RESUMO
In southern Africa, the Nguni cattle breed is classified as an indigenous and transboundary animal genetic resource (AnGR) that manifests unique adaptation abilities across distinct agroecological zones. The genetic integrity of various ecotypes is under potential threat due to both indiscriminate crossbreeding and uncontrolled inbreeding. The aim of this study was to assess the genetic diversity and autozygosity that exist both across countries (ES: eSwatini; SA: South Africa) and within countries (SA), between purebred stud animals (SA-S) and research herds (SA-R). Subsets of 96 ES, 96 SA-S, and 96 SA-R genotyped for 40,930 common SNPs were used to study genome-wide profiles of runs of homozygosity (ROH) and heterozygosity (ROHet) as well as inbreeding levels and population structure. The highest percentage (39.8%) of the 2168 ROH segments was 4-8 Mbp in length, whereas 65% of the 935 ROHet segments fell within the 0.5-1 Mbp length category. Inbreeding coefficients indicated positive but low inbreeding (FROH>1Mbp range: 0.025 for SA-S to 0.029 for SA-R). Principal component (PCA) and population structure analyses illustrated genome-level distinctness of (1) the Nguni from global indicine (Boran) and taurine (Hereford) breeds (K = 3), (2) the SA Nguni populations from the ES Nguni population (K = 4), and (3) different Nguni ecotypes within countries (K = 8). Furthermore, greater admixture was observed for the SA-R population compared to purebred SA-S population (shared ancestry = 0.631 ± 0.353 compared to 0.741 ± 0.123), and fewer genomics-defined ES ecotypes were observed than phenotypically (pre)defined. Overall, the results illustrated that genetic uniqueness within the sampled Nguni cattle resulted from both geographic isolation and exposure to different breeding strategies (and, selection pressures). A further loss of genetic variability should be monitored to prevent the endangerment of unique and beneficial ecotypes.