Percorrer por autor "Carreck, Norman"
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- Synthetic varroacides in honey bee colonies: A comprehensive monitoring program across the European UnionPublication . Steen, Jozef J.M. Van der; Brodschneider, Robert; Brusbardis, Valters; Buddendor, Bas; Carreck, Norman; Danneels, Ellen; Graaf, Dirk C. de; Gratzer, Kristina; Gray, Alison; Hatjina, Fani; Kasiotis, Konstantinos M.; Kilpinen, Ole; Martínez, José Antonio; Murcia-Morales, María; Martinez-Bueno, Maria Jesus; Oller-Serrano, José Luis; Pietropaoli, Marco; Pinto, M. Alice; Quaresma, Andreia; Roessink, Ivo; Tzanetou, Evangelia; Vejsnæs, Flemming; Fernández-Alba, Amadeo R.Managing Varroa destructor in honey bee colonies remains a constant challenge for beekeepers, requiring a balance between maintaining mite levels low whilst minimizing the negative impacts of miticide treatments on bee health. Synthetic varroacides such as coumaphos, tau-fluvalinate, and amitraz are widely used due to their convenience, but they can have negative impacts on the colony and persist in hive materials, with residues detectable long after application. To investigate the presence and dynamics of these synthetic varroacides, the INSIGNIA-EU initiative conducted a large-scale monitoring program, covering 312 bee hive sites across the European Union. The study employed the APIStrip—a novel, non-invasive passive sampler based on TENAX® sorbent—which, when placed inside the hive, passively adsorbs chemical residues from the internal hive environment. This approach has demonstrated its effectiveness eliminating the need to sample bees, wax, honey, or pollen, while still providing representative contamination data from a single, standardized analytical matrix. This study reports results from APIStrip analyses deployed across all EU countries for residues of amitraz, tau-fluvalinate, and coumaphos, using a harmonized and validated analytical protocol. Additionally, thymol, regarded as an environmentally friendly alternative, was also included in the evaluation as a reference. Sampling was carried out over nine consecutive two-week periods from May to August 2023, ensuring synchronized data collection and enabling direct comparability of results across sites and time points. The study found these miticides to be pervasive across most EU regions, appearing in more than 85% of samples and greatly outnumbering detections of the natural alternative, thymol. In most cases, notable miticide residue concentrations persisted throughout the entire sampling period.
- 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.