Abstract
Fin whales (Balaenoptera physalus) and blue whales (B. musculus) are the two largest species on Earth and are widely distributed across the world’s oceans. Hybrids between these species appear to be relatively widespread and have been reported in both the North Atlantic and North Pacific; they are also relatively common, and have been proposed to occur once in every thousand fin whales. However, despite known hybridization, fin and blue whales are not sibling species. Rather, the closest living relative of fin whales are humpback whales (Megaptera novaeangliae). To improve the quality of fin whale data available for analysis, we assembled and annotated a fin whale nuclear genome using in-silico mate pair libraries and previously published short-read data. Using this assembly and genomic data from a humpback, blue, and bowhead whale, we investigated whether signatures of introgression between the fin and blue whale could be found. We find no signatures of contemporary admixture in the fin and blue whale genomes, although our analyses support ancestral gene flow between the species until 2.4–1.3 Ma. We propose the following explanations for our findings; i) fin/blue whale hybridization does not occur in the populations our samples originate from, ii) contemporary hybrids are a recent phenomenon and the genetic consequences have yet to become widespread across populations, or iii) fin/blue whale hybrids are under large negative selection, preventing them from backcrossing and contributing to the parental gene pools.
Highlights
The fin whale (Balaenoptera physalus) is a large species of baleen whale
The mapping results of all individuals included in this study to both the fin whale and bowhead whale genomes can be found in S5 Table
We find no signal of introgressive gene flow in the fin and blue whale genomes when using the humpback whale to control for incomplete lineage sorting and the fin whale as the mapping reference
Summary
The fin whale (Balaenoptera physalus) is a large species of baleen whale. It can grow up to 26 m long and attain a weight of 60–80 metric tonnes [1]. It is widely distributed across most of the world’s oceans, and is second in size only to the blue whale (B. musculus) [1]. Despite a divergence time of ~8.35 million years ago (Ma) [2], hybrids between fin and blue whales have been reported since the beginning of early modern whaling, in the late. Lack of genomic signals for contemporary gene flow between fin and blue whales collection and analysis, decision to publish, or preparation of the manuscript
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