Abstract
Conservation research is dominated by vertebrate examples but the shorter generation times and high local population sizes of invertebrates may lead to very different management strategies, particularly for species with low movement rates. Here we investigate the genetic structure of an endangered flightless grasshopper, Keyacris scurra, which was used in classical evolutionary studies in the 1960s. It had a wide distribution across New South Wales (NSW) and Victoria in pre‐European times but has now become threatened because of land clearing for agriculture and other activities. We revisited remnant sites of K. scurra, with populations now restricted to only one area in Victoria and a few small patches in NSW and the Australian Capital Territory (ACT). Using DArtseq to generate SNP markers as well as mtDNA sequence data, we show that the remaining Victorian populations in an isolated valley are genetically distinct from the NSW populations and that all populations tend to be genetically unique, with large F ST values up to 0.8 being detected for the SNP datasets. We also find that, with one notable exception, the NSW/ACT populations separate genetically into previously described chromosomal races (2n = 15 vs. 2n = 17). Isolation by distance was detected across both the SNP and mtDNA datasets, and there was substantial differentiation within chromosomal races. Genetic diversity as measured by heterozygosity was not correlated with the size of remaining habitat where the populations were found, with high variation present in some remnant cemetery sites. However, inbreeding correlated negatively with estimated habitat size at 25–500 m patch radius. These findings emphasize the importance of small habitat areas in conserving genetic variation in such species with low mobility, and they highlight populations suitable for future translocation efforts.
Highlights
Terrestrial invertebrates are increasingly being threatened by habitat destruction, climate change, invasive species, pesticides, and other threats connected to human activities (Black & Vaughan, 2009; Hafernik, 1992; Wagner & Van Driesche, 2010)
Genetic data are critical in informing conservation strategies, helping to resolve taxonomic issues, defining patterns of connectedness across populations, and assessing the adaptive capacity of populations to future environmental changes, very little genetic data exist for threatened terrestrial invertebrate species
Keyacris scurra is an endangered species persisting for many decades in small areas where suitable habitat has remained
Summary
Terrestrial invertebrates are increasingly being threatened by habitat destruction, climate change, invasive species, pesticides, and other threats connected to human activities (Black & Vaughan, 2009; Hafernik, 1992; Wagner & Van Driesche, 2010). There are so far relatively few attempts to integrate modern genomic approaches based on genome-wide SNPs or genome resequencing into invertebrate conservation efforts (e.g., Chen et al, 2017; Dupuis et al, 2020) These approaches can provide very detailed information on patterns of gene flow, hybridization, and evolutionary potential in threatened species that can guide management actions (Allendorf et al, 2010). The species appears confined to habitats of a special type in which the tall perennial grass, Themeda triandra, usually predominates This once dominant grass is removed by cropping and is grazing sensitive, and it only dominates relict areas, which are often refuges for other sensitive plant species (Dorrough & Scroggie, 2008), including many daisies that K. scurra requires for food (White, 1956). | 5366 diversity, increased inbreeding seems to relate to smaller habitat size
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