Genetic diversity and genetic structure of Acer monspessulanum L. across Zagros forests of Iran using molecular markers.

Acer monspessulanum L. is an important tree species found in the temperate Zagros forests of Iran. Despite its importance, the long-term persistence of its small and fragmented populations is jeopardised by genetic erosion and hence, monitoring its genetic resource and variability is practically required for providing conservation measures of the species germplasm in Zagros woodland ecosystem. The present study aimed to provide the first data on genetic diversity and genetic differentiation pattern of 19 natural populations comprising 240 individuals of A. monspessulanum across its growing area in Zagros forests using three molecular tools including inter-simple sequence repeats (ISSR), start codon targeted (SCoT), and simple sequence repeat (SSR). In total, ISSR and SCoT primers generated a total of 141 and 121 clear and scorable bands for analysis with the polymorphism rate of 90.50 and 90.02% and a mean of 10.85 and 11 fragments per marker, respectively. In addition, 73 alleles were achieved using 10 polymorphic SSR loci from the studied accessions with 100% polymorphism, ranging between 5 and 10 alleles per locus. Average percentage of polymorphic alleles per population for ISSR, SCoT, and SSR data was 84.02%, 83%, and 100%, respectively, and generally, Nei's gene diversity (H) and Shannon's index of diversity (I) values for all populations demonstrated moderate to high levels of genetic diversity (H = 0.267-0.707; I = 0.38-1.38). The AMOVA results of the three marker systems attributed higher genetic variation to individuals within in each population than among populations. Furthermore, overall GST value for all populations detected the moderate to high levels of genetic differentiation, indicating a limited gene flow occurrence among the populations. STRUCTURE analysis (K = 5) clustered the populations into four to five distinct groups, in accordance with geographical distances. These results could represent an important contribution for effective germplasm characterization and could be eventually used in in situ or ex situ conservation of A. monspessulanum genetic resources.

Population structure and genotypic variation of Crataegus pontica inferred by molecular markers.

Information about the natural patterns of genetic variability and their evolutionary bases are of fundamental practical importance for sustainable forest management and conservation. In the present study, the genetic diversity of 164 individuals from fourteen natural populations of Crataegus pontica K.Koch was assessed for the first time using three genome-based molecular techniques; inter-retrotransposon amplified polymorphism (IRAP); inter-simple sequence repeats (ISSR) and start codon targeted (SCoT) polymorphism. IRAP, ISSR and SCoT analyses yielded 126, 254 and 199 scorable amplified bands, respectively, of which 90.48, 93.37 and 83.78% were polymorphic. ISSR revealed efficiency over IRAP and SCoT due to high effective multiplex ratio, marker index and resolving power. The dendrograms based on the markers used and combined data divided individuals into three major clusters. The correlation between the coefficient matrices for the IRAP, ISSR and SCoT data was significant. A higher level of genetic variation was observed within populations than among populations based on the markers used. The lower divergence levels depicted among the studied populations could be seen as evidence of gene flow. The promotion of gene exchange will be very beneficial to conserve and utilize the enormous genetic variability.

Genetic variability and structure of Quercus brantii assessed by ISSR, IRAP and SCoT markers.

Persian oak (Quercus brantii Lindl.) is one of the most important woody species of the Zagros forests in Iran. Three molecular marker techniques: start codon targeted (SCoT), inter-simple sequence repeat (ISSR) and inter-retrotransposon amplified polymorphism (IRAP) markers were compared for fingerprinting of 125 individuals of this species collected from different geographical locations of north-west of Iran. A total of 233 bands were amplified by 18 ISSR primers, of which 224 (96.10%) were polymorphic, and 126 polymorphic bands (97.65%) were observed in 129 bands amplified by 10 IRAP primers. Besides, 118 bands were observed for all 10 SCoT primers, of which 113 were polymorphic (95.71%). Average polymorphism information content (PIC) for ISSR, IRAP and SCoT markers was 0.30, 0.32 and 0.38, respectively, and this revealed that SCoT markers were more informative than IRAP and ISSR for the assessment of diversity among individuals. Based on the three different molecular types, cluster analysis revealed that 125 individuals taken for the analysis can be divided into three distinct clusters. The Jaccard's genetic similarity based on the combined data ranged from 0.23 to 0.76. These results suggest that efficiency of SCoT, IRAP and ISSR markers was relatively the same in fingerprinting of individuals. All molecular marker types revealed a low genetic differentiation among populations, indicating the possibility of gene flow between the studied populations. These results have an important implication for Persian oak (Q. brantii) germplasm characterization, improvement, and conservation.