Evaluating the potential of interpopulation outbreeding to rescue plant populations facing reproductive failures

The overabundance of sika deer has become a significant threat to plant communities across Japan. As a result of the deer overgrazing, rare plants are undergoing a demographic bottleneck, leading to a loss of genetic diversity. Genetic diversity is crucial for the reproductive success of self-incompatible plants, and it also provides evolutionary potential, which increases their long-term population viability. Therefore, it is essential to appropriately manage the remaining genotypes to conserve local genetic resources. In this study, we exemplify this, via a conservation genetic analysis of Parasenecio peltifolius populations impacted by deer. Genetic data revealed that the small populations confined to isolated refugial sites consisted of effectively single genets. Recent reproductive failures in these populations may be attributed to the loss of genotypic diversity. Despite the bottlenecks, the remaining genets exhibited high individual heterozygosity, which is a good indicator that they have not been affected by severe inbreeding. Hybrid simulations suggested that interpopulation outbreeding between the unique genotypes can be a viable option to promote sexual reproduction and re-establish genetic diversity within the local populations. Establishing artificial progenies in botanical gardens can serve as a vital genetic resource for the long-term viability of threatened P. peltifolius populations. This study genetically investigated the endangered Parasenecio peltifolius populations threatened by deer overgrazing to reveal that the remaining populations consisted of single genetic clones. Hybrid simulations suggested that artificial crosses between the unique genotypes can be a viable option to re-establish genetic diversity within the local populations and promote sexual reproduction. The artificial progenies in ex situ botanical gardens can serve as a vital genetic resource for the long-term survival of threatened populations. image