H. Yousefzadeh, R. Rajaei, B. Larsen, H. Bina, G. Kozlowski
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引用次数: 1
Abstract
AbstractAim of study: The Caucasian apple (Malus orientalis Uglitzk.) is distributed throughout the Hyrcanian forest. The species keeps a gametophytic self-incompatibility reproduction system based on a single S-allele. In order to ensure a high mating probability and thereby long-term survival of the populations, a high S-allele diversity is needed.Area of study: Three populations of Caucasian apple along an altitudinal gradient in northern Iran were studied.Material and methods: Here, we evaluated the S allele frequency and genetic diversity based on a small set of individuals.Main results: Moderate genetic diversity within population and high genetic differentiation among populations are suggested. In total, 18 S-alleles were identified among the three populations with between 10 and 12 S-alleles at each population site.Research highlight: The diversity of S-alleles showed a significant positive correlation with altitude, which is consistent with the positive correlation of genetic diversity.
摘要:高加索苹果(Malus orientalis Uglitzk.)分布在海卡尼亚森林中。该物种保持一个基于单个s等位基因的配子体自交不亲和生殖系统。为了保证高的交配概率,从而保证种群的长期生存,需要高的s等位基因多样性。研究范围:研究了伊朗北部沿海拔梯度分布的三个高加索苹果居群。材料和方法:在此,我们基于一小部分个体对S等位基因频率和遗传多样性进行了评估。主要结果:种群内遗传多样性适中,种群间遗传分化程度较高。在3个群体中共鉴定出18个s等位基因,每个群体位点的s等位基因在10 ~ 12个之间。研究亮点:s等位基因多样性与海拔高度呈显著正相关,这与遗传多样性的正相关是一致的。
期刊介绍:
Forest Systems is an international peer-reviewed journal. The main aim of Forest Systems is to integrate multidisciplinary research with forest management in complex systems with different social and ecological background
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