Abstract Recently diverged species with overlapping distributional ranges have high chances of hybridizing and if hybrids are viable, genomic material can be transferred between species in a process called introgression. To characterize the patterns and consequences of introgression in species with historically low population sizes and recent steep declines resulting in genetic erosion, we analyze the Iberian and Eurasian lynx as an illustrative and relevant case study. While genome-wide introgression was already detected, here we apply a method using a deep convolutional neural network to detect specific regions of the genome with signals of introgression in three populations of these two species. Over 6% of the genome of both Iberian lynx and Western Eurasian lynx shows introgression from the other species, compared to only 2% in the Southern Eurasian lynx. This observation, along with the results from demographic modeling, suggests that the Western Eurasian lynx population is genetically closest to the source of Eurasian lynx introgression, a probably now extinct group that coexisted with the Iberian lynx in Southern Europe and Northern Iberia until recently. As predicted by theory, introgression was generally higher in populations with smaller effective sizes and in genomic regions of high recombination. However, the Iberian lynx did not show higher overall introgression than the more abundant Western Eurasian lynx, and coding regions introgressed as frequently as intergenic regions. Local genetic diversity is boosted approximately threefold in genomic windows where introgression occurs, potentially including the adaptively relevant and highly diverse MHC region of the Iberian lynx.
Bazzicalupo et al. (Mon,) studied this question.