D. Bertoldi scite author profile

BackgroundDespite their importance as a reservoir of biodiversity, the factors shaping soil microbial communities and the extent by which these are impacted by cultivation are still poorly understood. Using 16S rRNA gene and ITS sequencing, we characterized the soil microbiota of vineyards and of neighboring permanent grassland soils in the Italian province of Trentino, and correlated their structure and composition to location, chemical properties of the soil, and land management.ResultsBacterial communities had a core of conserved taxa accounting for more than 60% of the reads of each sample, that was influenced both by geography and cultivation. The core fungal microbiota was much smaller and dominated by geography alone. Cultivation altered the structure and composition of the soil microbiota both for bacteria and fungi, with site-specific effects on their diversity. The diversity of bacterial and fungal communities was generally inversely correlated across locations. We identified several taxa that were impacted by the chemical properties and texture of the soil.ConclusionsOur results highlight the different responses of bacterial and fungal communities to environmental factors and highlight the need to characterize both components of the soil microbiota to fully understand the factors that drive their variability.

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Isotopic and Elemental Data for Tracing the Origin of European Olive Oils

Camin

Larcher

Nicolini

et al. 2009

J. Agric. Food Chem.

140

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H, C, and O stable isotope ratios and the elemental profile of 267 olive oils and 314 surface waters collected from 8 European sites are presented and discussed. The aim of the study was to investigate if olive oils produced in areas with different climatic and geological characteristics could be discriminated on the basis of isotopic and elemental data. The stable isotope ratios of H, C, and O of olive oils and the ratios of H and O of the relevant surface waters correlated to the climatic (mainly temperature) and geographical (mainly latitude and distance from the coast) characteristics of the provenance sites. It was possible to characterize the geological origin of the olive oils by using the content of 14 elements (Mg, K, Ca, V, Mn, Zn, Rb, Sr, Cs, La, Ce, Sm, Eu, U). By combining the 3 isotopic ratios with the 14 elements and applying a multivariate discriminant analysis, a good discrimination between olive oils from 8 European sites was achieved, with 95% of the samples correctly classified into the production site.

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Multielemental fingerprinting and geographic traceability of Theobroma cacao beans and cocoa products

et al. 2016

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H, C, N and S stable isotopes and mineral profiles to objectively guarantee the authenticity of grated hard cheeses

Camin

Wehrens

Bertoldi

et al. 2012

Analytica Chimica Acta

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D. Bertoldi

Characterisation of authentic Italian extra-virgin olive oils by stable isotope ratios of C, O and H and mineral composition

Microbiome of vineyard soils is shaped by geography and management

Isotopic and Elemental Data for Tracing the Origin of European Olive Oils

Multielemental fingerprinting and geographic traceability of Theobroma cacao beans and cocoa products

H, C, N and S stable isotopes and mineral profiles to objectively guarantee the authenticity of grated hard cheeses

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