Isozyme variation in natural populations of cork-oak (Quercus suber L) - Population structure, diversity, differentiation and gene flow

TitleIsozyme variation in natural populations of cork-oak (Quercus suber L) - Population structure, diversity, differentiation and gene flow
Publication TypeJournal Article
Year of Publication1996
AuthorsElenaRossello, J. A., & Cabrera E.
JournalSILVAE GENETICA
Volume45
Issue4
Pagination229 - 235
Date Published1996///
Keywordsgene diversity, gene flow, genetic differentiation, genetic identities, isozymes, population structure, Quercus suber
Abstract

Genetic variation of cork-oak (Quercus suber L.) was investigated in 7 Mediterranean populations in Spain using 13 loci from 7 enzyme systems. Quercus suber was found to possess higher values of heterozygosity (H = 0.288 +/- 0.069), percent of polymorphic loci at the 99% criterion (P = 76.9%) and average number of alleles per locus (A = 2.46), than any other oak species. Interpopulation diversity was about 16.9% of the total diversity. The average estimated of Nm based on 10 loci is 2.57, and shows current or recent gene now among populations. Genetic identities among populations were moderate, ranging from I = 0.829 to I = 0.999, and a cluster analysis revealed no patterns related to geography. Our results revealed that the Q. suber populations studied share a common gene pool. The number of alleles and genotypes and the levels of genetic variability in the study populations, indicate that the Spanish populations are genetically rich. These high levels of genetic variability, coupled with the ecological and economic importance of the species make Q. suber a strong candidate for a gene conservation program.