Complexity and Dynamics of the Winemaking Bacterial Communities in Berries, Musts, and Wines from Apulian Grape Cultivars through Time and Space.

Marinella Marzano,Gabriel Valiente,Apollonia Tullo,Gaetano Scioscia,Monica Santamaria,Giuseppina Mulè,Marianna Intranuovo,Bruno Fosso,Francesco Grieco,Giuseppe Cozzi,Elisabetta Sbisà,Caterina Manzari,Graziano Pesole,Gabriel Moreno-Hagelsieb

doi:10.1371/journal.pone.0157383

Abstract

Currently, there is very little information available regarding the microbiome associated with the wine production chain. Here, we used an amplicon sequencing approach based on high-throughput sequencing (HTS) to obtain a comprehensive assessment of the bacterial community associated with the production of three Apulian red wines, from grape to final product. The relationships among grape variety, the microbial community, and fermentation was investigated. Moreover, the winery microbiota was evaluated compared to the autochthonous species in vineyards that persist until the end of the winemaking process. The analysis highlighted the remarkable dynamics within the microbial communities during fermentation. A common microbial core shared among the examined wine varieties was observed, and the unique taxonomic signature of each wine appellation was revealed. New species belonging to the genus Halomonas were also reported. This study demonstrates the potential of this metagenomic approach, supported by optimized protocols, for identifying the biodiversity of the wine supply chain. The developed experimental pipeline offers new prospects for other research fields in which a comprehensive view of microbial community complexity and dynamics is desirable.

Highlights

In recent years, several investigations have been conducted to characterize the microbiome associated with different ecosystems, such as natural niches, agricultural and industrial environments, and plant and animal hosts
The gm samples were collected at five time points during winemaking and subjected to DNA extraction
After adapter trimming and removing pairs containing reads shorter than 50 bp, the PE reads were analysed with Bioinformatic analysis of Metagenomic AmpliconS (BioMaS) [30] (S1 Table)

Summary

Objectives

The goal of this study was to describe the taxonomic complexity and evolution of the bacterial community throughout the production of typical Apulian wines, in particular, Cabernet, Negramaro, and Primitivo, by investigating the bacterial composition from grape to the end of MLF, a fermentative process that consistently shapes the organoleptic properties of the wine and can adversely affect quality due to the production of undesirable metabolites [21, 22]

Methods

Results

Conclusion