Abstract Over the last century, Texas has been inundated with exotic ungulates, with as many as 67 species represented by captive and free-ranging populations. One of the most successful species to have established free-ranging populations is the Aoudad (Ammotragus lervia). Herein, we expand on previous genetic studies in Aoudad by including new genomic profiles based on double-digest restriction site-associated DNA sequencing methods with the intent of better understanding the effects of >70 years of human-mediated translocations, population expansion, and gene flow among populations. Using a range of 4,338 to 5,529 single-nucleotide polymorphisms obtained from 73 individuals that potentially represented A. l. blainei, A. l. lervia, and A. l. sahariensis, we measured genetic patterns of diversity and connectivity between source populations from California and New Mexico and resultant aoudad populations in Texas. Principal component analyses identified phylogeographically structured populations across Texas. Further, we identified a signature of isolation by distance among Texas populations. To assess geographic regions that facilitated or blocked gene flow between populations, we used estimation of effective migration surfaces, which indicated 3 barriers to movement between populations as well as connectivity among populations in close proximity. Comparison of mtDNA haplogroups and nuclear genotypes among the 3 examined subspecies were discordant, indicating that the current subspecific taxonomic classification needs refinement. Given the vulnerable status of Aoudad in their native range of northern Africa and the exponential population growth and potential competition with native ungulates in Texas, we propose that efforts to manage non-native Aoudad should strive to maintain and preserve unique genetic units while minimizing competition and other detriments to native species in Texas. Conservation efforts are especially important given the vulnerable status of Aoudad within their native range of northern Africa.