Genomes of two arid-zone marsupials uncover contrasting responses to climatic change

Small marsupials in the family Dasyuridae are a key component of Australias arid and semi-arid fauna, whose high species richness is proposed to reflect an opportunity-driven adaptive radiation. Despite growing interest in this group from both ecological and evolutionary perspectives, genomic data for most species is non-existent, or limited to a few marker loci. Here, we generated a chromosome-level reference genome and a de novo mitochondrial genome for the desert-dwelling Wongai ningaui (Ningaui ridei). The nuclear genome assembly is highly contiguous, with a scaffold N50 of 594.484 MB and high BUSCO gene recovery (93.84%). Additionally, we produced a draft assembly for the related, semi-arid slender-tailed dunnart (Sminthopsis murina). We then used these assemblies to explore the demographic histories of these species. We find evidence for contrasting patterns of population growth during the late Pleistocene and early Holocene, corresponding with differences in local climate, potentially consistent with differences in optimal habitat. The new genomic resources and demographic findings presented here provide a foundation for future studies on adaptive specialisation in this group of Australian marsupials. Significance StatementDasyurid marsupials are the primary carnivorous and insectivorous mammals in Australia. This diverse family includes species such as the endangered Tasmanian devil (Sarcophilus harrisii) and quolls (Genus Dasyurus), as well as an emerging laboratory model species, the fat-tailed dunnart (Sminthopsis crassicaudata). Despite the species richness within dasyurids, most species remain under-studied. This is particularly true of arid and semi-arid zone species, who are often small in size, live in remote habitats and are cryptic by nature. By creating genome assemblies for two dasyurid species, this study provides resources to support a variety of phylogenetic, population genetic and evolutionary developmental lines of research. Importantly, the studys finding that arid and semi-arid dasyurids show distinct trajectories of demographic change in response to historical climatic shifts may point to local adaptations with implications for the resilience of these species to ongoing and future climate change.