Reliable methods for clone identification are desired to characterise and distinguish breeding products within the genus Populus L. (Salicaceae). Ten nuclear microsatellite loci (PMGC14, PMGC456, PMGC2163, PTR2, PTR7, WPMS05, WPMS09, WPMS14, WPMS15 and WPMS20) were applied on a clone collection with several species and hybrids belonging to the sections Tacamahaca (balsam poplars), Aigeiros (black poplars, cottonwoods) and Populus (white poplars and aspens) and intersectional hybrids between black and balsam poplars. The members of the different sections and species do not always share their allelic ladders. Some shifts of one or two nucleotides in allele length were observed for several loci. This could be explained by nucleotide sequence differences in the flanking regions of loci in diverse taxonomic groups. Such shifts of allelic ladders result in irregular patterns in hybrid genotypes. The set of loci should have a sufficient amount of variation for a differentiation between clones, even if they are full siblings originating from crossing experiments.
European beech, Fagus sylvatica L., is one of the most important and widespread deciduous tree species in Central Europe and is widely managed for its hard wood. The complete DNA sequence of the mitochondrial genome of Fagus sylvatica L. was assembled and annotated based on Illumina MiSeq reads and validated using long reads from nanopore MinION sequencing. The genome assembled into a single DNA sequence of 504,715 bp in length containing 58 genes with predicted function, including 35 protein-coding, 20 tRNA and three rRNA genes. Additionally, 23 putative protein-coding genes were predicted supported by RNA-Seq data. Aiming at the development of taxon-specific mitochondrial genetic markers, the tool SNPtax was developed and applied to select genic SNPs potentially specific for different taxa within the Fagales. Further validation of a small SNP set resulted in the development of four CAPS markers specific for Fagus, Fagaceae, or Fagales, respectively, when considering over 100 individuals from a total of 69 species of deciduous trees and conifers from up to 15 families included in the marker validation. The CAPS marker set is suitable to identify the genus Fagus in DNA samples from tree tissues or wood products, including wood composite products.
The European beech (Fagus sylvatica) is one of the most important and widespread tree species in Central Europe and is widely managed for its valuable hard wood. We assembled and characterized the complete chloroplast genome of F. sylvatica to serve as a valuable resource in future genetic studies. The complete plastome sequence is 158,462 bp in length and contains 131 genes including 83 protein-coding genes, 40 tRNA genes, and 8 rRNA genes. A phylogenetic analysis of 21 Fagaceae plastome sequences shows that the three available Fagus sequences form a cluster, suggesting that the genus Fagus represents a monophyletic clade within the Fagaceae.
Although pollen dispersal has been extensively studied in trees, parameters influencing between-population variation are still poorly understood. In this study, we conducted paternity analyses on open-pollinated seeds in four natural populations of wild cherry (Prunus avium) with contrasting density and clonal propagation, using eight microsatellite loci and one self-incompatibility system locus. We also measured four quantitative traits and spatial positions as potential correlates of reproductive success. Levels of polyandry differed among populations and 30% of the seed families exhibited unequal paternal contributions, suggesting variation in reproductive success rather than variation in mate availability. Mating occurred preferentially among neighbours in all populations, suggesting that it is a common pattern in wild cherry and probably results from pollinator behaviour. Paternal success was positively correlated with diameter at breast height, as indicated in previous studies and tree dominance only resulted in higher paternal success in low density plots. Mating patterns were thus also affected by both density and tree size. Large-scale studies are needed to disentangle relative influences of these factors on the mating system and pollination success.
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