. Rautenbach B.F.N. Erasmus B.F.A. Engelbrecht A.S. Jaarsveld (2003) ArticleTitleSimulating tick distributions over sub-Saharan Africa: the use of observed and simulated climate surfaces J. Biogeography 30 1221–1232 Occurrence Handle10.1046/j.1365-2699.2003.00913.x
P. Osborne S. Suárez-Seoane (2002) ArticleTitleShould data be partitioned before building large distribution models? Ecol. Modelling 157 249–259 Occurrence Handle10.1016/S0304-3800(02)00198-9
R.G. Pearson T.P. Dawson (2003) ArticleTitlePredicting the impacts of climate change on the distribution of species: are bioclimate envelope models useful? Global Ecol. Biogeography 12 361–371 Occurrence Handle10.1046/j.1466-822X.2003.00042.x
M.S. Rasmussen (1998) ArticleTitleDeveloping simpleoperational, consistent NDVI-vegetation models by applying environmental and climatic information. Part I: Assessment of net primary production Int. J. Remote Sensing 19 97–117
T.P. Robinson (1998) ArticleTitleGeographic information systems and the selection of priority areas for control of tsetse-transmitted trypanosomiasis in Africa Parasitology Today 14 457–461 Occurrence Handle10.1016/S0169-4758(98)01336-2
R.W. Sutherst (1987) ArticleTitleThe dynamics of hybrid zones between tick (Acari) species Int. J. Parasitol. 17 921–926 Occurrence Handle1:STN:280:BiiB387itVA%3D Occurrence Handle3583541
R.W. Sutherst G.F. Maywald (1985) ArticleTitleA computerised system for matching climates in ecology Agric. Ecosyst. Environ. 13 281–299
G. Theiler (1949) ArticleTitleZoological survey of the Union of South Africa: Tick survey. Part II: Distribution of Boophilus(Palpoboophilus) decoloratusthe blue tick Onderstepoort J. Vet. Sci. Animal Industry 22 255–268
Theiler G. 1962. The Ixodidae parasites of vertebrates in Africa south of the Sahara. Project S 9958. Report to the Director of Veterinary Services, OnderstepoortSouth Africa.
M.H. Tonnesen B.L. Penzhorn N.R. Bryson W.H. Stoltsz T. Masiwigiri (2004) ArticleTitleDisplacement of Boophilus decoloratus by Boophilus microplus in the Soutpansberg region, Limpopo provinceSouth Africa Exp. Appl. Acarol. 32 199–208 Occurrence Handle1:STN:280:DC%2BD2c3ktFarsw%3D%3D Occurrence Handle15139085
J.B. Walker D. Mehlitz G.E. Jones (1978) Genus Boophilus: The Blue Ticks. Notes on the Ticks of Botswana GTZ Eschborn 30–35
Walker A.R., Bouattour A., Camicas J.-L., Estrada-Peña A., Horak I., Latif A., Pegram R. and Preston P. 2003. Ticks of Domestic Animals in Africa. A Guide to Identification of Species. University of Edinburgh, 221 pp.
G.H. Yeoman J.B. Walker (1967) The ixodid ticks of Tanzania Commonwealth Institute of Entomology London
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Estrada-Peña, A., Bouattour, A., Camicas, J.L. et al. The Known Distribution and Ecological Preferences of the Tick Subgenus Boophilus (Acari: Ixodidae) in Africa and Latin America. Exp Appl Acarol 38, 219–235 (2006). https://doi.org/10.1007/s10493-006-0003-5
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/s10493-006-0003-5