To understand the dynamics of host-pathogens coevolution and its epidemiological consequences, we need to know how new races of invasive parasites emerge. In our recent work, published in Molecular Ecology (Konczal et al. 2020, link), we shed some light on this process by analyzing whole genomes of Gyrodactylus turnbulli, ectoparasitic flukes infecting guppies. Mateusz Konczal and collegues showed that the expansion of a Gyrodactylus strain that have recently invaded Tobago island was preceded by a single event of hybridization between diverged genotypes. The resulting high heterozygosity was frozen by asexual reproduction, likely conferring evolutionary advantage by masking deleterious mutations accumulated in each of the founder strains. The findings showed that single outcrossing event may be independently sufficient to increase expansion potential of a parasite, emphasizing that such processes can result in emergence of invasive pathogens, some of which may be of public health and conservation concern. The risk of such events is growing because human activities increase opportunities for hybridization by inducing environmental changes and incidental translocations.
- Article in the International Journal of Molecular Science on whether brain size influences the level of neurogenesis in adult shrews 18 October 2021
- Publication in Toxins on the evolution and ecological functions of venomousness in insectivorous mammals 11 October 2021
- The publication in Nature shows the limited potential for plant migration to the north 3 July 2021
- The Economist mention our research 10 March 2021
- Spread of parasitic frozen hybrids on the Caribbean island 29 January 2021
- SEMINARS ON EVOLUTION, ECOLOGY & BEHAVIOUR 19 January 2021