4.7 Article

Historical population declines prompted significant genomic erosion in the northern and southern white rhinoceros (Ceratotherium simum)

期刊

MOLECULAR ECOLOGY
卷 30, 期 23, 页码 6355-6369

出版社

WILEY
DOI: 10.1111/mec.16043

关键词

conservation genomics; genomic erosion; northern white rhinoceros; population decline; southern white rhinoceros

资金

  1. ERC Consolidator Grant [681396]
  2. EMBO Short-Term Fellowship [7578]

向作者/读者索取更多资源

Large vertebrates, such as the white rhinoceros, have experienced significant decline in populations due to human activities. Genetic data from resequenced white rhinoceros genomes show a decrease in genomic diversity and increase in inbreeding coefficients, especially in the northern white rhinoceros (NWR) and the southern white rhinoceros (SWR). Despite the genetic impacts, the surviving SWR does not show a significant accumulation of genetic load compared to its historical counterpart. These findings have implications for informing conservation efforts for white rhinoceros populations.
Large vertebrates are extremely sensitive to anthropogenic pressure, and their populations are declining fast. The white rhinoceros (Ceratotherium simum) is a paradigmatic case: this African megaherbivore has suffered a remarkable decline in the last 150 years due to human activities. Its subspecies, the northern (NWR) and the southern white rhinoceros (SWR), however, underwent opposite fates: the NWR vanished quickly, while the SWR recovered after the severe decline. Such demographic events are predicted to have an erosive effect at the genomic level, linked to the extirpation of diversity, and increased genetic drift and inbreeding. However, there is little empirical data available to directly reconstruct the subtleties of such processes in light of distinct demographic histories. Therefore, we generated a whole-genome, temporal data set consisting of 52 resequenced white rhinoceros genomes, representing both subspecies at two time windows: before and during/after the bottleneck. Our data reveal previously unknown population structure within both subspecies, as well as quantifiable genomic erosion. Genome-wide heterozygosity decreased significantly by 10% in the NWR and 36% in the SWR, and inbreeding coefficients rose significantly by 11% and 39%, respectively. Despite the remarkable loss of genomic diversity and recent inbreeding it suffered, the only surviving subspecies, the SWR, does not show a significant accumulation of genetic load compared to its historical counterpart. Our data provide empirical support for predictions about the genomic consequences of shrinking populations, and our findings have the potential to inform the conservation efforts of the remaining white rhinoceroses.

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