An improved gray whale assembly highlights how allospecific reference-genome choice can affect genomic diversity estimates

Gray whales ( Eschrichtius robustus ) are unique as bottom feeding baleen whales and they have long been a conservation concern on both sides of the Pacific, in part because they migrate and disperse farther than any other species on earth. They experienced drastic population size declines due to environmental changes and commercial whaling. Here, we present an improved genome assembly for the gray whale. This genome assembly covers 2.4 Gb divided across 2689 contigs with an N50 of 15Mb. From the new assembly, we identify 75Mb sex-linked contigs and a identify 94.6% of searched genes based on Benchmarking Universal Single-Copy Ortholog score. We use the gray whale assembly to explore the effects of mapping to conspecific vs allospecific reference genomes when estimating genome-wide heterozygosity ( H ) and runs of homozygosity (ROH). The use of allospecific genomes significantly underestimate both H and ROH burden regardless of genomic distance and assembly quality. Our analyses highlight the importance of using contiguous conspecific assemblies in whale genomics and conservation.