Qi Lu, Pengcheng Wang, Jiang Chang, De Chen, Shenghan Gao, Jacob Höglund, Zhengwang Zhang. 2024: Population genomic data reveal low genetic diversity, divergence and local adaptation among threatened Reeves’s Pheasant (Syrmaticus reevesii). Avian Research, 15(1): 100156. DOI: 10.1016/j.avrs.2023.100156
Citation: Qi Lu, Pengcheng Wang, Jiang Chang, De Chen, Shenghan Gao, Jacob Höglund, Zhengwang Zhang. 2024: Population genomic data reveal low genetic diversity, divergence and local adaptation among threatened Reeves’s Pheasant (Syrmaticus reevesii). Avian Research, 15(1): 100156. DOI: 10.1016/j.avrs.2023.100156

Population genomic data reveal low genetic diversity, divergence and local adaptation among threatened Reeves’s Pheasant (Syrmaticus reevesii)

  • Population genomic data could provide valuable information for conservation efforts; however, limited studies have been conducted to investigate the genetic status of threatened pheasants. Reeves’s Pheasant (Syrmaticus reevesii) is facing population decline, attributed to increases in habitat loss. There is a knowledge gap in understanding the genomic status and genetic basis underlying the local adaptation of this threatened bird. Here, we used population genomic data to assess population structure, genetic diversity, inbreeding patterns, and genetic divergence. Furthermore, we identified candidate genes linked with adaptation across the current distribution of Reeves’s Pheasant. The present study assembled the first de novo genome sequence of Reeves’s Pheasant and annotated 19,458 genes. We also sequenced 30 individuals from three populations (Dabie Mountain, Shennongjia, Qinling Mountain) and found that there was clear population structure among those populations. By comparing with other threatened species, we found that Reeves’s Pheasants have low genetic diversity. Runs of homozygosity suggest that the Shennongjia population has experienced serious inbreeding. The demographic history results indicated that three populations experienced several declines during the glacial period. Local adaptative analysis among the populations identified 241 candidate genes under directional selection. They are involved in a large variety of processes, including the immune response and pigmentation. Our results suggest that the three populations should be considered as three different conservation units. The current study provides genetic evidence for conserving the threatened Reeves’s Pheasant and provides genomic resources for global biodiversity management.
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