Your search keyword '"Di Gioia, Diana"' showing total 6 results

1. Beneficial Bacteria and Plant Extracts Promote Honey Bee Health and Reduce Nosema ceranae Infection

Author

Garrido, Paula Melisa, Porrini, Martín Pablo, Alberoni, Daniele, Baffoni, Loredana, Scott, Dara, Mifsud, David, Eguaras, Matín Javier, and Di Gioia, Diana

Published

2024

2. The gut microbiome of solitary bees is mainly affected by pathogen assemblage and partially by land use

Author

Fernandez De Landa, Gregorio, Alberoni, Daniele, Baffoni, Loredana, Fernandez De Landa, Mateo, Revainera, Pablo Damian, Porrini, Leonardo Pablo, Brasesco, Constanza, Quintana, Silvina, Zumpano, Francisco, Eguaras, Martìn Javier, Maggi, Matias Daniel, and Di Gioia, Diana

Published

2023

3. The Gut Microbiome of Two Wild Bumble Bee Species Native of South America: Bombus pauloensis and Bombus bellicosus.

Author

Fernandez de Landa, Gregorio, Alberoni, Daniele, Braglia, Chiara, Baffoni, Loredana, Fernandez de Landa, Mateo, Revainera, Pablo Damian, Quintana, Silvina, Zumpano, Francisco, Maggi, Matias Daniel, and Di Gioia, Diana

Subjects

BUMBLEBEES, GUT microbiome, NOSEMA ceranae, AGRICULTURE, POLLINATORS, BEE colonies

Abstract

South America is populated by a wide range of bumble bee species that represent an important source of biodiversity, supporting pollination services in natural and agricultural ecosystems. These pollinators provide unique specific microbial niches, populated by a wide number of microorganisms such as symbionts, environmental opportunistic bacteria, and pathogens. Recently, it was demonstrated how microbial populations are shaped by trophic resources and environmental conditions but also by anthropogenic pressure, which strongly affects microbes' functionality. This study is focused on the impact of different land uses (natural reserve, agroecosystem, and suburban) on the gut microbiome composition of two South American bumble bees, Bombus pauloensis and Bombus bellicosus. Gut microbial DNA extracted from collected bumble bees was sequenced on the Illumina MiSeq platform and correlated with land use. Nosema ceranae load was analyzed with qPCR and correlated with microbiome data. Significant differences in gut microbiome composition between the two wild bumble bee species were highlighted, with notable variations in α- and β-diversity across study sites. Bombus bellicosus showed a high abundance of Pseudomonas, a genus that includes environmental saprobes, and was found to be the second major taxa populating the gut microbiome, probably indicating the vulnerability of this host to environmental pollution. Pathogen analysis unveils a high prevalence of N. ceranae, with B. bellicosus showing higher susceptibility. Finally, Gilliamella exhibited a negative correlation with N. ceranae, suggesting a potential protective role of this commensal taxon. Our findings underscore the importance of considering microbial dynamics in pollinator conservation strategies, highlighting potential interactions between gut bacteria and pathogens in shaping bumble bee health. [ABSTRACT FROM AUTHOR]

Published

2024

4. Vairimorpha (Nosema) ceranae can promote Serratia development in honeybee gut: an underrated threat for bees?

Author

Braglia, Chiara, Alberoni, Daniele, Garrido, Paula Melisa, Porrini, Martin Pablo, Baffoni, Loredana, Scott, Dara, Eguaras, Martin Javier, Di Gioia, Diana, and Mifsud, David

Subjects

SERRATIA, HONEYBEES, SERRATIA marcescens, BEES, VARROA destructor, GENE targeting, BIFIDOBACTERIUM

Abstract

The genus Serratia harbors opportunistic pathogenic species, among which Serratia marcescens is pathogenic for honeybees although little studied. Recently, virulent strains of S. marcescens colonizing the Varroa destructor mite's mouth were found vectored into the honeybee body, leading to septicemia and death. Serratia also occurs as an opportunistic pathogen in the honeybee's gut with a low absolute abundance. The Serratia population seems controlled by the host immune system, but its presence may represent a hidden threat, ready to arise when honeybees are weakened by biotic and abiotic stressors. To shed light on the Serratia pathogen, this research aims at studying Serratia's development dynamics in the honeybee body and its interactions with the co-occurring fungal pathogen Vairimorpha ceranae. Firstly, the degree of pathogenicity and the ability to permeate the gut epithelial barrier of three Serratia strains, isolated from honeybees and belonging to different species (S. marcescens, Serratia liquefaciens, and Serratia nematodiphila), were assessed by artificial inoculation of newborn honeybees with different Serratia doses (104, 106, and 108 cells/mL). The absolute abundance of Serratia in the gut and in the hemocoel was assessed in qPCR with primers targeting the luxS gene. Moreover, the absolute abundance of Serratia was assessed in the gut of honeybees infected with V. ceranae at different development stages and supplied with beneficial microorganisms and fumagillin. Our results showed that all tested Serratia strains could pass through the gut epithelial barrier and proliferate in the hemocoel, with S. marcescens being the most pathogenic. Moreover, under cage conditions, Serratia better proliferates when a V. ceranae infection is co-occurring, with a positive and significant correlation. Finally, fumagillin and some of the tested beneficial microorganisms could control both Serratia and Vairimorpha development. Our findings suggest a correlation between the two pathogens under laboratory conditions, a co-occurring infection that should be taken into consideration by researches when testing antimicrobial compounds active against V. ceranae, and the related honeybees survival rate. Moreover, our findings suggest a positive control of Serrata by the environmental microorganism Apilactobacillus kunkeei in a in vivo model, confirming the potential of this specie as beneficial bacteria for honeybees. [ABSTRACT FROM AUTHOR]

Published

2024

5. A first approach in the correlation of pathogens load affecting Bombus pauloensis to the land use in Buenos Aires Province.

Author

Fernandez de Landa, Gregorio, Revainera, Pablo D., Alberoni, Daniele, Nicolli, Anabella R., Fernandez de Landa, Mateo, Zumpano, Francisco, Brasesco, Constanza, Reynaldi, Francisco J., Quintana, Silvina, Petrigh, Romina, Di Gioia, Diana, Galetto, Leonardo, Eguaras, Martín J., and Maggi, Matias D.

Abstract

Bombus pauloensis is a native bumble bee species widely distributed over South America and a key pollinator for native plants and commercial crops. This species is affected by pathogens such as Nosema ceranae, Crithidia bombi and Apis mellifera Filamentous Virus (AmFV). This work aims to document the presence and intensity of exogenous pathogens on the native bumble bee B. pauloensis in different periods of the year during spring and summer. Bumble bees were sampled in four study areas with contrasting land uses to preliminary evaluate if anthropization levels can be related to the presence and intensity of pathogens. DNA was isolated from twenty individuals per sampling site and N. ceranae, C. bombi and AmFV pathogens load were quantified by quantitative PCR. The results showed a wide and ubiquitous prevalence of N. ceranae and C. bombi pathogens in all the sampled bumble bees throughout the year, with a pathogens load that did not differ significantly among the sampling sites. AmFV was undetected in any of the individuals analyzed in any sampling site. This suggests that human activities could equally impact all habitats populated by B. pauloensis. Honey bees were detected with a relevant abundance in all the sampling sites and could be one of the main anthropogenic drivers of pathogens spread and host switches in the analyzed sampling sites. This study analyzes the general occurrence of the prevalence and intensity of the pathogens in a native Argentinian bumble bee species and attempts the correlation with the land use [ABSTRACT FROM AUTHOR]

Published

2024

6. Alterations in the Microbiota of Caged Honeybees in the Presence of Nosema ceranae Infection and Related Changes in Functionality.

Author

Alberoni, Daniele, Di Gioia, Diana, and Baffoni, Loredana

Subjects

*HONEYBEES, *NOSEMA ceranae, *GUT microbiome, *PATHOGENIC bacteria

Abstract

Several studies have outlined that changes in the honeybee gut microbial composition may impair important metabolic functions supporting the honeybees' life. Gut dysbiosis may be caused by diseases like Nosema ceranae or by other anthropic, environmental or experimental stressors. The present work contributes to increasing knowledge on the dynamics of the gut microbiome acquisition in caged honeybees, an experimental condition frequently adopted by researchers, with or without infection with N. ceranae, and fed with a bacterial mixture to control N. ceranae development. Changes of the gut microbiota were elucidated comparing microbial profile of caged and open-field reared honeybees. The absolute abundance of the major gut microbial taxa was studied with both NGS and qPCR approaches, whereas changes in the functionality were based on RAST annotations and manually curated. In general, all caged honeybees showed important changes in the gut microbiota, with γ -proteobacteria (Frischella, Gilliamella and Snodgrassella) lacking in all caged experimental groups. Caged honeybees infected with N. ceranae showed also a strong colonization of environmental taxa like Citrobacter, Cosenzaea and Morganella, as well as possibly pathogenic bacteria such as Serratia. The colonization of Serratia did not occur in presence of the bacterial mixture. The functionality prediction revealed that environmental bacteria or the supplemented bacterial mixture increased the metabolic potential of the honeybee gut microbiome compared to field and caged controls. [ABSTRACT FROM AUTHOR]

Published

2023