Hidden Diversity in the Sands: Genomic Footprints of Pleistocene Refugia and Fragile Futures of the Turkestan Ground‐Jay <i>(Podoces panderi)</i> in Central Asia

The Turkestan ground-jay (Podoces panderi), a corvid endemic to Central Asia's deserts and steppes, exemplifies how extreme environments drive speciation. Our study provides the first comprehensive high-resolution genomic analysis of this species, using complete mitochondrial genomes (49 individuals) to decode its population structure and demographic past. Our analyses revealed three highly divergent genetic clusters with strong geographic structure. The P. p. iliensis population (Cluster_3) showed particularly pronounced genetic distinctiveness, with significant differentiation from P. p. panderi (Cluster_2 and Cluster_1) populations. This clear genetic separation supports the taxonomic validity of P. p. iliensis as a distinct evolutionary lineage. Demographic reconstruction indicated that Cluster_2 likely represents the ancestral group, with subsequent southward expansion into the Karakum region. The isolated P. p. iliensis population exhibited signatures of long-term isolation, including reduced genetic diversity and absence of recent gene flow with other clusters. These results provide strong evidence that P. p. iliensis represents a distinct evolutionary unit. The genetic structuring into three clusters reflects historical isolation in desert refugia during Pleistocene climatic fluctuations. Notably, we detected asymmetric gene flow among three clusters. These findings redefine P. panderi as a model for desert adaptation, where climatic extremes forged genetic fragmentation amid limited dispersal. Beyond taxonomy, our work highlights how aridification sculpted biodiversity in Asia's interior, urging conservation attention for these evolutionarily distinct lineages.

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