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3. Four-Year Overview of Winter Colony Losses in Greece: Citizen Science Evidence That Transitioning to Organic Beekeeping Practices Reduces Colony Losses

Author

Kagiali, E. Kokoli, M. Vardakas, P. Goras, G. Hatjina, F. Patalano, S. and Kagiali, E. Kokoli, M. Vardakas, P. Goras, G. Hatjina, F. Patalano, S.

Abstract

The honey bee is one of the most important pollinators with a close relationship to humans. The questionnaire from the non-governmental association “COLOSS”, answered by beekeepers around the world, is a valuable tool for monitoring and analyzing factors involved in overwintering losses, as well as for understanding the evolution of the beekeeping sector over the years. Between 2018–2021, Greece’s participation in this survey involved collecting data from 752 beekeepers and 81,903 hives, from almost the whole country, with a stable balance between professional/non-professional participants and hives, providing a solid representation of the beekeeping practices and winter losses during this period. The results of this study identify a transition towards more natural beekeeping practices concomitant with a significant decrease in winter losses (average losses in 2018: 22.3% and 2019: 24%, dropped in 2020: 14.4% and 2021: 15.3%). Indeed, some factors, such as the increased use of natural landscapes for honey production (from 66.7% usage in 2018 to 76.3% in 2021) and the reduction in the exclusive use of synthetic acaricides (from 24.7% usage in 2018 to 6.7% in 2021) seem to have a significant impact on hive survival. Although these correlations remain to be confirmed experimentally, our study shows that Greek beekeepers follow recommendations and policies toward more sustainable practices. In the future, these trends could be further analyzed and integrated into training programs to strengthen the cooperation and information exchange between citizens and science. © 2023 by the authors.

Published
2023

4. EurBeST - Het testen van varroa-resistente bijen onder praktijkomstandigheden

Author

Büchler, R., Uzunov, A., Costa, C., Meixner, M.D., Conte, Y. Le, Kovačić, M., Andonov, S., Carreck, N.L., Dimitrov, L., Basso, B., Bienkowska, M., Dall’Olio, R., Hatjina, F., Wirtz, U., Büchler, R., Uzunov, A., Costa, C., Meixner, M.D., Conte, Y. Le, Kovačić, M., Andonov, S., Carreck, N.L., Dimitrov, L., Basso, B., Bienkowska, M., Dall’Olio, R., Hatjina, F., and Wirtz, U.

Abstract

In de EU zijn bijna 16 miljoen bijenvolken, gehouden door ongeveer 600.000 imkers, met een totale honingopbrengst ter waarde van 2 miljard euro. Honingbijen dragen bij aan bestuiving, in de land- en tuinbouw en ook van de wilde flora en daarmee aan behoud van biodiversiteit en gezonde ecosystemen. Intensivering van de landbouw plus klimaatverandering verslechteren echter hun omgeving. Globalisering brengt nieuwe ziektes binnen, bijvoorbeeld via de mijt Varroa destructor. Als de imker die niet bestrijdt, kan dat binnen een jaar leiden tot verlies van het merendeel van de besmette volken.

Published
2022

5. Managing bees without chemical inputs

Author

Hatjina, F., Al Naggar, Y., Fontana, P., Locsin, A., Chlebo, R., and Saville, T.

Subjects
Settore AGR/11 - ENTOMOLOGIA GENERALE E APPLICATA
Published
2022

6. Its2 metabarcoding: a promising approach for identification of botanical origin of bee-collected pollen

Author

Quaresma, A., van Der Steen, J.J.F., Amaral, J., Biron, David, Brodschneider, R., Brusbardis, V., Carreck, N.L., Coffey, M.F., Formato, G., de Graaf, D., Gratzer, K., Hatjina, F., Kilpinem, O., Keller, A., Laget, D., Pietropaoli, M., Rufino, J., Vejsnaes, F., Pinto, M.A., EPE - Hospital do Espirito de Evora, Laboratoire Microorganismes : Génome et Environnement (LMGE), Université Clermont Auvergne [2017-2020] (UCA [2017-2020])-Centre National de la Recherche Scientifique (CNRS), Laboratory of Solid-State and Materials Chemistry, Eindhoven University of Technology [Eindhoven] (TU/e), Institut des Sciences Moléculaires de Marseille (ISM2), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Photophysique Moléculaire (PPM), and Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDE]Environmental Sciences, ComputingMilieux_MISCELLANEOUS
Abstract

Bee products have long been used in human’s diet and their consumption has increasingly been recognized has beneficial for human’s health. One such product is pollen, which is a particularly interesting food as it contains bioactive compounds and all the essential amino-acids needed by humans. However, the composition of bee-collected pollen depends on the environment where the visited plants grow (e.g.: climatic conditions, soil type) and, above all, on the plant species [1]. Therefore, identification of the botanical origin of bee-collected pollen is important for a fuller characterization of this food product. Until recently, pollen identification has been carried out using light microscopy, a costly approach that often provides low taxonomic resolution. However, with high-throughput sequencing (HTS) becoming increasingly affordable, DNA metabarcoding is emerging as a promising alternative to light microscopy. In addition to be time- and cost-effective for large sample sizes, metabarcoding has the potential to allow identification of pollen mixtures at the species level. However, before it can be widely employed in pollen analysis, the reliability of this molecular tool must be appraised. Herein, we compared the relative abundances obtained by the two approaches on 108 bee-collected pollen samples from 10 European countries. To that end, the 108 samples were first homogenized and split into two identical sub-sets. One sub-set was analysed by palynology experts from the “Institut für Bienenkunde”, Germany, and the other one was subjected to HTS, using ITS2 as the barcode, in the labs of CIMO and CIBIO. Pairwise comparisons of the relative abundances at the family level of the 108 samples show no significant differences (P ≥ 0.1057, Wilcoxon signed-rank test) and high correlation values (0.2736 ≤ r ≤ 0.9842, Pearson’s correlation) between the two approaches. The highest correlation values were observed for Italian samples (0.7245 ≤ r ≤ 0.9842; global r = 0.8958) and the lowest for Greek samples (0.0266 ≤ r ≤ 0.9703; global r = 0.4929). Despite, the few outliers, which can be improved by further optimization of the protocols, these results suggest that ITS2 metabarcoding promises to be a reliable alternative to light microscopy. This molecular approach is now being employed in the European project INSIGNIA (https://www.insignia-bee.eu/), which is developing a standard protocol for using the honey bee as a tool for environmental monitoring. info:eu-repo/semantics/publishedVersion

Published
2021

7. Identification of botanical origin of bee-collected mixed pollen samples: a comparison between palynological and DNA metabarcoding methods

Author

Quaresma, A., van Der Steen, J.J.F., Amaral, J., Biron, David, Brodschneider, R., Brusbardis, V., Carreck, N.L., Formato, G., Gratzer, K., Hatjina, F., Kilpinen, O., Pietropaoli, M., Rufino, J., Vejsnæs, F., Pinto, M.A., EPE - Hospital do Espirito de Evora, Laboratoire Microorganismes : Génome et Environnement (LMGE), Université Clermont Auvergne [2017-2020] (UCA [2017-2020])-Centre National de la Recherche Scientifique (CNRS), Institut des Sciences Moléculaires de Marseille (ISM2), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), and BIRON, DAVID

Subjects
[SDE] Environmental Sciences, [SDE]Environmental Sciences, ComputingMilieux_MISCELLANEOUS
Abstract

Identification of botanical origin of mixed pollen samples has several applications, including unraveling plant-pollinator interactions, determining botanical origin of honey, monitoring allergy-related airborne pollen sources, or even monitoring pesticide use in crops. These applications have typically been addressed using light microscopy, a costly approach that often provides low taxonomic resolution. However, with high-throughput sequencing (HTS) becoming increasingly affordable, DNA metabarcoding is emerging as a promising alternative to classical palynology. In addition to be time- and cost-effective for large sample sizes, metabarcoding has the potential to allow identification of pollen mixtures at the species level. However, before it can be widely employed in pollen analysis, the reliability of this molecular tool must be appraised. Herein, we compared the two approaches on 61 bee-collected pollen samples from eight European countries. The samples were homogenized and split into two sub-samples. One set of 61 sub-samples was analyzed by palynology experts from the “Institut für Bienenkunde”, Germany, and the other one was subjected to HTS, using ITS2 as the barcode, in the labs of CIMO and CIBIO. Comparisons of the relative abundances at the family level show no significant differences (P ≥ 0.1057, Wilcoxon signed-rank test) and high correlation values (0.2736 ≤ r ≤ 1.000, Pearson’s correlation) between the two approaches. The highest correlation values were observed for Italian samples (0.7245 ≤ r ≤ 0.9842; global r = 0.8958) and the lowest for Greek samples (0.0266 ≤ r ≤ 0.9703; global r = 0.5149). These results suggest that ITS2 metabarcoding offers a reliable alternative to classical palynology and this approach is now being employed in the European project INSIGNIA (https://www.insignia-bee.eu/), which is developing a standard protocol for using the honey bee as a tool for environmental monitoring. EnvMetaGen, BioPolis This study was funded by INSIGNIA “Environmental monitoring of pesticides use through honey bees” (SANTE/E4/SI2.788418-SI2.788452). info:eu-repo/semantics/publishedVersion

Published
2020

8. Summer brood interruption as integrated management strategy for effective Varroa control in Europe

Author

Buechler, R., Buechler, R., Uzunov, A., Kovacić, M., Presern, J., Pietropaoli, M., Hatjina, F., Pavlov, B., Charistos, L., Formato, G., Galarza, E., Gerula, D., Gregorc, A., Malagnini, V, Meixner, M.D., Nedić, Nebojša, Puskadija, Z., Rivera-Gomis, J., Jenko, M.Rogelj, Skerl, M.I.Smodis, Vallon, J., Vojt, Denis, Wilde, J., Nanetti, A., Buechler, R., Buechler, R., Uzunov, A., Kovacić, M., Presern, J., Pietropaoli, M., Hatjina, F., Pavlov, B., Charistos, L., Formato, G., Galarza, E., Gerula, D., Gregorc, A., Malagnini, V, Meixner, M.D., Nedić, Nebojša, Puskadija, Z., Rivera-Gomis, J., Jenko, M.Rogelj, Skerl, M.I.Smodis, Vallon, J., Vojt, Denis, Wilde, J., and Nanetti, A.

Abstract

Most Varroa induced colony losses occur during the autumn or winter season as a consequence of an elevated Varroa infestation level and an insufficient health status of the adult bees. Even with an initial low Varroa infestation in early spring, critical mite and virus infection levels can be reached before winter if colonies continuously rear brood throughout the whole season. To overcome this challenge, beekeepers can artificially interrupt brood production by suitable management procedures, depending on their type of beekeeping operation. To assess their efficacy, associated workload, and impact on colony development, different methods for brood interruption (queen caging with the combination of oxalic acid treatment, total brood removal, trapping comb technique) were tested during two seasons in 11 locations on 370 colonies in 10 European countries. A protocol was developed to standardize the methods' application across different environmental conditions. The efficacy of queen caging depended on the mode of oxalic acid application and ranged from 48.16% to 89.57% mite removal. The highest efficacies were achieved with trickling a 4.2% solution (89.57%) and with the sublimation of 2 g of oxalic acid (average of 88.25%) in the broodless period. The efficacy of the purely biotechnical, chemical-free trapping comb and brood removal methods did not differ significantly from the queen caging groups. We conclude that a proper application of one of the described brood interruption methods can significantly contribute to an efficient Varroa control and to the production of honey bee products meeting the highest quality and food-safety standards.

Published
2020

9. INSIGNIA: um projeto de monitorização ambiental de pesticidas através da utilização da abelha mellifera

Author

Pinto, M. Alice, Amaral, J.S., Baveco, H., Biron, D., Brodschneider, R., Brusbardis, V., Carreck, N., Charistos, L., Coffey, M.F., Fernandez-Alba, A., Ferrer -Amata, C., Formato, G., Graaf, Dirk C. de, Gratzer, K., Gray, A., Hatjina, F., Kasiotis, K., Kilpinen, O., Pietropaoli, M., Roessink, I., Rufino, José, Vejsnaes, F., and Steen, J.Jozef Van Der

Abstract

Submitted by José Rufino (rufino@ipb.pt) on 2020-03-29T21:41:58Z No. of bitstreams: 1 INSIGNIA_OApicultor2019.pdf: 9426901 bytes, checksum: 3f1490f1f64b202f7d23bd9b8ca5f2b5 (MD5) Made available in DSpace on 2020-03-30T08:30:42Z (GMT). No. of bitstreams: 1 INSIGNIA_OApicultor2019.pdf: 9426901 bytes, checksum: 3f1490f1f64b202f7d23bd9b8ca5f2b5 (MD5) Previous issue date: 2019 info:eu-repo/semantics/publishedVersion

Published
2019

10. Miscellaneous standard methods for Apis mellifera research

Author

Human, H., Brodschneider, R., Dietemann, V., Dively, G., Ellis, J.D., Forsgren, E., Fries, I., Hatjina, F., Hu, F.L., Jaffe, R., Jensen, A.B., Kohler, A., Magyar, J.P., Ouml;zkyrym, A., Pirk, C.W.W., Rose, R., Strauss, U., Tanner, G., Tarpy, D.R., van der Steen, J.J.M., Vaudo, A., Vejsnaes, F., de Wilde, J., Williams, G.R., Zheng, H.Q., Human, H., Brodschneider, R., Dietemann, V., Dively, G., Ellis, J.D., Forsgren, E., Fries, I., Hatjina, F., Hu, F.L., Jaffe, R., Jensen, A.B., Kohler, A., Magyar, J.P., Ouml;zkyrym, A., Pirk, C.W.W., Rose, R., Strauss, U., Tanner, G., Tarpy, D.R., van der Steen, J.J.M., Vaudo, A., Vejsnaes, F., de Wilde, J., Williams, G.R., and Zheng, H.Q.

Abstract

A variety of methods are used in honey bee research and differ depending on the level at which the research is conducted. On an individual level, the handling of individual honey bees, including the queen, larvae and pupae are required. There are different methods for the immobilising, killing and storing as well as determining individual weight of bees. The precise timing of developmental stages is also an important aspect of sampling individuals for experiments. In order to investigate and manipulate functional processes in honey bees, e. g. memory formation and retrieval and gene expression, microinjection is often used. A method that is used by both researchers and beekeepers is the marking of queens that serves not only to help to locate her during her life, but also enables the dating of queens. Creating multiple queen colonies allows the beekeeper to maintain spare queens, increase brood production or ask questions related to reproduction. On colony level, very useful techniques are the measurement of intra hive mortality using dead bee traps, weighing of full hives, collecting pollen and nectar, and digital monitoring of brood development via location recognition. At the population level, estimation of population density is essential to evaluate the health status and using beelines help to locate wild colonies. These methods, described in this paper, are especially valuable when investigating the effects of pesticide applications, environmental pollution and diseases on colony survival.

Published
2013

13. First identification of nanoparticles on thorax, abdomen and wings of the worker bee Apis dorsata Fabricius

Author

Bhattacharyya Atanu, Viraktamath Shashidhar, Hatjina Fani, Bhattacharyya Santanu, Rajankar Bhaktibhavana, and Patra Amitava

Subjects
nanoparticles, calcium silicate, calcium phosphate, apis dorsata fabricius, behaviour, pollinator, Zoology, QL1-991
Abstract

The presence of nanoparticles on the body of the honeybee Apis dorsata Fabricius, was investigated for the first time to better understand the bee’s behaviour. These have been observed by using Scanning Electron Microscopy (SEM), Transmission Electron Microscopy (TEM) and confirmed by Atomic Force Microscopy (AFM). Our study clearly denotes that the Indian rock honey bee Apis dorsata possess calcium silicate and calcium phosphate nanoparticles on its body surface of 5-50 nm in diameter. In particular, the nanoparticles on the abdomen and thorax of A. dorsata have an average diameter of about 10 nanometers and they are smaller than those found on wings of the same bees which are about 20 nanometers. The nanoparticles found are different of the ones previously observed on honey bees or other insects. The origin and role of these natural nanoparticles on the body of the Indian rock bee need to be to be further investigated; more research in the subject might raise important aspects in relation to the conservation of these unique pollinators.

Published
2016
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14. Morphological Discrimination of Greek Honey Bee Populations Based on Geometric Morphometrics Analysis of Wing Shape

Author

Charistos Leonidas, Hatjina Fani, Bouga Maria, Mladenovic Mica, and Maistros Anastasios D.

Subjects
apis mellifera, geometric morphometrics, greece, morphological discrimination, Zoology, QL1-991
Abstract

Honey bees collected from 32 different localities in Greece were studied based on the geometric morphometrics approach using the coordinates of 19 landmarks located at wing vein intersections. Procrustes analysis, principal component analysis, and Canonical variate analysis (CVA) detected population variability among the studied samples. According to the Principal component analysis (PCA ) of pooled data from each locality, the most differentiated populations were the populations from the Aegean island localities Astypalaia, Chios, and Kythira. However, the populations with the most distant according to the canonical variate analysis performed on all measurements were the populations from Heraklion and Chania (both from Crete island). These results can be used as a starting point for the use of geometric morphometrics in the discrimination of honey bee populations in Greece and the establishment of conservation areas for local honey bee populations.

Published
2014
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15. Looking for ' the best bee ' An experiment about interactions between origin and environment of honey bee strains in Europe

Author

Meixner, M., Buchler, R., Costa, C., Andonov, S., Bienkowska, M., Bouga, M., Filipi, J., Hatjina, F., Evgeniya N. Ivanova, Kezic, N., Kryger, P., Conte, Y. L., Panasiuk, B., Petrov, P., Ruottinen, L., Uzunov, A., Wilde, J., LLH Bieneninstitut Kirchhain, Consiglio per la Ricerca e Sperimentazione in Agricoltura, Faculty for Agricultural Science and Food, Partenaires INRAE, Research Institute of Horticulture, Laboratory of Agricultural Zoology and Entomology, Agricultural University of Athens, University of Applied Sciences, Hellenic Agricultural Organization Demeter (HAO Demeter), Agricultural University [Plovdiv], Faculty of Agriculture [Zagreb] (UNIZG), University of Zagreb, Research Centre Flakkebjerg, Abeilles & Environnement (UR 406 ), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Agrifood Research Finland, and University of Warmia and Mazury

Subjects
[SDV]Life Sciences [q-bio], fungi, behavior and behavior mechanisms
Abstract

International audience; The honey bee Apis mellifera, of which there are currently 28 identified subspecies and numerous ecotypes, have been evolving and adapting to a wide range of environments for hundreds of thousands of years within their native range of Europe, Africa and Asia. Honey bees have been widely dispersed over the past several hundred years and are now also established in the Americas and Australia. Today, the high loss of colonies worldwide is attributed to a combination of factors, including parasitic mites, pathogens, pesticides and malnutrition. The COLOSS network of European scientists asks the questions: Does beekeeper selection for productivity lead to genetic deficiency, and are locally adapted populations being displaced by the movement of various honey bee types to locations beyond their native range? A major research effort explores these questions, looking at numerous types of honey bees that are endemic to specific areas of Europe or have become adapted after several decades of breeding. Beekeepers in the U.S. also consider these questions through interest in locally adapted bees and “survivor” feral bees, although the situation is very different. Our honey bees are not native and were derived from relatively small founder populations, thus we lack the evolutionary diversity of subspecies and ecotypes that exist in Europe. We also lack the strong support of institutions and beekeeper organizations devoted to the selection and maintenance of specific subspecies, as established in many European countries. Feral populations in the U.S., previously considered a mixed source of raw genetic variation, have been devastated by the impact of Varroa mites. Through semen collections from Old World sources, Washington State University has been involved in the importation and distribution of additional honey bee genetic diversity in the U.S. Associated with the importations, cryopreserved germplasm from “pure” Old World subspecies has been deposited in the WSU Germplasm Repository for future breeding and conservation needs.Through such measures, we hope to enhance domestic bee breeding programs by providing additional genetic diversity to improve bee health in the U.S.

16. Maximize EU pollinator protection: Minimize risk

Author

Alexandre Aebi, Noa Simon-Delso, Fani Hatjina, Fabio Sgolastra, J. M. Bonmatin, Gérard Arnold, Piotr Medrzycki, Université de Neuchâtel (UNINE), Evolution, génomes, comportement et écologie (EGCE), Institut de Recherche pour le Développement (IRD)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Centre de biophysique moléculaire (CBM), Université d'Orléans (UO)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Hellenic Agricultural Organization Demeter (HAO Demeter), Consiglio per la Ricerca in Agricoltura e l’analisi dell’economia agraria = Council for Agricultural Research and Economics (CREA), University of Bologna/Università di Bologna, Simon-Delso N., Aebi A., Arnold G., Bonmatin J.M., Hatjina F., Medrzycki P., Sgolastra F., Université d'Orléans (UO)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC), Consiglio per la Ricerca in Agricoltura e l’analisi dell’economia agraria (CREA), and University of Bologna

Subjects
2. Zero hunger, 0303 health sciences, Multidisciplinary, Natural resource economics, [SDV]Life Sciences [q-bio], fungi, 010501 environmental sciences, Biology, 01 natural sciences, Pesticide, 03 medical and health sciences, 13. Climate action, Pollinator, Bee, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, 0105 earth and related environmental sciences, Risk assessment
Abstract

Bees and other pollinators play vital roles in biodiversity and food security, and they are a source of income and inspiration. Yet, bees’ biodiversity and abundance are decreasing every day. Their decline, driven by pesticides (1–3), poses serious threats to the environment, ecosystems, and human health. The European pesticide authorization framework states that a pesticide can only be put on the market if it has no harmful effects on human health or animal health and no unacceptable effects on the environment (4). EU ministries met in June to decide what constitutes an “acceptable” effect of a pesticide on bees (5). Despite scientific evidence indicating that the current level of protection is barely adequate, they tentatively agreed to provide even less protection moving forward (5). We call on EU governments to apply the maximum level of protection of pollinators from pesticides (6).

Published
2021
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17. How stressors disrupt honey bee biological traits and overwintering mechanisms.

Author

Minaud É, Rebaudo F, Davidson P, Hatjina F, Hotho A, Mainardi G, Steffan-Dewenter I, Vardakas P, Verrier E, and Requier F

Abstract

High winter mortality of honey bees ( Apis mellifera ) has been observed in temperate regions over the past 30 years. Several biotic and abiotic stressors associated with winter colony losses have been identified, but the mechanisms and interactions underlying their effects remain unclear. We reviewed the effects of stressors on key overwintering biological traits, distinguishing between individual and colony traits. We found that disturbances at the level of individual traits can be amplified when transmitted to colony traits. By analyzing these cascading effects, we propose a concept of a feedback loop mechanism of winter mortality. We found that population size, social thermoregulation and honey reserve are integrative traits and can predict overwintering failure. Furthermore, we identified social thermoregulation as a good candidate for an early warning indicator. We therefore discuss existing tools for monitoring hive temperature to help mitigate the current high winter mortality of honey bees and support the sustainability of beekeeping., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published
2024
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18. Semi-automated sequence curation for reliable reference datasets in ITS2 vascular plant DNA (meta-)barcoding.

Author

Quaresma A, Ankenbrand MJ, Garcia CAY, Rufino J, Honrado M, Amaral J, Brodschneider R, Brusbardis V, Gratzer K, Hatjina F, Kilpinen O, Pietropaoli M, Roessink I, van der Steen J, Vejsnæs F, Pinto MA, and Keller A

Subjects
DNA, Plant genetics, Phylogeny, Plants genetics, Sequence Analysis, DNA, DNA Barcoding, Taxonomic, Tracheophyta
Abstract

One of the most critical steps for accurate taxonomic identification in DNA (meta)-barcoding is to have an accurate DNA reference sequence dataset for the marker of choice. Therefore, developing such a dataset has been a long-term ambition, especially in the Viridiplantae kingdom. Typically, reference datasets are constructed with sequences downloaded from general public databases, which can carry taxonomic and other relevant errors. Herein, we constructed a curated (i) global dataset, (ii) European crop dataset, and (iii) 27 datasets for the EU countries for the ITS2 barcoding marker of vascular plants. To that end, we first developed a pipeline script that entails (i) an automated curation stage comprising five filters, (ii) manual taxonomic correction for misclassified taxa, and (iii) manual addition of newly sequenced species. The pipeline allows easy updating of the curated datasets. With this approach, 13% of the sequences, corresponding to 7% of species originally imported from GenBank, were discarded. Further, 259 sequences were manually added to the curated global dataset, which now comprises 307,977 sequences of 111,382 plant species., (© 2024. The Author(s).)

Published
2024
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19. Environmental assessment of PAHs through honey bee colonies - A matrix selection study.

Author

Murcia-Morales M, Tzanetou EN, García-Gallego G, Kasiotis KM, Vejsnaes F, Brodschneider R, Hatjina F, Machera K, and Van der Steen JJM

Abstract

The steady conditions of temperature, humidity and air flux within beehives make them a valuable location for conducting environmental monitoring of pollutants such as PAHs. In this context, the selection of an appropriate apicultural matrix plays a key role in these monitoring studies, as it maximizes the information that will be obtained in the analyses while minimizing the inaccurate results. In the present study, three apicultural matrices (honey bees, pollen and propolis) and two passive samplers (APIStrips and silicone wristbands) are compared in terms of the number and total load of PAHs detected in them. Samplings took place in a total of 11 apiaries scattered in Austria, Denmark, and Greece, with analyses performed by GC-MS/MS. Up to 14 different PAHs were identified in silicone wristbands and pollen, whereas the remaining matrices contained a maximum of five contaminants. Naphthalene, 1-methylnaphthalene, 2-methylnaphthalene, and pyrene were found to be the most prevalent substances in the environment. Recovery studies were also performed; these suggested that the chemical structure of APIStrips is likely to produce very strong interactions with PAHs, thus hindering the adequate desorption of these substances from their surface. Overall, silicone wristbands placed inside the beehives proved the most suitable matrix for PAH monitoring through honey bee colonies., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors.)

Published
2023
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20. Emerging threats and opportunities to managed bee species in European agricultural systems: a horizon scan.

Author

Willcox BK, Potts SG, Brown MJF, Alix A, Al Naggar Y, Chauzat MP, Costa C, Gekière A, Hartfield C, Hatjina F, Knapp JL, Martínez-López V, Maus C, Metodiev T, Nazzi F, Osterman J, Raimets R, Strobl V, Van Oystaeyen A, Wintermantel D, Yovcheva N, and Senapathi D

Subjects
Bees, Animals, Agriculture, Pollination, Technology, Crops, Agricultural, Pesticides
Abstract

Managed bee species provide essential pollination services that contribute to food security worldwide. However, managed bees face a diverse array of threats and anticipating these, and potential opportunities to reduce risks, is essential for the sustainable management of pollination services. We conducted a horizon scanning exercise with 20 experts from across Europe to identify emerging threats and opportunities for managed bees in European agricultural systems. An initial 63 issues were identified, and this was shortlisted to 21 issues through the horizon scanning process. These ranged from local landscape-level management to geopolitical issues on a continental and global scale across seven broad themes-Pesticides & pollutants, Technology, Management practices, Predators & parasites, Environmental stressors, Crop modification, and Political & trade influences. While we conducted this horizon scan within a European context, the opportunities and threats identified will likely be relevant to other regions. A renewed research and policy focus, especially on the highest-ranking issues, is required to maximise the value of these opportunities and mitigate threats to maintain sustainable and healthy managed bee pollinators within agricultural systems., (© 2023. Springer Nature Limited.)

Published
2023
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21. Honey vs. Mite-A Trade-Off Strategy by Applying Summer Brood Interruption for Varroa destructor Control in the Mediterranean Region.

Author

Kovačić M, Uzunov A, Tlak Gajger I, Pietropaoli M, Soroker V, Adjlane N, Benko V, Charistos L, Dall'Olio R, Formato G, Hatjina F, Malagnini V, Freda F, Otmi A, Puškadija Z, Villar C, and Büchler R

Abstract

In this study, we investigated the effect of queen caging on honey bee colonies' post-treatment development and the optimal timing of method application on honey production during the main summer nectar flow. We conducted the study in nine apiaries (N = 9) across six Mediterranean countries, with a total of 178 colonies. The colonies were divided into three test groups: QC1, QC2, and C. The QC1 group involved queens caged for a total of 28 days before the expected harvesting day. In the QC2 group, queens were caged for 28 days, but only 14 days before the expected harvesting day. The C group consisted of queens that were not caged, and the colonies received common local treatments. In both the QC1 and QC2 groups, the colonies were treated with a 4.2% oxalic acid (OA) solution by trickling after the queen release. Our findings revealed no significant adverse effects ( p > 0.05) on colony strength at the end of the study resulting from queen caging. However, significantly lower amounts of honey were extracted from the QC1 group compared to both the QC2 group ( p = 0.001) and the C group ( p = 0.009). Although there were no initial differences in Varroa destructor infestation between the groups, ten weeks later, a significantly higher infestation was detected in the C group compared to both the QC1 group ( p < 0.01) and the QC2 group ( p = 0.003). Overall, our study demonstrates that queen caging, in combination with the use of OA, is an effective treatment for controlling V. destructor . However, the timing of caging plays a crucial role in honey production outcomes.

Published
2023
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22. Enhancing the environmental monitoring of pesticide residues through Apis mellifera colonies: Honey bees versus passive sampling.

Author

Murcia-Morales M, Vejsnæs F, Brodschneider R, Hatjina F, Van der Steen JJM, Oller-Serrano JL, and Fernández-Alba AR

Subjects
Bees, Animals, Beekeeping, Environmental Monitoring methods, Austria, Pesticide Residues analysis, Pesticides analysis
Abstract

The use of apicultural matrices for the environmental monitoring of pesticides is a widely employed approach that facilitates to a great extent the sampling procedures. Honey bees are one of the most commonly employed matrices in these studies due to their abundance in the colonies and their direct contact with the beehive and the environment. However, the analysis of this matrix is associated to a lack of representativity of the contaminants accumulated within the beehive, due mainly to the limited number of honey bees that are sampled and analyzed compared to the population in a hive. This small proportion of organisms which are sampled from the colony may lead to underestimations or overestimations of the total pesticide load, depending on the specific individuals that are included in the analysis. In the present work, the passive, non-invasive APIStrip-based sampling approach is compared to active bee sampling with a total of 240 samples taken from 15 apiaries from Austria, Denmark and Greece over a two-month period in 2022. The APIStrips have been found to provide a more comprehensive image of the pesticide residues accumulated in the beehive in terms of number of identified residues and robustness of the results. A total of 74 different pesticide residues were detected: the use of APIStrips allowed to detect 66 pesticides in the three countries, compared to 38 residues in honey bees. The use of APIStrips also resulted in a higher percentage of positive samples (containing at least one pesticide residue). The results provided by the passive sampling approach were also more consistent among the replicates and over time, which reveals an increased sampling robustness., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Jozef J.M. Van der Steen reports financial support was provided by European Commission., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2023
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23. Honey bee (Apis mellifera) wing images: a tool for identification and conservation.

Author

Oleksa A, Căuia E, Siceanu A, Puškadija Z, Kovačić M, Pinto MA, Rodrigues PJ, Hatjina F, Charistos L, Bouga M, Prešern J, Kandemir İ, Rašić S, Kusza S, and Tofilski A

Subjects
Animals, Bees, Pollination, Adaptation, Physiological, Europe, Agriculture, Biodiversity
Abstract

Background: The honey bee (Apis mellifera) is an ecologically and economically important species that provides pollination services to natural and agricultural systems. The biodiversity of the honey bee in parts of its native range is endangered by migratory beekeeping and commercial breeding. In consequence, some honey bee populations that are well adapted to the local environment are threatened with extinction. A crucial step for the protection of honey bee biodiversity is reliable differentiation between native and nonnative bees. One of the methods that can be used for this is the geometric morphometrics of wings. This method is fast, is low cost, and does not require expensive equipment. Therefore, it can be easily used by both scientists and beekeepers. However, wing geometric morphometrics is challenging due to the lack of reference data that can be reliably used for comparisons between different geographic regions., Findings: Here, we provide an unprecedented collection of 26,481 honey bee wing images representing 1,725 samples from 13 European countries. The wing images are accompanied by the coordinates of 19 landmarks and the geographic coordinates of the sampling locations. We present an R script that describes the workflow for analyzing the data and identifying an unknown sample. We compared the data with available reference samples for lineage and found general agreement with them., Conclusions: The extensive collection of wing images available on the Zenodo website can be used to identify the geographic origin of unknown samples and therefore assist in the monitoring and conservation of honey bee biodiversity in Europe., (© The Author(s) 2023. Published by Oxford University Press GigaScience.)

Published
2023
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24. Four-Year Overview of Winter Colony Losses in Greece: Citizen Science Evidence That Transitioning to Organic Beekeeping Practices Reduces Colony Losses.

Author

Kagiali E, Kokoli M, Vardakas P, Goras G, Hatjina F, and Patalano S

Abstract

The honey bee is one of the most important pollinators with a close relationship to humans. The questionnaire from the non-governmental association "COLOSS", answered by beekeepers around the world, is a valuable tool for monitoring and analyzing factors involved in overwintering losses, as well as for understanding the evolution of the beekeeping sector over the years. Between 2018-2021, Greece's participation in this survey involved collecting data from 752 beekeepers and 81,903 hives, from almost the whole country, with a stable balance between professional/non-professional participants and hives, providing a solid representation of the beekeeping practices and winter losses during this period. The results of this study identify a transition towards more natural beekeeping practices concomitant with a significant decrease in winter losses (average losses in 2018: 22.3% and 2019: 24%, dropped in 2020: 14.4% and 2021: 15.3%). Indeed, some factors, such as the increased use of natural landscapes for honey production (from 66.7% usage in 2018 to 76.3% in 2021) and the reduction in the exclusive use of synthetic acaricides (from 24.7% usage in 2018 to 6.7% in 2021) seem to have a significant impact on hive survival. Although these correlations remain to be confirmed experimentally, our study shows that Greek beekeepers follow recommendations and policies toward more sustainable practices. In the future, these trends could be further analyzed and integrated into training programs to strengthen the cooperation and information exchange between citizens and science.

Published
2023
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25. CSI Pollen: Diversity of Honey Bee Collected Pollen Studied by Citizen Scientists.

Author

Brodschneider R, Kalcher-Sommersguter E, Kuchling S, Dietemann V, Gray A, Božič J, Briedis A, Carreck NL, Chlebo R, Crailsheim K, Coffey MF, Dahle B, González-Porto AV, Filipi J, de Graaf DC, Hatjina F, Ioannidis P, Ion N, Jørgensen AS, Kristiansen P, Lecocq A, Odoux JF, Özkirim A, Peterson M, Podrižnik B, Rašić S, Retschnig G, Schiesser A, Tosi S, Vejsnæs F, Williams G, and van der Steen JJM

Abstract

A diverse supply of pollen is an important factor for honey bee health, but information about the pollen diversity available to colonies at the landscape scale is largely missing. In this COLOSS study, beekeeper citizen scientists sampled and analyzed the diversity of pollen collected by honey bee colonies. As a simple measure of diversity, beekeepers determined the number of colors found in pollen samples that were collected in a coordinated and standardized way. Altogether, 750 beekeepers from 28 different regions from 24 countries participated in the two-year study and collected and analyzed almost 18,000 pollen samples. Pollen samples contained approximately six different colors in total throughout the sampling period, of which four colors were abundant. We ran generalized linear mixed models to test for possible effects of diverse factors such as collection, i.e., whether a minimum amount of pollen was collected or not, and habitat type on the number of colors found in pollen samples. To identify habitat effects on pollen diversity, beekeepers' descriptions of the surrounding landscape and CORINE land cover classes were investigated in two different models, which both showed that both the total number and the rare number of colors in pollen samples were positively affected by 'urban' habitats or 'artificial surfaces', respectively. This citizen science study underlines the importance of the habitat for pollen diversity for bees and suggests higher diversity in urban areas.

Published
2021
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27. Biological Properties of Bee Bread Collected from Apiaries Located across Greece.

Author

Didaras NA, Kafantaris I, Dimitriou TG, Mitsagga C, Karatasou K, Giavasis I, Stagos D, Amoutzias GD, Hatjina F, and Mossialos D

Abstract

Bee bread is the only fermented product of the beehive. It constitutes the main source of proteins, lipids, vitamins, and macro- and microelements in honeybee nutrition and it exerts antioxidant and antimicrobial properties, though research on these aspects has been limited so far. In this study 18 samples of Greek bee bread, two of which were monofloral, were collected during different seasons from diverse locations such as Crete and Mount Athos and were tested for their bioactivity. Samples were analyzed for their antibacterial properties, antioxidant activity, total phenolic content (TPC), and total flavonoid content (TFC). The antimicrobial activity of each sample was tested against Staphylococcus aureus , Pseudomonas aeruginosa , Klebsiella pneumoniae , and Salmonella typhimurium . Our data demonstrate that all samples exert inhibitory and most of them bactericidal activity against at least two pathogens. Furthermore, all samples exert significant antioxidant activity, where the monofloral Castanea Sativa sample demonstrated superior antioxidant activity. Nevertheless, the antioxidant and antimicrobial activity were not strongly correlated. Furthermore, machine learning methods demonstrated that the palynological composition of the samples is a good predictor of their TPC and ABTS activity. This is the first study that focuses on the biological properties of Greek bee bread and demonstrates that bee bread can be considered a functional food and a possible source of novel antimicrobial compounds.

Published
2021
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28. Authoritative subspecies diagnosis tool for European honey bees based on ancestry informative SNPs.

Author

Momeni J, Parejo M, Nielsen RO, Langa J, Montes I, Papoutsis L, Farajzadeh L, Bendixen C, Căuia E, Charrière JD, Coffey MF, Costa C, Dall'Olio R, De la Rúa P, Drazic MM, Filipi J, Galea T, Golubovski M, Gregorc A, Grigoryan K, Hatjina F, Ilyasov R, Ivanova E, Janashia I, Kandemir I, Karatasou A, Kekecoglu M, Kezic N, Matray ES, Mifsud D, Moosbeckhofer R, Nikolenko AG, Papachristoforou A, Petrov P, Pinto MA, Poskryakov AV, Sharipov AY, Siceanu A, Soysal MI, Uzunov A, Zammit-Mangion M, Vingborg R, Bouga M, Kryger P, Meixner MD, and Estonba A

Subjects
Animals, Bees genetics, Europe, Genotype, Geography, Biological Evolution, Polymorphism, Single Nucleotide
Abstract

Background: With numerous endemic subspecies representing four of its five evolutionary lineages, Europe holds a large fraction of Apis mellifera genetic diversity. This diversity and the natural distribution range have been altered by anthropogenic factors. The conservation of this natural heritage relies on the availability of accurate tools for subspecies diagnosis. Based on pool-sequence data from 2145 worker bees representing 22 populations sampled across Europe, we employed two highly discriminative approaches (PCA and F ST ) to select the most informative SNPs for ancestry inference., Results: Using a supervised machine learning (ML) approach and a set of 3896 genotyped individuals, we could show that the 4094 selected single nucleotide polymorphisms (SNPs) provide an accurate prediction of ancestry inference in European honey bees. The best ML model was Linear Support Vector Classifier (Linear SVC) which correctly assigned most individuals to one of the 14 subspecies or different genetic origins with a mean accuracy of 96.2% ± 0.8 SD. A total of 3.8% of test individuals were misclassified, most probably due to limited differentiation between the subspecies caused by close geographical proximity, or human interference of genetic integrity of reference subspecies, or a combination thereof., Conclusions: The diagnostic tool presented here will contribute to a sustainable conservation and support breeding activities in order to preserve the genetic heritage of European honey bees.

Published
2021
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29. A Pesticide Residues Insight on Honeybees, Bumblebees and Olive Oil after Pesticidal Applications against the Olive Fruit Fly Bactrocera oleae (Diptera: Tephritidae).

Author

Varikou K, Kasiotis KM, Bempelou E, Manea-Karga E, Anagnostopoulos C, Charalampous A, Garantonakis N, Birouraki A, Hatjina F, and Machera K

Abstract

In 2017 and 2018, a field survey was initiated on Greek olive orchards to investigate the attractiveness of bait spray applications and the impact of cover and bait sprays applied against the olive fruit fly Bactrocera oleae (Diptera: Tephritidae), on the honeybee, Apis mellifera L. and bumblebees Bombus terrestris , by investigating the pesticides' residual prevalence. Bee colonies were evenly distributed in three sites located on coastal areas of Western Crete and visited almost weekly between July and October. Samples collected, were analyzed using existing or developed-optimized liquid and gas chromatographic methods. In bee samples, concentrations varied from 0.0013 to 2.3 mg/kg for dimethoate, from 0.0013-0.059 mg/kg for its metabolite omethoate, and from 0.0035 to 0.63 mg/kg regarding the pyrethroids, β-cyfluthrin and λ-cyhalothrin. In one bee sample dimethoate concentration exceeded both acute oral and contact median lethal dose (LD 50 ). Residue findings in bees, along with verified olive oil residues corroborated that those insecticides had been applied in the olive orchards and transferred to bees. The possibility of non-target effects of the bait sprays to the bees, as well as the impact of the contaminated olive to the bees are discussed.

Published
2020
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30. Evaluation of Suppressed Mite Reproduction (SMR) Reveals Potential for Varroa Resistance in European Honey Bees ( Apis mellifera L.).

Author

Mondet F, Parejo M, Meixner MD, Costa C, Kryger P, Andonov S, Servin B, Basso B, Bieńkowska M, Bigio G, Căuia E, Cebotari V, Dahle B, Dražić MM, Hatjina F, Kovačić M, Kretavicius J, Lima AS, Panasiuk B, Pinto MA, Uzunov A, Wilde J, and Büchler R

Abstract

In the fight against the Varroa destructor mite, selective breeding of honey bee ( Apis mellifera L.) populations that are resistant to the parasitic mite stands as a sustainable solution. Selection initiatives indicate that using the suppressed mite reproduction (SMR) trait as a selection criterion is a suitable tool to breed such resistant bee populations. We conducted a large European experiment to evaluate the SMR trait in different populations of honey bees spread over 13 different countries, and representing different honey bee genotypes with their local mite parasites. The first goal was to standardize and validate the SMR evaluation method, and then to compare the SMR trait between the different populations. Simulation results indicate that it is necessary to examine at least 35 single-infested cells to reliably estimate the SMR score of any given colony. Several colonies from our dataset display high SMR scores indicating that this trait is present within the European honey bee populations. The trait is highly variable between colonies and some countries, but no major differences could be identified between countries for a given genotype, or between genotypes in different countries. This study shows the potential to increase selective breeding efforts of V. destructor resistant populations.

Published
2020
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31. Stress indicator gene expression profiles, colony dynamics and tissue development of honey bees exposed to sub-lethal doses of imidacloprid in laboratory and field experiments.

Author

De Smet L, Hatjina F, Ioannidis P, Hamamtzoglou A, Schoonvaere K, Francis F, Meeus I, Smagghe G, and de Graaf DC

Subjects
Animals, Bees genetics, Bees growth & development, Cytochrome P-450 Enzyme System genetics, Cytochrome P-450 Enzyme System metabolism, Imidazoles administration & dosage, Imidazoles pharmacology, Insect Proteins metabolism, Insecticides administration & dosage, Insecticides pharmacology, Neonicotinoids, Nitro Compounds administration & dosage, Nitro Compounds pharmacology, Bees drug effects, Imidazoles toxicity, Insect Proteins genetics, Insecticides toxicity, Nitro Compounds toxicity, Stress, Physiological
Abstract

In this study, different context-dependent effects of imidacloprid exposure on the honey bee response were studied. Honey bees were exposed to different concentrations of imidacloprid during a time period of 40 days. Next to these variables, a laboratory-field comparison was conducted. The influence of the chronic exposure on gene expression levels was determined using an in-house developed microarray targeting different immunity-related and detoxification genes to determine stress-related gene expression changes. Increased levels of the detoxification genes encoding, CYP9Q3 and CYT P450, were detected in imidacloprid-exposed honey bees. The different context-dependent effects of imidacloprid exposure on honey bees were confirmed physiologically by decreased hypopharyngeal gland sizes. Honey bees exposed to imidacloprid in laboratory cages showed a general immunosuppression and no detoxification mechanisms were triggered significantly, while honey bees in-field showed a resilient response with an immune stimulation at later time points. However, the treated colonies had a brood and population decline tendency after the first brood cycle in the field. In conclusion, this study highlighted the different context-dependent effects of imidacloprid exposure on the honey bee response. These findings warn for possible pitfalls concerning the generalization of results based on specific experiments with short exposure times. The increased levels of CYT P450 and CYP9Q3 combined with an immune response reaction can be used as markers for bees which are exposed to pesticides in the field., Competing Interests: Co-author Prof. Guy Smagghe is a PLOS ONE Editorial Board member. This does not alter the authors’ adherence to all PLOS ONE policies on sharing data and samples.

Published
2017
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32. More insight into the chemical composition of Greek propolis; differences and similarities with Turkish propolis.

Author

Celemli OG, Hatjina F, Charistos L, Schiesser A, and Ozkirim A

Subjects
Gas Chromatography-Mass Spectrometry, Greece, Principal Component Analysis, Turkey, Propolis chemistry
Abstract

We aimed to determine the differences and similarities between Greek and Turkish propolis with respect to their chemical composition given that the two countries have many similarities in floral biodiversity. We observed that: a) Greek propolis is different from the European-type propolis, having a high terpene content; therefore we can definitely characterize it as a Mediterranean type; b) the Turkish propolis collected along the coast line of the Aegean Sea is similiar to the examined Greek propolis; c) the remaining Turkish samples, originating from the European part of Turkey, were found to be similiar to the European-type propolis, having a high flavonoid content. Finally, especially two compounds, beta-elemene and totarol, were found in Greek samples in quite high amounts that are thought to have important biological properties.

Published
2013

33. Genetic structure of Marchalina hellenica (Hemiptera: Margarodidae) populations from Turkey: preliminary mtDNA sequencing data.

Author

Bouga M, Evangelou V, Lykoudis D, Cakmak I, and Hatjina F

Subjects
Animals, Base Sequence, DNA, Ribosomal genetics, Genetic Structures, Genetic Variation, Phylogeny, Turkey, DNA, Mitochondrial genetics, Hemiptera genetics
Abstract

The scale insect Marchalina hellenica (Gennadius) (Hemiptera: Margarodidae) contributes to the production of pine honey in Turkey and Greece via the honeydew excreted when it feeds on pine trees. Although it is an insect of prime economic importance, there is no information on its genetic structure. Preliminary data were obtained based on sequencing analysis of 12s rDNA and COI mtDNA gene segments from samples from four areas of Turkey. Sequences of the 12s rDNA gene segment from Greek samples available in GenBank were also included. No variability was detected concerning the COI mtDNA gene segment analysis, although 13 haplotypes were revealed based on the 12s rDNA gene segment. The most distant population was from Mudanya-Bursa Province (Turkey). Further research is necessary on the genetic structure and variability of M. hellenica populations from the two neighboring countries.

Published
2011
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34. Polar tube protein gene diversity among Nosema ceranae strains derived from a Greek honey bee health study.

Author

Hatjina F, Tsoktouridis G, Bouga M, Charistos L, Evangelou V, Avtzis D, Meeus I, Brunain M, Smagghe G, and de Graaf DC

Subjects
Animals, DNA, Fungal analysis, Environmental Monitoring, Greece, Host-Pathogen Interactions, Species Specificity, Bees microbiology, Fungal Proteins genetics, Genetic Variation, Mycoses veterinary, Nosema genetics, Polymorphism, Genetic
Abstract

Honey bee samples from 54 apiaries originating from 37 geographic locations of Greece were screened for Nosema apis and Nosema ceranae. Furthermore 15 samples coming from 12 geographic locations were screened also for Paenibacilluslarvae and Melissococcus plutonius and seven honey bee virus species, for the first time on a nation-wide level. There was a tendency in finding proportionally higher spore counts in samples from apiaries that suffered important colony losses. P. larvae bacteria were identified in two samples and each of the tested bee viruses could be detected in at least one of the examined samples, with IAPV, CBPV and SBV being the least abundant and BQCV and DWV being the most abundant. In the study we focused on polymorphism of a N. ceranae gene encoding a polar tube protein (PTP) as similar genes were proven to be highly polymorphic in the microsporidian parasites Encephalitozoon cuniculi and Encephalitozoon hellem. The polymorphism observed in the PTP gene sequences from a single sample (bee hive) was unexpected and can thus be considered to be a major obstacle for genotyping., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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35. Widespread dispersal of the microsporidian Nosema ceranae, an emergent pathogen of the western honey bee, Apis mellifera.

Author

Klee J, Besana AM, Genersch E, Gisder S, Nanetti A, Tam DQ, Chinh TX, Puerta F, Ruz JM, Kryger P, Message D, Hatjina F, Korpela S, Fries I, and Paxton RJ

Subjects
Animals, DNA, Fungal analysis, DNA, Fungal isolation & purification, Nosema genetics, Polymerase Chain Reaction, Polymorphism, Restriction Fragment Length, Bees microbiology, Microsporidiosis epidemiology, Microsporidiosis veterinary, Nosema isolation & purification, Nosema physiology
Abstract

The economically most important honey bee species, Apis mellifera, was formerly considered to be parasitized by one microsporidian, Nosema apis. Recently, [Higes, M., Martín, R., Meana, A., 2006. Nosema ceranae, a new microsporidian parasite in honeybees in Europe, J. Invertebr. Pathol. 92, 93-95] and [Huang, W.-F., Jiang, J.-H., Chen, Y.-W., Wang, C.-H., 2007. A Nosema ceranae isolate from the honeybee Apis mellifera. Apidologie 38, 30-37] used 16S (SSU) rRNA gene sequences to demonstrate the presence of Nosema ceranae in A. mellifera from Spain and Taiwan, respectively. We developed a rapid method to differentiate between N. apis and N. ceranae based on PCR-RFLPs of partial SSU rRNA. The reliability of the method was confirmed by sequencing 29 isolates from across the world (N =9 isolates gave N. apis RFLPs and sequences, N =20 isolates gave N. ceranae RFLPs and sequences; 100% correct classification). We then employed the method to analyze N =115 isolates from across the world. Our data, combined with N =36 additional published sequences demonstrate that (i) N. ceranae most likely jumped host to A. mellifera, probably within the last decade, (ii) that host colonies and individuals may be co-infected by both microsporidia species, and that (iii) N. ceranae is now a parasite of A. mellifera across most of the world. The rapid, long-distance dispersal of N. ceranae is likely due to transport of infected honey bees by commercial or hobbyist beekeepers. We discuss the implications of this emergent pathogen for worldwide beekeeping.

Published
2007
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