Prevalencia de los principales agentes patógenos de Apis Mellifera Iberiensis en la cabaña apícola española

Las abejas melíferas son susceptibles a una amplia variedad de enfermedades y amenazas medioambientales. El objetivo principal de este estudio fue detectar aquellos agentes patógenos relacionados con la pérdida de colonias de abejas melíferas en España utilizando para ello técnicas moleculares basadas en la reacción en cadena de la polimerasa (PCR). Para ello se realizó un estudio nacional durante los años 2006 y 2007. Los resultados obtenidos muestran una alta detección de Varroa destructor (haplotipo Coreano) y Nosema ceranae, una relevante prevalencia Acarapis woodi y una baja detección de Nosema apis, Ascosphaera apis, Paenibacillus larvae y Melissococcus plutoniusHoney bees are subject to a wide variety of diseases and environmental threats. The main aim of this study was to detect those pathogens associated with honey bee losses in Spain, using the molecular techniques based on polymerase chain reaction (PCR). This national study was conducted during 2006 and 2007. The results show a high detection of Varroa destructor (Korean haplotype) y Nosema ceranae, a relevant prevalence of Acarapis woodi and low detection of Nosema apis, Ascosphaera apis, Paenibacillus larvae and Melissococcus plutonius

Residual tau-fluvalinate in honey bee colonies is coupled with evidence for selection for Varroa destructor resistance to pyrethroids

Producción CientíficaVarroa destructor is one of the most prevalent honey bee (Apis mellifera) pathogens worldwide. Nowadays, the main method to control this parasite involves the application of different acaricidal treatments, among which the pyrethroid tau-fluvalinate is one of the most widely used. However, the intensive and repetitive application of these chemicals generates a selective pressure that, when maintained over time, contributes to the emergence of resistant mites in the honey bee colonies. Here we analysed the presence of residual tau-fluvalinate and the patterns of genetic resistance to this acaricide in Varroa mites collected from tau-fluvalinate untreated honey bee colonies. Our results show the widespread and persistent pyrethroid contamination of beeswax and beebread in the hives, along with an excess of pyrethroid-resistant genotypes and an overall increase in the frequency of the pyrethroid-resistant allele in the mite population over time. Persistent contamination of the hives likely compromises the efficacy of tau-fluvalinate treatments and, therefore, may have serious long-term consequences for the control of varroosis.Varroa destructor is considered one of the most devastating parasites of the honey bee, Apis mellifera, and a major problem for the beekeeping industry. Currently, the main method to control Varroa mites is the application of drugs that contain different acaricides as active ingredients. The pyrethroid tau-fluvalinate is one of the acaricides most widely used in beekeeping due to its efficacy and low toxicity to bees. However, the intensive and repetitive application of this compound produces a selective pressure that, when maintained over time, contributes to the emergence of resistant mites in the honey bee colonies, compromising the acaricidal treatments efficacy. Here we studied the presence of tau-fluvalinate residues in hives and the evolution of genetic resistance to this acaricide in Varroa mites from honey bee colonies that received no pyrethroid treatment in the previous four years. Our data revealed the widespread and persistent tau-fluvalinate contamination of beeswax and beebread in hives, an overall increase of the pyrethroid resistance allele frequency and a generalized excess of resistant mites relative to Hardy–Weinberg equilibrium expectations. These results suggest that tau-fluvalinate contamination in the hives may seriously compromise the efficacy of pyrethroid-based mite control methods.Plan Nacional de Investigaciones Científicas y Técnicas e Innovación 2013-2016, Instituto Nacional de Investigación Agraria y Alimentaria y Tecnología (INIA) y Fondo Europeo de Desarrollo Regional (FEDER) - (Projets RTA2017-00004-C02-01 and RTA2017-00004-CO2-02

Gut Pathology and Responses to the Microsporidium Nosema ceranae in the Honey Bee Apis mellifera

The microsporidium Nosema ceranae is a newly prevalent parasite of the European honey bee (Apis mellifera). Although this parasite is presently spreading across the world into its novel host, the mechanisms by it which affects the bees and how bees respond are not well understood. We therefore performed an extensive characterization of the parasite effects at the molecular level by using genetic and biochemical tools. The transcriptome modifications at the midgut level were characterized seven days post-infection with tiling microarrays. Then we tested the bee midgut response to infection by measuring activity of antioxidant and detoxification enzymes (superoxide dismutases, glutathione peroxidases, glutathione reductase, and glutathione-S-transferase). At the gene-expression level, the bee midgut responded to N. ceranae infection by an increase in oxidative stress concurrent with the generation of antioxidant enzymes, defense and protective response specifically observed in the gut of mammals and insects. However, at the enzymatic level, the protective response was not confirmed, with only glutathione-S-transferase exhibiting a higher activity in infected bees. The oxidative stress was associated with a higher transcription of sugar transporter in the gut. Finally, a dramatic effect of the microsporidia infection was the inhibition of genes involved in the homeostasis and renewal of intestinal tissues (Wnt signaling pathway), a phenomenon that was confirmed at the histological level. This tissue degeneration and prevention of gut epithelium renewal may explain early bee death. In conclusion, our integrated approach not only gives new insights into the pathological effects of N. ceranae and the bee gut response, but also demonstrate that the honey bee gut is an interesting model system for studying host defense responses

Permanent prevalence of Nosema ceranae in honey bees (Apis mellifera) in Hungary

Nosema ceranae is present in honey bee (Apis mellifera L.) colonies worldwide. Studies on the comparative virulence of N. ceranae and N. apis showed significant differences in individual mortality, and the prevalence of N. ceranae seems to be predominant in both the continental and the Mediterranean climate regions. This study attempted to monitor the geographical and seasonal distribution of these two Nosema species in Hungary, using a simple laboratory method. The distribution of N. ceranae and N. apis infection rates along all seasons was homogeneous (P = 0.57). In co-infected samples, the intensity of N. ceranae infection was always significantly higher than that of N. apis infection (P < 0.001). The infection rate of infected bees in exterior samples was higher than in interior samples in each season; however, the differences were not statistically significant. The species N. ceranae had been present in Hungary already in 2004. Statistical analysis of data shows that the infection level is best represented by sampling exterior bees to establish the proportion of infected bees rather than by determining the mean spore count

Kinetics of humoral immune response over 17 months of COVID-19 pandemic in a large cohort of healthcare workers in Spain : the ProHEpiC-19 study

Understanding the immune response to the SARS-CoV-2 virus is critical for efficient monitoring and control strategies. The ProHEpic-19 cohort provides a fine-grained description of the kinetics of antibodies after SARS-CoV-2 infection with an exceptional resolution over 17 months. We established a cohort of 769 healthcare workers including healthy and infected with SARS-CoV-2 in northern Barcelona to determine the kinetics of the IgM against the nucleocapsid (N) and the IgG against the N and spike (S) of SARS-CoV-2 in infected healthcare workers. The study period was from 5 May 2020 to 11 November 2021.We used non-linear mixed models to investigate the kinetics of IgG and IgM measured at nine time points over 17 months from the date of diagnosis. The model included factors of time, gender, and disease severity (asymptomatic, mild-moderate, severe-critical) to assess their effects and their interactions. 474 of the 769 participants (61.6%) became infected with SARS-CoV-2. Significant effects of gender and disease severity were found for the levels of all three antibodies. Median IgM(N) levels were already below the positivity threshold in patients with asymptomatic and mild-moderate disease at day 270 after the diagnosis, while IgG(N and S) levels remained positive at least until days 450 and 270, respectively. Kinetic modelling showed a general rise in both IgM(N) and IgG(N) levels up to day 30, followed by a decay with a rate depending on disease severity. IgG(S) levels remained relatively constant from day 15 over time. IgM(N) and IgG(N, S) SARS-CoV-2 antibodies showed a heterogeneous kinetics over the 17 months. Only the IgG(S) showed a stable increase, and the levels and the kinetics of antibodies varied according to disease severity. The kinetics of IgM and IgG observed over a year also varied by clinical spectrum can be very useful for public health policies around vaccination criteria in adult population. Regional Ministry of Health of the Generalitat de Catalunya (Call COVID19-PoC SLT16_04; NCT04885478). The online version contains supplementary material available at 10.1186/s12879-022-07696-6

MEDIDAS PARA LA CONSERVACIÓN DE LA BIODIVERSIDAD DE LOS POLINIZADORES SILVESTRES EN LA PENÍNSULA IBÉRICA

Los científicos y científicas abajo firmantes consideramos muy importante hacer llegar a instituciones, agricultores/as y a la sociedad en general, la necesidad urgente de implementar conjuntamente medidas y cambios que consigan frenar el declive de los polinizadores silvestres ocasionado por la actividad humana. Durante la última década, son múltiples los estudios que alertan de la creciente desaparición de los polinizadores por todo el mundo, en concreto de las abejas silvestres, (Biesmeijer et al. 2006; Potts et al. 2010; Burkle et al. 2013), y de las graves consecuencias que su déficit podría provocar sobre la biodiversidad global (Biesmeijer et al. 2006; Burkle et al. 2013; Lundgren et al. 2016) y sobre la producción agrícola (Aizen y Harder 2009; Garibaldi et al. 2013). No debemos olvidar que la península Ibérica es, por su condición mediterránea y su proximidad al continente africano, uno de los lugares con mayor diversidad de polinizadores de la Unión Europea y, en concreto, una de las zonas con mayor diversidad de abejas del mundo (Michener 2007; Nieto et al. 2014). Hasta el momento, el número de especies de abejas en España presentes en la zona íbero-balear es algo superior a 1.100, cifra a la que cabe añadir algunas especies exclusivas de Portugal más los nuevos hallazgos de los últimos años (Ortiz-Sánchez 2011). Esta gran diversidad de abejas y polinizadores en general está asociada al gran número de especies de plantas con flor presentes en la península Ibérica, alrededor de las 7.000 especies (Aguado Martín et al. 2015). En cuanto al número de mariposas y polillas (lepidópteros) se estima que existen en la península Ibérica unas 5.000 especies (Stefanescu et al. 2018). Más difícil es estimar el número exacto de especies de escarabajos florícolas (coleópteros polinizadores), pero atendiendo a la riqueza de los principales géneros podemos estimar su número en más de 750 (Stefanescu et al. 2018). Somos conscientes de que, a pesar del desarrollo explosivo de los últimos 10 años de la investigación en ecología y gestión de la polinización de los cultivos por insectos silvestres, hoy en día son numerosas las lagunas de conocimiento básico y aplicado sobre el estado de conservación de los insectos polinizadores silvestres. Y es, bajo esta premisa, que presentamos este trabajo de revisión de la literatura científica sobre insectos polinizadores desde principios del siglo XX hasta ahora, cuyo resultado ha quedado plasmado en una lista, no exhaustiva, de los aspectos que consideramos fundamentales para el desarrollo y debate de esta relevante cuestió

Patrón epidemiológico y nuevos métodos de control de las nosemosis de "Apis mellifera" L. en España

Tesis inédita de la Universidad Complutense de Madrid, Facultad de Veterinaria, Departamento de Sanidad Animal, leída el 08-02-2013.Depto. de Sanidad AnimalFac. de VeterinariaTRUEunpu

Calidad del sueño en profesionales de enfermería con trabajo a turno en el Hospital Mesa del Castillo (Murcia)

El trabajo a turno rotatorio afecta de forma negativa en la calidad del sueño, afectando a los ritmos biológicos y provocando la privación del sueño. Objetivos: Evaluar la presencia de alteración en la calidad del sueño del personal del Hospital Mesa del Castillo. Determinar si existen diferencias en la calidad del sueño según categoría profesional ejercida, sexo, edad, antigüedad, tener hijos o no en el turno rotatorio. Elaborar recomendaciones con el fin de mejorar la adaptación al sistema de turno rotatorio para mejorar la calidad del sueño. Material y método: Estudio descriptivo y observacional mediante Índice de Calidad del Sueño de Pittsburg. Resultados: La mayoría de los trabajadores de turno rotatorio son considerados malos dormidores que representan el 66,67% mientras que el 33,33% son buenos dormidores según el Índice de Calidad del Sueño de Pittburg, Conclusiones: Hay prevalencia de mala calidad de sueño en la muestra estudiada, en la cual afectan diferentes factores a la salud, seguridad y bienestar social de los trabajadores. Por lo tanto, es necesario el empleo de medidas que ayuden a disminuir este problema, desde un punto de vista multidisciplinar. Palabras claves: sueño, calidad del sueño, trastorno del sueño, trabajo a turnos