Genetic Evaluation of Ancient Platycladus orientalis L. (Cupressaceae) in the Middle Reaches of the Yellow River Using Nuclear Microsatellite Markers

As a precious and rare genetic resource, ancient Platycladus orientalis L. (Cupressaceae) has important scientific, cultural and historical value. The ancient temples and royal cemeteries in the middle reaches of the Yellow River contain the most concentrated and abundant distributions of ancient P. orientalis. Due to unfavorable conditions, the genetic resources of ancient trees are facing great threats and challenges; thus, it is urgent to strengthen the evaluation of the genetic resources of ancient P. orientalis. In this study, we used nine polymorphic nuclear simple sequence repeats (nSSRs) to evaluate the genetic resources of 221 individuals in 19 ancient P. orientalis populations in the middle reaches of the Yellow River. These selected polymorphic nSSR loci can be used reliably and rapidly in P. orientalis genetic studies. Our study showed that the 19 ancient P. orientalis populations have high genetic diversity (mean H = 0.562, He = 0.377). High historical gene flow (mean Nm = 1.179) and high genetic differentiation (mean Fst = 0.184) were observed in the ancient P. orientalis population. The analysis of molecular variance (AMOVA) showed that higher genetic variation existed within populations (93%) rather than among populations (7%). The genetic structures showed that the 19 populations were divided into two groups. The Mantel test and neighbor-joining (NJ) tree analysis showed no geographical distribution characteristics among populations, which may indicate a history of transplanting by ancient humans. Our research provides a theoretical basis for the protection and utilization of ancient P. orientalis germplasm resources and exploration of the historical origin and genetic relationships among the populations of P. orientalis on a large scale in the future.