Genetic Profile of Greek Indigenous Honey Bee Populations, Local Extinctions, Geographical Distinction, and Patterns, by Using mtDNA COI and Nuclear CSD Gene Analysis Markers
Konstantinos Zampakas, Maria V. Alvanou, Anastasia Kalapouti, Fani Hatjina, Chrysoula Tananaki, Katerina Melfou, Ioannis A. Giantsis
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Abstract
Evaluation and conservation of local genetic resources of the domestic honey bee populations is important, especially in regions with high diversity levels as well as high honey bee colony density. Greece is rich in honey bee biodiversity, hosting several subspecies, with the status of them being, though, doubtful. The purpose of the present study was to investigate the genetic relationships of both stationary and movable honey bee populations, originating from many location throughout Greece. Two molecular markers were utilized, namely, the conserved mitochondrial COI gene and the highly variable complementary sex determination (CSD) gene. Samples were collected from nine distant populations: eight populations from colonies that followed the traditional stationary beekeeping model and one following the modern migratory beekeeping model type, where the hives are transferred from place to place according to the season. Regardless the beekeeping model, all populations were characterized by sufficient genetic diversity indicating no signs of inbreeding or any bottleneck effects. Nevertheless, genetic differentiation and phylogenetic analysis in comparison with haplotypes obtained from GenBank revealed a genetic admixture pattern suggesting that movement causes genetic homogeneity, occasionally in the stable reared populations as well. Interestingly, two populations, namely, Kastoria and Protokklisi, belonging to A. m. macedonica population, were significantly differentiated, supporting the maintenance of their genetic integrity. Unfortunately, on the other hand, genetic structure of the populations from Crete (Sasalos population) provided evidence that the indigenous breed from the island, A. m. adami, has probably gone extinct. Future management strategies should focus on the conservation of the local genetic resources in which distinct genetic identity has been sustained.
利用 mtDNA COI 和核 CSD 基因分析标记对希腊土著蜜蜂种群的遗传概况、地方灭绝、地理分布和模式进行分析
评估和保护当地家养蜜蜂种群的遗传资源非常重要,尤其是在蜜蜂多样性水平高、蜂群密度大的地区。希腊的蜜蜂生物多样性丰富,拥有多个亚种,但其地位尚存疑问。本研究的目的是调查来自希腊各地的固定和流动蜜蜂种群的遗传关系。研究使用了两种分子标记,即保守的线粒体 COI 基因和高度可变的互补性决定(CSD)基因。样本采集自 9 个远距离种群:8 个种群来自遵循传统固定养蜂模式的蜂群,1 个来自遵循现代迁徙养蜂模式的蜂群,即根据季节将蜂箱从一个地方转移到另一个地方。无论采用哪种养蜂模式,所有种群都具有足够的遗传多样性,没有近亲繁殖或瓶颈效应的迹象。然而,遗传分化和系统发育分析与从 GenBank 中获得的单倍型进行比较后发现,遗传混杂模式表明,迁移会导致遗传同质性,偶尔在稳定饲养的种群中也会出现这种情况。有趣的是,属于 A. m. macedonica 种群的两个种群,即 Kastoria 和 Protokklisi,出现了明显的分化,支持其遗传完整性的保持。遗憾的是,另一方面,克里特岛种群(Sasalos 种群)的遗传结构证明,该岛的本土品种 A. m. adami 很可能已经灭绝。未来的管理策略应侧重于保护当地的遗传资源,因为这些资源的独特遗传特性一直得以保持。