CIMO - Resumos em Proceedings Não Indexados à WoS/Scopus
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- Large Scale Mitochondrial Evidence of C-lineage Dominance in European Honey BeesPublication . Li, Fernanda; Lopes, Ana Rita; Costa, Maíra; Henriques, Dora; Quaresma, Andreia; Yadró Garcia, Carlos A.; Albo, Alexandre; Čereškienė, Laima Blažytė; Brodschneider, Robert; Brusbardis, Valters; Carreck, Norman L.; Charistos, Leonidas; Chlebo, Robert; Coffey, Mary F.; Dahle, Bjørn; Danneels, Ellen; Dobrescu, Constantin; Dupleix-Marchal, Anna; Filipi, Janja; Gajda, Anna; Gratzer, Kristina; Groeneveld, Linn Fenna; Hatjina, Fani; Johannesen, Jes; Kolasa, Michal; Körmendy-Rácz, János; Kovačić, Marin; Kristiansen, Preben; Martikkala, Maritta; McCormack, Grace P.; Martín-Hernández, Raquel; Pavlov, Borce; Poirot, Benjamin; Pietropaoli, Marco; Radev, Zheko; Raudmets, Aivar; René-Douarre, Vincent; Roessink, Ivo; Škerl, Maja Ivana Smodiš; Soland, Gabriele; Titera, Dalibor; Van der Steen, Jozef; Varnava, Andri; Vejsnæs, Flemming; Fedoriak, Mariia M.; Zarochentseva, Oksana; Webster, Matthew T.; Graaf, Dirk C. de; Pinto, M. AliceIn Europe, distribution of the several endemic honey bee (Apis mellifera) subspecies has suffered a considerable shift in the last century. In particular, beekeepers tend to favour subspecies of Eastern European ancestry (C-lineage), such as the Italian honey bee (A. m. ligustica), due to their perceived docility and high honey production. As a result, large scale migratory beekeeping and trade of C-lineage queens have exposed the native European honey bees to introgression and replacement, jeopardizing their genetic integrity and locally adapted traits. The maternally-inherited and highly polymorphic mitochondrial intergenic region tRNAleu-cox2 is routinely used for the assessment of honey bee diversity and introgression at large geographical scales. In this study, we conducted a survey on tRNAleu-cox2 variation in more than 1300 colonies from 33 European countries to assess current status of mitochondrial diversity patterns in Europe. Total genomic DNA was extracted from the bee thorax followed by PCR amplification of the tRNAleu-cox2 region and sequencing. The haplotypes were identified using alignments in MEGA 11. A clear dominance of C-lineage haplotypes was found (65%). The most prevalent C-lineage haplotype was C2 (54%) followed by C3 (23%) and C1(22%). Contrary to this trend, in Portugal, Spain and Ireland, less than 10% of the colonies exhibit the C-haplotype. Furthermore, the analysed apiaries in isolated protected areas (n=7) revealed a high proportion of colonies of western European (M-lineage) ancestry (80%) with M4 as the most frequent haplotype. African haplotypes (A lineage) were also found, albeit at lower frequencies, and were mainly concentrated in the Iberian Peninsula (9%). Intensive queen breeding and migratory beekeeping is homogenizing the gene pool of European bee populations. This survey of honey bee maternal diversity across Europe highlights the alarming dominance of C-lineage haplotypes and underscores the importance of conservation apiaries, as they have effectively preserved the autochthonous M-lineage subspecies in different countries. This work was conducted in the framework of the project Better-B, funded by the European Union, the Swiss State Secretariat for Education, Research, and Innovation, and UK Research and Innovation under the UK government's Horizon Europe funding guarantee (grant number 10068544).
- Nosema ceranae detection in yellow-legged hornet, Vespa Velutina Nigrithorax, in the norwest of SpainPublication . Rodriguez-Flores, Maria Shantal; Lopes, Ana Rita; Diéguez-Antón, Ana; Seijo-Coello, M. Carmen; Pinto, M. AliceThe Vespa velutina nigrithorax is an invasive hornet from Asia that is causing significant concern for its impact on the European beekeeping sector. Its high adaptability and reproductive capacity have enabled the registration of over 50,000 nests in Galicia (northwest Spain) in 2023. It has been estimated that more than 20,000 individuals may emerge from each colony. This hornet consumes large quantities of honey bees in apiaries to satisfy the protein needs of its larvae. It has been demonstrated that this hornet can contain various pollinator pathogens after consuming its preys. The microsporidium Nosema provides a useful illustration of this. N. ceranae is a pathogen that causes a disease called nosemosis, which infects adult honey bees and contributes to colony depopulation. The presence of N. ceranae in V. velutina could have an impact on the dynamics of native host pathogens and contribute to the spread of this parasite. Therefore, there is a need for further knowledge on the presence of N. ceranae in V. velutina. A total of 62 individuals of V. velutina were collected from 11 apiaries located in different municipalities of Galicia to analyze the presence of N. ceranae. After DNA extraction, N. ceranae was determined in the V. velutina specimens by PCR amplification. N. ceranae was detected in five of the 11 apiaries (Culleredo, San Sadurniño, Gondomar, Fonsagrada, and Sergude). In these apiaries, nine hornets were found to be positive for N. ceranae. The results of this study provide information on the presence of N. ceranae in V. velutina, which is likely to have been acquired from honey bee consumption. This study suggests that V. velutina may contribute to the spread of this pathogen, which could represent a potential long-term risk for apiaries.
- An unparalleled survey of honey bee genetic diversity in Europe – insights from wing shape, nuclear whole genome, and mitochondrial DNA dataPublication . Pinto, M. Alice; Li, Fernanda; Lopes, Ana Rita; Taliadoros, Demetris; Costa, Maíra; Yadró Garcia, Carlos A.; Cunha, Larissa; Henriques, Dora; Martin Hernandez, Giselle; Albo, Alexandre; Blažytė-Čereškienė, Laima; Brodschneider, Robert; Brusbardis, Valters; Carreck, Norman; Charistos, Leonidas; Chlebo, Robert; Cillia, Giovanni; Coffey, Mary F.; Dahle, Bjorn; Danneels, Ellen; Dobrescu, Constantin; Filipi, Janja; Gajda, Anna; Gratzer, Kristina; Groeneveld, Linn; Hatjina, Fani; Johannesen, Jes; Kolasa, Michal; Körmendy-Rácz, János; Kovačić, Marin; Kristiansen, Preben; Dupleix-Marchal, Anna; Martikkala, Maritta; McCormack, Grace; Martín-Hernández, Raquel; Nanetti, Antonio; Pavlov, Borce; Pietropaoli, Marco; Poirot, Benjamin; Radev, Zheko; Raudmets, Aivar; René-Douarre, Vincent; Roessink, Ivo; Škerl, Maja Ivana Smodiš; Soland, Gabriele; Titera, Dalibor; Van der Steen, Jozef; Varnava, Andri; Vejsnæs, Flemming; Graaf, Dirk C. de; Webster, MathewEurope is home to 10 subspecies of Apis mellifera, classified into four main lineages sensu Ruttner: M (western and northern European), C (southeastern European), A (African), and O (Middle Eastern). However, large-scale movements of honey bee genetic material—driven by transhumance and, more importantly, queen trading—has intensified gene flow, particularly from the C-lineage subspecies A. m. carnica and A. m. ligustica, threatening the genetic integrity of several subspecies and blurring the genetic boundaries between subspecies. Here, we analyzed over 1,200 recently collected samples from apiaries in 33 countries using a multi-marker approach: maternally inherited mitochondrial DNA (tRNAleu-cox2 intergenic region), nuclear genome-wide single nucleotide polymorphisms (SNPs), and wing shape (DeepWings©) to provide the most updated and extensive account of honey bee genetic variation in Europe. Our results reveal a strong dominance of C-lineage ancestry across Europe, with noteworthy introgression signals in island subspecies and A. m. mellifera populations outside conservation apiaries. Notably, all three markers consistently captured these broad introgression patterns. This unprecedented survey highlights a worrying trend of genetic homogenization in European honey bee populations. Moreover, the widespread prevalence of C-lineage genetic introgression underscores the need for conservation efforts to preserve the diversity shaped by evolution, which is crucial for adaptation to growing environmental challenges.