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Reconstructing colonization dynamics of the human parasite schistosoma mansoni following anthropogenic environmental changes in Northwest Senegal
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نویسنده
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van den broeck f. ,maes g.e. ,larmuseau m.h.d. ,rollinson d. ,sy i. ,faye d. ,volckaert f.a.m. ,polman k. ,huyse t.
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منبع
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plos neglected tropical diseases - 2015 - دوره : 9 - شماره : 8
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چکیده
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Background anthropogenic environmental changes may lead to ecosystem destabilization and the unintentional colonization of new habitats by parasite populations. a remarkable example is the outbreak of intestinal schistosomiasis in northwest senegal following the construction of two dams in the ‘80s. while many studies have investigated the epidemiological,immunological and geographical patterns of schistosoma mansoni infections in this region,little is known about its colonization history. methodology/principal findings parasites were collected at several time points after the disease outbreak and genotyped using a 420 bp fragment of the mitochondrial cytochrome c oxidase subunit 1 gene (cox1) and nine nuclear dna microsatellite markers. phylogeographic and population genetic analyses revealed the presence of (i) many genetically different haplotypes at the nonrecombining mitochondrial marker and (ii) one homogenous s. mansoni genetic group at the recombining microsatellite markers. these results suggest that the s. mansoni population in northwest senegal was triggered by intraspecific hybridization (i.e. admixture) between parasites that were introduced from different regions. this would comply with the extensive immigration of infected seasonal agricultural workers from neighboring regions in senegal,mauritania and mali. the spatial and temporal stability of the established s. mansoni population suggests a swift local adaptation of the parasite to the local intermediate snail host biomphalaria pfeifferi at the onset of the epidemic. conclusions/significance our results show that s. mansoni parasites are very successful in colonizing new areas without significant loss of genetic diversity. maintaining high levels of diversity guarantees the adaptive potential of these parasites to cope with selective pressures such as drug treatment,which might complicate efforts to control the disease. © 2015 van den broeck et al.
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آدرس
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department of biology,university of leuven,leuven,belgium,department of biomedical sciences,institute of tropical medicine,antwerp, Belgium, department of biology,university of leuven,leuven,belgium,college of marine and environmental sciences,james cook university,townsville, Australia, department of biology,university of leuven,leuven,belgium,department of imaging and pathology,university of leuven,leuven, Belgium, division of life sciences,natural history museum,london, United Kingdom, ufr pharmacy,university of caen basse-normandie,caen, France, santé plus,dakar, Senegal, department of biology,university of leuven,leuven, Belgium, department of biomedical sciences,institute of tropical medicine,antwerp, Belgium, department of biology,university of leuven,leuven,belgium,department of biomedical sciences,institute of tropical medicine,antwerp,belgium,department of biology,royal museum for central africa,tervuren, Belgium
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Authors
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