Intense admixture of honey bee (Apis mellifera L.) populations is mostly attributed to migratory beekeeping practices and replacement of queens or colonies with non-native races or hybrids of different subspecies. These two practices are also heavily carried out in Turkey where 5 subspecies are present naturally. Despite the signs of gene flow, our findings confirm high levels of geographically structured genetic diversity of four subspecies of honey bees in Turkey and emphasize the need to develop policies to maintain this diversity.
The honey bee (Apis mellifera L.) is a globally significant species of apparent economic and ecological importance. Recent reports from Spain, Italy and Greece point to an intense admixture of honey bee populations signified by a loss of population structure. This is mostly attributed to migratory beekeeping practices and replacement of queens or colonies with commercial ones that are usually from non-native races or hybrids of different subspecies. These two practices are also heavily carried out in parts of Turkey where almost three-quarters of the 6 million colonies are transferred seasonally from one region to other.Past research using microsatellite and RAPD markers, mtDNA, allozymes and geometric morphometry revealed the presence of five different subspecies of honey bees (meda, syriaca,caucasica, anatoliaca and an ecotype from Carniolan subspecies group) inTurkey. Here, we carried out an analysis of population structure of Turkish honeybees sampled from six different regions (n = 250) during the period 2010-2012. A total of 29 microsatellite markers were used in four multiplex reactions. The results show that population structure is preserved in general although there are signs of gene flow between the clusters.Overall FST between stationary colonies was calculated as 0,067. For migratory colonies the value was 0,015 and for all the 250 samples the value was 0,047. Four different clusters corresponding to geographical distributions of four subspecies were revealed in structure analysis. The differentiation between the clusters was also apparent in PCA and FCA as well as phylogenetic trees constructed based on genetic distances.The genetic impact of migratory beekeeping was demonstrated for the first time based on a comparison of assignment probabilities of individuals from migratory and stationary colonies to their geographic populations. Another comparison between regions that are either open to migratory beekeeping or closed let us to evaluate the status of isolated regions and showed the importance of establishing such regions. The effects of queen and colony trade were revealed by the presence of introgression from the highly commercial Caucasian bees. Our findings confirm the previously observed high levels geographically structured genetic diversity in honey bees of Turkey and emphasize the need to develop policies to maintain this diversity.
The intense admixture of honey bee (Apis mellifera L.) populations at a global scale is mostly attributed to the widespread migratory beekeeping practices and replacement of queens and colonies with non-native races or hybrids of different subspecies. These practices are also common in Anatolia and Thrace, but their influence on the genetic make-up of the five native subspecies of honey bees has not been explored. Here, we present an analysis of 30 microsatellite markers from honey bees from six different regions in Anatolia and Thrace (N = 250 samples), with the aim of comparing the impact of: (1) migratory beekeeping, (2) queen and colony trade, and (3) conservation efforts on the genetic structure of native populations. Populations exposed to migratory beekeeping showed less allegiance than stationary ones. We found genetic evidence for migratory colonies, acting as a hybrid zone mobile in space and time, becoming vectors of otherwise local gene combinations. The effect of honey bee trade leaves very high introgression levels in native honey bees. Despite their narrow geographic range, introgression occurs mainly with the highly commercial Caucasian bees. We also measured the direction and magnitude of gene flow associated with bee trade. A comparison between regions that are open and those closed to migratory beekeeping allowed the evaluation of conservation sites as centers with limited gene flow and demonstrated the importance of establishing such isolated regions. Despite evidence of gene flow, our findings confirm high levels of geographically structured genetic diversity in four subspecies of honey bees in Turkey and emphasize the need to develop policies to maintain this diversity. Our overall results are of interest to the wider scientific community studying anthropogenic effects on the population diversity of honey bees and other insects. Our findings on the effects of migratory beekeeping, replacement of queens and colonies have implications for the conservation of honey bees, other pollinators, and invertebrates, in general, and are informative for policy-makers and other stakeholders in Europe and beyond.
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