1. Effect of the Aegean Sea barrier between Europe and Asia on differentiation in Juniperus drupacea (Cupressaceae)
- Author
-
Krystyna Boratyńska, Bouchra Douaihy, Tolga Ok, Magda Bou Dagher-Kharrat, Anna K. Jasińska, Adam Boratyński, Monika Dering, Karolina Sobierajska, Àngel Romo, Ministry of Science and Higher Education (Poland), and Institute of Dendrology (Poland)
- Subjects
0106 biological sciences ,0301 basic medicine ,Cupressaceae ,Range (biology) ,Biogeography ,Genetic admixture ,nSSR ,Plant Science ,Disjunct ,010603 evolutionary biology ,01 natural sciences ,Multivariate analyses ,03 medical and health sciences ,Ecology, Evolution, Behavior and Systematics ,Genetic diversity ,East Mediterranean ,biology ,Ecology ,Bayesian clustering ,biology.organism_classification ,Plant variation ,humanities ,STRUCTURE clustering ,Juniperus drupacea ,030104 developmental biology ,Biometrics ,Plant diversity ,Genetic isolate ,human activities - Abstract
21 p., tablas, gráf., mapas, Juniperus drupacea is an eastern Mediterranean mountain tree with a disjunct geographical range. We hypothesized that this disjunct occurrence (the Peloponnese in Europe and the Taurus and Lebanon Mountains in Asia) should be reflected in the patterns of genetic and morphological diversity and differentiation. Nuclear microsatellite markers (nSSR) and biometric variables of the cones and seeds were examined on material sampled from four populations in Europe and eight in Asia. The Asian populations were characterized by a higher level of genetic diversity than the European populations. The genetic differentiation among populations was moderate but significant (FST = 0.101, P < 0.001). According to the clustering performed with BAPS, six genetically and geographically groups of populations were found: I and II from the Peloponnese; III from the Taurus Mountains; IV and V from the Anti-Taurus Mountains; and VI from the Lebanon Mountains. The level of genetic differentiation among these six groups (4.30%, P = 0.012) probably reflects long-lasting genetic isolation during the Pleistocene, as limited genetic admixture was found. In accordance with genetic analysis, the biometric investigations indicated a high level of morphological divergence between the European and Asian populations of the species, with further differentiation between the populations from the Taurus and Lebanon Mountains., The research was financially supported partly by the Polish Ministry of Science (under grant no. NN303 153037) and partly by the Institute of Dendrology (Poland) (under statutory activity).
- Published
- 2016