Publications by authors named "Anne Dalmon"

Article Synopsis
  • Honey bees are vital for pollination but face threats from invasive subspecies, pathogens, and parasites, highlighting the need for better identification tools.
  • The introduction of HBeeID provides a powerful tool for identifying different honey bee subspecies using genomic data and diagnostic SNPs, even with incomplete samples.
  • HBeeID is adaptable for future improvements and can help monitor invasive honey bee species, aiding ecological management efforts.
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Article Synopsis
  • Honey bee colonies are vital for society and the economy, but beekeepers face challenges like parasites, reduced pollen, and pesticide exposure, necessitating a better understanding of colony health.
  • To address these issues, the B-GOOD project was created to develop a Health Status Index (HSI) for bee colonies by collecting and analyzing various data points related to colony health and environmental conditions.
  • This project emphasizes the importance of standardized data collection and machine learning to provide beekeepers with targeted guidance and contribute to sustainable beekeeping practices.
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Monitoring virus infections can be an important selection tool in honey bee breeding. A recent study pointed towards an association between the virus-free status of eggs and an increased virus resistance to deformed wing virus (DWV) at the colony level. In this study, eggs from both naturally surviving and traditionally managed colonies from across Europe were screened for the prevalence of different viruses.

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Article Synopsis
  • Invasive parasites like Varroa destructor pose significant threats to biodiversity, particularly affecting honey bee populations worldwide.
  • While beekeepers often use chemical treatments to manage these parasites, some honey bee populations have developed natural resistance or tolerance, especially in regions like Sub-Saharan Africa and Latin America.
  • Genetic analysis reveals that mites from treated and untreated colonies in Africa and South America are similar, but significant genetic differences exist between mites from different continents, indicating ongoing evolution and adaptation in the host-parasite dynamics.
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Viruses are omnipresent, yet the knowledge on drivers of viral prevalence in wild host populations is often limited. Biotic factors, such as sympatric managed host species, as well as abiotic factors, such as climatic variables, are likely to impact viral prevalence. Managed and wild bees, which harbor several multi-host viruses with a mostly fecal-oral between-species transmission route, provide an excellent system with which to test for the impact of biotic and abiotic factors on viral prevalence in wild host populations.

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In 1977, a sample of diseased adult honeybees (Apis mellifera) from Egypt was found to contain large amounts of a previously unknown virus, Egypt bee virus, which was subsequently shown to be serologically related to deformed wing virus (DWV). By sequencing the original isolate, we demonstrate that Egypt bee virus is in fact a fourth unique, major variant of DWV (DWV-D): more closely related to DWV-C than to either DWV-A or DWV-B. DWV-A and DWV-B are the most common DWV variants worldwide due to their close relationship and transmission by Varroa destructor.

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Insects have a highly sensitive sense of smell, allowing them to perform complex behaviors, such as foraging and peer recognition. Their sense of smell is based on the recognition of ligands and is mainly coordinated by odorant-binding proteins (OBPs). In , behavior can be affected by different pathogens, including deformed wing virus (DWV) and its variants.

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With a growing number of parasites and pathogens experiencing large-scale range expansions, monitoring diversity in immune genes of host populations has never been so important because it can inform on the adaptive potential to resist the invaders. Population surveys of immune genes are becoming common in many organisms, yet they are missing in the honey bee (Apis mellifera L.), a key managed pollinator species that has been severely affected by biological invasions.

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RNA viruses play a significant role in the current high losses of pollinators. Although many studies have focused on the epidemiology of western honey bee () viruses at the colony level, the dynamics of virus infection within colonies remains poorly explored. In this study, the two main variants of the ubiquitous honey bee virus DWV as well as three major honey bee viruses (SBV, ABPV and BQCV) were analyzed from -parasitized pupae.

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Viruses are known to contribute to bee population decline. Possible spillover is suspected from the co-occurrence of viruses in wild bees and honey bees. In order to study the risk of virus transmission between wild and managed bee species sharing the same floral resource, we tried to maximize the possible cross-infections using which is highly attractive to honey bees and a broad range of wild bee species.

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Numerous studies have recently reported on the discovery of bee viruses in different arthropod species and their possible transmission routes, vastly increasing our understanding of these viruses and their distribution. Here, we review the current literature on the recent advances in understanding the transmission of viruses, both on the presence of bee viruses in and non- bee species and on the discovery of previously unknown bee viruses. The natural transmission of bee viruses will be discussed among different bee species and other insects.

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Exposure to multiple stress factors is believed to contribute to honey bee colony decline. However, little is known about how co-exposure to stress factors can alter the survival and behavior of free-living honey bees in colony conditions. We therefore studied the potential interaction between a neonicotinoid pesticide, thiamethoxam, and a highly prevalent honey bee pathogen, (DWV).

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In the past centuries, viruses have benefited from globalization to spread across the globe, infecting new host species and populations. A growing number of viruses have been documented in the western honey bee, . Several of these contribute significantly to honey bee colony losses.

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The Asian yellow-legged hornet , a major predator of honeybees, is spreading in Europe in part due to a lack of efficient control methods. In this study, as a first step to identify biological control agents, we characterized viral RNA sequences present in asymptomatic or symptomatic hornets. Among 19 detected viruses, the honey bee virus was predominant in all the samples, particularly in muscles from the symptomatic hornet, suggesting a putative cause of the deformed wing symptom.

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Article Synopsis
  • Honey bee colonies are likely to experience co-exposure to pesticides and viruses, particularly thiamethoxam and Chronic bee paralysis virus (CBPV), which can affect their health and survival.
  • A study found that while co-exposure didn't significantly affect bee survival or their ability to break down thiamethoxam, it did increase CBPV loads to levels typically seen in severe infections.
  • The impact of this co-exposure may vary with the season, as bees in spring and summer are more commonly exposed and have different physiological responses than the winter bees studied.
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The paradigm for all toxicological bioassays in the risk assessment of pesticide registration reflects the principle that experimental conditions should be controlled to avoid any other factors that may affect the endpoint measures. As honeybee colonies can be frequently exposed to bio-aggressors in real conditions, often concomitantly with pesticides, co-exposure to pesticide/bio-aggressors is becoming a concern for regulatory authorities. We investigated the effects of the neonicotinoid insecticide thiamethoxam on the homing performances of foragers emerging from colonies differentiated by health status (infestation with Varroa destructor mites, microsporidian parasite Nosema spp.

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Many of the physiological traits in insects are shaped by environmental temperatures, which can influence their interactions with pathogens. Therefore, quantifying the thermal responses of the host-pathogen system is crucial for better understanding and predicting their dynamics due to environmental changes. This is particularly important in honey bees, which are experiencing severe colony losses around the world, notably due to infection with the Deformed wing virus (DWV).

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Nosema ceranae is a hot topic in honey bee health as reflected by numerous papers published every year. This review presents an update of the knowledge generated in the last 12 years in the field of N. ceranae research, addressing the routes of transmission, population structure and genetic diversity.

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By providing pollination services, bees are among the most important insects, both in ecological and economical terms. Combined next-generation and classical sequencing approaches were applied to discover and study new insect viruses potentially harmful to bees. A bioinformatics virus discovery pipeline was used on individual Illumina transcriptomes of 13 wild bees from three species from the genus Halictus and 30 ants from six species of the genera Messor and Aphaenogaster.

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This is the first description of the complete genome sequence of a new bipartite begomovirus isolated from tomato (Solanum lycopersicum) in French Guiana, for which we propose the tentative name "tomato chlorotic mottle Guyane virus" (ToCMoGFV). DNA-A and -B nucleotide sequences of ToCMoGFV are only distantly related to known New World begomoviruses. They share the highest nucleotide sequence identity of 80% with the Brazilian isolates of macroptilium yellow spot virus (MacYSV) and 73% with soybean chlorotic spot virus (SBCSV).

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