In the past years a new invasive lineage of sculpins (Cottus species complex) has been studied that is currently expanding in the Lower River Rhine. Molecular analysis showed that this lineage has originated through hybridization of Cottus perifretum from the River Scheldt and Cottus rhenanus from the Lower River Rhine system. The emergence of the hybrid lineage is correlated with new habitat adaptations that allow the expansion along river habitats that have previously not been used by Cottus. Thus the question arises, if the hybridization event facilitated the invasion of and the adaptation to such a new environment. To start tackling this question an estimate is required how much each of the parental species contributed to the hybrid genome and which chromosomal fragments became fixed. Several genomic resources had to be developed in order to map the ancestries of chromosomal fragments in the hybrid genome. As a basic genomic resource for Cottus a genetic map based on already established microsatellite markers was created. This map was compared with the physical maps of sequenced fish genomes and a high degree of conserved synteny between Cottus and Tetraodon nigroviridis and between Cottus and Gasterosteus aculeatus could be detected. These model fish genomes could then be used as a reference in the further analysis of the Cottus genome. Finally, a set of ancestry-informative markers was developed in order to determine the ancestries of chromosomal fragments in the hybrid lineage. These tools allowed to map the hybrid genome and to assess the contribution of each parental species to the hybrid lineage. 25 genomic fragments could be identified that were fixed for material from only one parental species and thus might harbor genes that are relevant for the specific adaptations in the hybrid species
