Genomic data reveal a north-south split and introgression history of blood fluke populations across Africa
Roy N. Platt, Egie E. Enabulele, Ehizogie Adeyemi, Marian Onwude Agbugui, Oluwaremilekun G. Ajakaye, Ebube Charles Amaechi, Ejikeugwu Chika, C. Igbeneghu, Victor S Njom, Precious Dlamini, Grace A. Arya, Robbie Diaz, Muriel Rabone, Fiona Allan, Bonnie L. Webster, Aidan M. Emery, David Rollinson, Timothy J. C. Anderson
Abstract
The human parasitic fluke, Schistosoma haematobium hybridizes with the livestock parasite S. bovis in the laboratory, but the frequency of hybridization in nature is unclear. Here, we analyze 34.6 million single nucleotide variants in 162 samples from 18 African countries, revealing a sharp genetic discontinuity between northern and southern S. haematobium. We find no evidence for recent hybridization. Instead the data reveal admixture events that occurred 257–879 generations ago in northern S. haematobium populations. Fifteen introgressed S. bovis genes are approaching fixation in northern S. haematobium with four genes potentially driving adaptation. Further, we identify 19 regions that are resistant to introgression; these are enriched on the sex chromosomes. These results (i) suggest strong barriers to gene flow between these species, (ii) indicate that hybridization may be less common than currently envisaged, but (iii) reveal profound genomic consequences of rare interspecific hybridization between schistosomes of medical and veterinary importance. Schistosoma haematobium hybridizes with livestock parasite S. bovis in vitro but frequency of natural hybridization is unclear. Using whole genome sequence data, authors found genetic discontinuity between Schistosoma species and no evidence for recent hybridization.