Your search keyword '"Sannino, Ciro"' showing total 6 results

1. Intra- and inter-cores fungal diversity suggests interconnection of different habitats in an Antarctic frozen lake (Boulder Clay, Northern Victoria Land).

Author

Sannino C, Borruso L, Mezzasoma A, Battistel D, Zucconi L, Selbmann L, Azzaro M, Onofri S, Turchetti B, Buzzini P, and Guglielmin M

Subjects

Antarctic Regions, Clay, Ecosystem, Fungi genetics, Ice Cover chemistry, Lakes chemistry, Lakes microbiology, Mycobiome, Organic Chemicals analysis, Permafrost chemistry, Salinity, Salts analysis, Fungi classification, Ice Cover microbiology, Permafrost microbiology

Abstract

A perennially frozen lake at Boulder Clay site (Victoria Land, Antarctica), characterized by the presence of frost mounds, have been selected as an in situ model for ecological studies. Different samples of permafrost, glacier ice and brines have been studied as a unique habitat system. An additional sample of brines (collected in another frozen lake close to the previous one) was also considered. Alpha- and beta-diversity of fungal communities showed both intra- and inter-cores significant (p < 0.05) differences, which suggest the presence of interconnection among the habitats. Therefore, the layers of frost mound and the deep glacier could be interconnected while the brines could probably be considered as an open habitat system not interconnected with each other. Moreover, the absence of similarity between the lake ice and the underlying permafrost suggested that the lake is perennially frozen based. The predominance of positive significant (p < 0.05) co-occurrences among some fungal taxa allowed to postulate the existence of an ecological equilibrium in the habitats systems. The positive significant (p < 0.05) correlation between salt concentration, total organic carbon and pH, and some fungal taxa suggests that a few abiotic parameters could drive fungal diversity inside these ecological niches., (© 2020 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2020

2. A thin ice layer segregates two distinct fungal communities in Antarctic brines from Tarn Flat (Northern Victoria Land).

Author

Borruso L, Sannino C, Selbmann L, Battistel D, Zucconi L, Azzaro M, Turchetti B, Buzzini P, and Guglielmin M

Subjects

Antarctic Regions, Phylogeny, Biodiversity, Environmental Microbiology, Fungi classification, Ice Cover microbiology, Mycobiome, Salts chemistry

Abstract

Brines are hypersaline solutions which have been found within the Antarctic permafrost from the Tarn Flat area (Northern Victoria Land). Here, an investigation on the possible presence and diversity of fungal life within those peculiar ecosystems has been carried out for the first time. Brines samples were collected at 4- and 5-meter depths (TF1 and TF2, respectively), from two brines separated by a thin ice layer. The samples were analyzed via Illumina MiSeq targeting the ITS region specific for both yeasts and filamentous fungi. An unexpected high alpha diversity was found. Beta diversity analysis revealed that the two brines were inhabited by two phylogenetically diverse fungal communities (Unifrac value: 0.56, p value < 0.01; Martin's P-test p-value < 0.001) characterized by several specialist taxa. The most abundant fungal genera were Candida sp., Leucosporidium sp., Naganishia sp. and Sporobolomyces sp. in TF1, and Leucosporidium sp., Malassezia sp., Naganishia sp. and Sporobolomyces sp. in TF2. A few hypotheses on such differentiation have been done: i) the different chemical and physical composition of the brines; ii) the presence in situ of a thin layer of ice, acting as a physical barrier; and iii) the diverse geological origin of the brines.

Published

2018

3. Seasonal and altitudinal changes of culturable bacterial and yeast diversity in Alpine forest soils.

Author

França L, Sannino C, Turchetti B, Buzzini P, and Margesin R

Subjects

Bacteria genetics, Fungi genetics, RNA, Ribosomal, 16S genetics, Seasons, Altitude, Bacteria isolation & purification, Forests, Fungi isolation & purification, Microbiota, Soil Microbiology

Abstract

The effect of altitude and season on abundance and diversity of the culturable heterotrophic bacterial and yeast community was examined at four forest sites in the Italian Alps along an altitude gradient (545-2000 m). Independently of altitude, bacteria isolated at 0 °C (psychrophiles) were less numerous than those recovered at 20 °C. In autumn, psychrophilic bacterial population increased with altitude. The 1194 bacterial strains were primarily affiliated with the classes Alpha-, Beta-, Gammaproteobacteria, Spingobacteriia and Flavobacteriia. Fifty-seven of 112 operational taxonomic units represented potential novel species. Strains isolated at 20 °C had a higher diversity and showed similarities in taxa composition and abundance, regardless of altitude or season, while strains isolated at 0 °C showed differences in community composition at lower and higher altitudes. In contrast to bacteria, yeast diversity was season-dependent: site- and altitude-specific effects on yeast diversity were only detected in spring. Isolation temperature affected the relative proportions of yeast genera. Isolations recovered 719 strains, belonging to the classes Dothideomycetes, Saccharomycetes, Tremellomycetes and Mycrobotryomycetes. The presence of few dominant bacterial OTUs and yeast species indicated a resilient microbial population that is not affected by season or altitude. Soil nutrient contents influenced significantly abundance and diversity of culturable bacteria, but not of culturable yeasts.

Published

2016

4. Cultivable microorganisms associated with honeys of different geographical and botanical origin.

Author

Sinacori M, Francesca N, Alfonzo A, Cruciata M, Sannino C, Settanni L, and Moschetti G

Subjects

Bacteria classification, Bacteria genetics, Bacteria growth & development, Discriminant Analysis, Flowers chemistry, Fungi classification, Fungi genetics, Fungi growth & development, Geography, Honey classification, Yeasts classification, Yeasts genetics, Yeasts growth & development, Bacteria isolation & purification, Fungi isolation & purification, Honey microbiology, Yeasts isolation & purification

Abstract

In this study, the composition of the cultivable microbial populations of 38 nectar honey and honeydew honey samples of different botanical and geographical origin were assessed. After growth in specific media, various colonies with different appearance were isolated and purified before phenotypic (morphological, physiological and biochemical traits) and genotypic [randomly amplified polymorphic DNA (RAPD), repetitive DNA elements-PCR (rep-PCR) and restriction fragment length polymorphism (RFLP)] differentiation. The identification was carried out by 16S rRNA gene sequencing for bacteria and, in addition to RFLP, by sequencing the D1/D2 region of the 26S rRNA gene for yeasts and the 5.8S-ITS rRNA region for filamentous fungi. The results showed the presence of 13 species of bacteria, 5 of yeasts and 17 of filamentous fungi; the species most frequently isolated were Bacillus amyloliquefaciens, Zygosaccharomyces mellis and Aspergillus niger for the three microbial groups, respectively. The highest microbial diversity was found in multifloral honeys. No correlation among the microbial species and the botanical/geographical origin was found, but some strains were highly adapted to these matrices since they were found in several samples of different origin., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2014

5. Filamentous fungi transported by birds during migration across the mediterranean sea.

Author

Alfonzo A, Francesca N, Sannino C, Settanni L, and Moschetti G

Subjects

Animals, Humans, Mediterranean Region, Mediterranean Sea, Molecular Typing, Mycological Typing Techniques, Animal Migration, Birds microbiology, Fungi classification, Fungi genetics, Mycoses transmission

Abstract

The potential for the transport and diffusion of some pathogenic microorganisms by migratory birds is of concern. Migratory birds may be involved in the dispersal of microorganisms and may play a role of mechanical and biological vectors. The efficiency of dispersal of pathogenic microorganisms depends on a wide range of biotic and abiotic factors that influence the survival or disappearance of a given agent in a geographical area. In the present study, 349 migratory birds were captured in four sites (Mazara del Vallo, Lampedusa, Ustica and Linosa), representing the main stop-over points during spring and autumnal migration, and analyzed for the presence of filamentous fungi. A total of 2,337 filamentous fungi were isolated from 216 birds and identified by a combined phenotypic-genotypic approach to species level. Twelve species were identified in the study, with Cladosporium cladosporioides, Alternaria alternata, and Aspergillus niger as the most abundant. The transport of these fungal species isolated in this study is of considerable importance because some of these species can create dangers to human health.

Published

2013

6. Impact of PVC microplastics on soil chemical and microbiological parameters.

Author

Barili, Sofia, Bernetti, Alessandro, Sannino, Ciro, Montegiove, Nicolò, Calzoni, Eleonora, Cesaretti, Alessio, Pinchuk, Irina, Pezzolla, Daniela, Turchetti, Benedetta, Buzzini, Pietro, Emiliani, Carla, and Gigliotti, Giovanni

Subjects

*MICROPLASTICS, *CARBON emissions, *WASTE management, *SOIL structure, *PHYLA (Genus), *VESICULAR-arbuscular mycorrhizas, *SOILS

Abstract

Microplastics (MPs) are emerging pollutants whose occurrence is a global problem in natural ecosystems including soil. Among MPs, polyvinyl chloride (PVC) is a well-known polymer with remarkable resistance to degradation, and because its recalcitrant nature serious environmental concerns are created during manufacturing and waste disposal. The effect of PVC (0.021% w/w) on chemical and microbial parameters of an agricultural soil was tested by a microcosm experiment at different incubation times (from 3 to 360 days). Among chemical parameters, soil CO 2 emission, fluorescein diacetate (FDA) activity, total organic C (TOC), total N, water extractable organic C (WEOC), water extractable N (WEN) and SUVA 254 were considered, while the structure of soil microbial communities was studied at different taxonomic levels (phylum and genus) by sequencing bacterial 16S and fungal ITS2 rDNA (Illumina MiSeq). Although some fluctuations were found, chemical and microbiological parameters exhibited some significant trends. Significant (p < 0.05) variations of soil CO 2 emission, FDA hydrolysis, TOC, WEOC and WEN were found in PVC-treated soils over different incubation times. Considering the structure of soil microbial communities, the presence of PVC significantly (p < 0.05) affected the abundances of specific bacterial and fungal taxa: Candidatus_Saccharibacteria, Proteobacteria, Actinobacteria, Acidobacteria and Bacteroides among bacteria, and Basidiomycota, Mortierellomycota and Ascomycota among fungi. After one year of experiment, a reduction of the number and the dimensions of PVC was detected supposing a possible role of microorganisms on PVC degradation. The abundance of both bacterial and fungal taxa at phylum and genus level was also affected by PVC, suggesting that the impact of this polymer could be taxa-dependent. [Display omitted] • The impact of PVC was tested on soil chemical and microbiological parameters. • A reduction of PVC particles was observed after one year. • Soil chemical parameters and enzyme activity were significantly affected by PVC. • PVC did selectively affect the abundances of soil bacterial and fungal taxa. [ABSTRACT FROM AUTHOR]

Published

2023