The relationship between the prevalence of ten known pathogens in wild swedish bees and the presence of a nearby apiary.

Sundblad, Frida

January 2021

Pollination by insects is of great importance for the global food production. There is a specific need for pollination by bees in greenhouses and tunnel cultivations to increase the quantity, quality and market value of the crops. Imported bee colonies from central Europe are used for pollination of Swedish crops and have a great economic importance but are also a threat to wild Swedish bees by posing a risk of pathogen transmission between the bee species. The aim of this study was to investigate how imported bees affect the prevalence of pathogens amongst wild bees.  Analysis was performed on 236 wild bees collected in near proximity to tunnel cultivation, greenhouse cultivation and collected from two control landscapes. The abdomen of the bees was used to extract RNA/DNA for further detection and quantification of ten pathogens using qPCR. The proportion of infected bees within each group was calculated based on the results from the qPCR analysis. A two-proportion z-test was used to determine whether the difference in pathogen prevalence between the four groups was of statistically significant at α = 0.05. The results show that there was no significant difference when comparing the presence of all pathogens between bees in the test groups and the bees in the control groups (p= 0,29- 0,33). However, the prevalence of three viruses was significantly higher among bees collected in the near proximity of a greenhouse compared with bees collected from the near proximity of a tunnel cultivation (p< 0,003). For Slow bee paralysis virus the prevalence was 2,5 times higher and for Deformed wing virus and Black queen cell virus the prevalence was 3,5 and 1,3 times higher among bees collected near a greenhouses compared to near a tunnel cultivation.

Bombus terrestris

Apis mellifera

Deformed wing virus

pathogen spillover

commercial bumblebee production

Biomedical Laboratory Science/Technology

Rozdíly ve viromu včel u různých populací včely medonosné (Apis mellifera) / The differences in the virome of different populations of honey bee (Apis mellifera)

Kadlečková, Dominika

January 2020

European honey bee (Apis mellifera) is major pollinator for agriculture and vital for food production. Large number of viruses infecting A. mellifera have been discovered over the years, but it isn't yet known if they are pathogenic for their host. However, presence of non-viral pathogens like Varroa destructor can greatly increase their virulence and have fatal consequences for the colony. The aim of this study was to test and verify robustness of the method for virome detection on healthy honey bees from the Czech Republic. Last but not least we aimed to detect non-viral parasites and correlate their presence with detected viruses. We have successfully identified large number of viral sequences from different viral families. Viral composition was found to be influenced mainly by colony from where the honey bees were collected. That was mainly given by a large amount of bacteriophages in the samples. However, analysis of individual viruses, known to infect honey bee, indicated that viral prevalence and viral loads of specific viruses is quite different among individual honey bees from the same colony. Interestingly we were able to find highly diverse Lake Sinai viruses. We were able to observe correlations either between individual viruses or viral other non-viral pathogens. Further analysis is...

Varroa destructor chez l’abeille domestique (Apis mellifera) : impacts sur l’hémolymphe et les infections secondaires

Cournoyer, Antoine

11 1900

L’abeille domestique (Apis mellifera) est un insecte qui contribue à l’agriculture par sa pollinisation. Le taux élevé des mortalités hivernales des colonies est préoccupant depuis des décennies au Canada. Plusieurs facteurs sont impliqués, particulièrement Varroa destructor; un parasite qui se nourrit du corps gras de l’abeille. Le développement d’outils adaptés permettrait un meilleur suivi des colonies. Le projet consiste à corréler l’infestation de varroa avec les concentrations en sucres sériques et les co-infections (virales et bactériennes). Cette étude compare dans le temps six ruches fortement infestées et six ruches traitées (témoins). Un prélèvement d’hémolymphe a été effectué pour mesurer les concentrations en sucres en utilisant un glucomètre humain préalablement validé. Les concentrations en sucres (glucose et tréhalose) dans l’hémolymphe étaient significativement plus faibles (p<0.001) dans les ruches fortement infestées que les témoins en septembre. L’analyse RT-PCR multiplexe de six virus (DWV A/B, BCQV, KBV, IAPV et ABPV) a démontré que les ruches fortement infestées présentent une infection simultanée virale avec des charges plus élevées que chez les ruches témoins (p<0.05) pour la majorité des virus, sauf pour ABPV. Chez les ruches fortement parasitées, les charges virales pour DWVA et BQCV sont plus élevées en septembre qu’en juillet (p≤0.0001). Serratia marcescens a été seulement détectée dans une ruche infestée et une ruche témoin. Une exposition continue et élevée à varroa occasionne, en automne, une augmentation des charges virales et une diminution des sucres, suggérant une altération de l’immunité, du métabolisme et des réserves. Ces paramètres provoquent une faiblesse et une mortalité des colonies. / The European honeybee (Apis mellifera) contributes to the agriculture by its pollination; however, the mean overwintering loss rate of colonies over the last decades in Canada is worrisome. Varroa destructor, which feeds on the fat bodies of honeybees, is considered one of the most important causes of bee colony declines. The development of adapted diagnostic tools would improve the monitoring of honeybee health. This project aims to correlate the infestation by varroa to the hemolymph sugar concentrations (trehalose and glucose) and bacterial and viral coinfections. Six highly infested and six treated hives were compared over time. Pooled hemolymph of honeybees was collected for sugar concentration measurements using a previously validated portable glucometer. The hemolymph samples were also submitted for bacteriology. Multiplex RT-PCR analyses were performed on pooled honeybees for six viruses: Deformed wing virus A and B (DWV-A/B), Bee Queen Cell Virus (BQCV), Acute Bee Paralysis Virus (ABPV), Kashmere Bee Virus (KBV), Israeli Acute Paralysis Virus (IAPV). The results show that, in September, sugar concentrations in hemolymph were significantly lower in highly infested hives (p<0.001). Infested hives showed markedly higher viral loads (p<0.05), except for ABPV. Viral loads were significantly higher (p≤0.0001) in September than in July for DWV-A and BQCV. Serratia marcescens was only detected in one infested hive and one control. Overall, a continued and severe exposure to varroa leads to increased viral charges and decreased sugar concentrations, suggesting alterations in immunity, metabolism and reserve mobilization. All these parameters contribute to the weakening and mortality of the colonies.

Varroa destructor

Apis mellifera

Abeilles

Virus

Virus des ailes déformées (DWV)

Virus de la paralysie aigüe (ABPV)

Virus du Cachemire (KBV)

Virus de la cellule royale noire (BQCV)

Sucres

Glucose

Tréhalose

Glucomètre

Hémolymphe

Honeybee

Honeybee viruses

Deformed Wing Virus (DWV)

Acute Bee Paralysis Virus (ABPV)

Kashmere Bee Virus (KBV)

Israeli Acute Paralysis Virus (IAPV)

Bee Queen Cell Virus (BQCV)

Sugar

Trehalose

Hemolymph

Pathology / Pathologie (UMI : 0571)