The Influence of Fungicide Treatments on Mycobiota of Grapes and Its Evolution During Fermentation Evaluated by Metagenomic and Culture-Dependent Methods

The Influence of Fungicide Treatments on Mycobiota of Grapes and Its Evolution During Fermentation Evaluated by Metagenomic and Culture-Dependent Methods

The present study evaluated the impact of organic and conventional fungicide treatments compared with untreated samples (no fungicides were used) on the grape berry yeast community of the Montepulciano variety. The yeast dynamics during the spontaneous fermentation using culture-dependent and -indep...

Full description

Bibliographic Details
Main Authors: Alice Agarbati, Laura Canonico, Leonardo Mancabelli, Christian Milani, Marco Ventura, Maurizio Ciani, Francesca Comitini
Format: Article
Language:English
Published: MDPI AG 2019-04-01
Series:Microorganisms
Subjects:
mycobiota of grapes
organic treatment
conventional treatment
Next Generation Sequencing
culture-dependent method
Online Access:https://www.mdpi.com/2076-2607/7/5/114
id doaj-4a3e3b30e2d847febfb618f8aa88221f
record_format Article
spelling doaj-4a3e3b30e2d847febfb618f8aa88221f2020-11-24T21:44:33ZengMDPI AGMicroorganisms2076-26072019-04-017511410.3390/microorganisms7050114microorganisms7050114The Influence of Fungicide Treatments on Mycobiota of Grapes and Its Evolution During Fermentation Evaluated by Metagenomic and Culture-Dependent MethodsAlice Agarbati0Laura Canonico1Leonardo Mancabelli2Christian Milani3Marco Ventura4Maurizio Ciani5Francesca Comitini6Department of Life and Environmental Sciences, Polytechnic University of Marche, Via Brecce Bianche, 60121 Ancona, ItalyDepartment of Life and Environmental Sciences, Polytechnic University of Marche, Via Brecce Bianche, 60121 Ancona, ItalyLaboratory of Probiogenomics, Department of Genetics, Biology of Microorganisms, Anthropology and Evolution, University of Parma, 43100 Parma, ItalyLaboratory of Probiogenomics, Department of Genetics, Biology of Microorganisms, Anthropology and Evolution, University of Parma, 43100 Parma, ItalyLaboratory of Probiogenomics, Department of Genetics, Biology of Microorganisms, Anthropology and Evolution, University of Parma, 43100 Parma, ItalyDepartment of Life and Environmental Sciences, Polytechnic University of Marche, Via Brecce Bianche, 60121 Ancona, ItalyDepartment of Life and Environmental Sciences, Polytechnic University of Marche, Via Brecce Bianche, 60121 Ancona, ItalyThe present study evaluated the impact of organic and conventional fungicide treatments compared with untreated samples (no fungicides were used) on the grape berry yeast community of the Montepulciano variety. The yeast dynamics during the spontaneous fermentation using culture-dependent and -independent methods was also evaluated. Results showed a reduction of yeast biodiversity by conventional treatments determining a negative influence on fermenting yeasts in favor of oxidative yeasts such as <i>Aerobasidium pullulans</i>. <i>Starmerella bacillaris</i> was significantly more present in organic samples (detected by next generation sequencing (NGS)), while <i>Hanseniaspopa uvarum</i> was significantly less present in untreated samples (detected by the culture-dependent method). The fermenting yeasts, developed during the spontaneous fermentation, were differently present depending on the fungicide treatments used. Culture-dependent and -independent methods exhibited the same most abundant yeast species during the spontaneous fermentation but a different relative abundance. Differently, the NGS method was able to detect a greater biodiversity (lower abundant species) in comparison with the culture-dependent method. In this regard, the methodologies used gave a different picture of yeast dynamics during the fermentation process. The results indicated that the fungal treatments can influence the yeast community of grapes leading must fermentation and the final composition of wine.https://www.mdpi.com/2076-2607/7/5/114mycobiota of grapesorganic treatmentconventional treatmentNext Generation Sequencingculture-dependent method
collection DOAJ
language English
format Article
sources DOAJ
author Alice Agarbati
Laura Canonico
Leonardo Mancabelli
Christian Milani
Marco Ventura
Maurizio Ciani
Francesca Comitini
spellingShingle Alice Agarbati
Laura Canonico
Leonardo Mancabelli
Christian Milani
Marco Ventura
Maurizio Ciani
Francesca Comitini
The Influence of Fungicide Treatments on Mycobiota of Grapes and Its Evolution During Fermentation Evaluated by Metagenomic and Culture-Dependent Methods
Microorganisms
mycobiota of grapes
organic treatment
conventional treatment
Next Generation Sequencing
culture-dependent method
author_facet Alice Agarbati
Laura Canonico
Leonardo Mancabelli
Christian Milani
Marco Ventura
Maurizio Ciani
Francesca Comitini
author_sort Alice Agarbati
title The Influence of Fungicide Treatments on Mycobiota of Grapes and Its Evolution During Fermentation Evaluated by Metagenomic and Culture-Dependent Methods
title_short The Influence of Fungicide Treatments on Mycobiota of Grapes and Its Evolution During Fermentation Evaluated by Metagenomic and Culture-Dependent Methods
title_full The Influence of Fungicide Treatments on Mycobiota of Grapes and Its Evolution During Fermentation Evaluated by Metagenomic and Culture-Dependent Methods
title_fullStr The Influence of Fungicide Treatments on Mycobiota of Grapes and Its Evolution During Fermentation Evaluated by Metagenomic and Culture-Dependent Methods
title_full_unstemmed The Influence of Fungicide Treatments on Mycobiota of Grapes and Its Evolution During Fermentation Evaluated by Metagenomic and Culture-Dependent Methods
title_sort influence of fungicide treatments on mycobiota of grapes and its evolution during fermentation evaluated by metagenomic and culture-dependent methods
publisher MDPI AG
series Microorganisms
issn 2076-2607
publishDate 2019-04-01
description The present study evaluated the impact of organic and conventional fungicide treatments compared with untreated samples (no fungicides were used) on the grape berry yeast community of the Montepulciano variety. The yeast dynamics during the spontaneous fermentation using culture-dependent and -independent methods was also evaluated. Results showed a reduction of yeast biodiversity by conventional treatments determining a negative influence on fermenting yeasts in favor of oxidative yeasts such as <i>Aerobasidium pullulans</i>. <i>Starmerella bacillaris</i> was significantly more present in organic samples (detected by next generation sequencing (NGS)), while <i>Hanseniaspopa uvarum</i> was significantly less present in untreated samples (detected by the culture-dependent method). The fermenting yeasts, developed during the spontaneous fermentation, were differently present depending on the fungicide treatments used. Culture-dependent and -independent methods exhibited the same most abundant yeast species during the spontaneous fermentation but a different relative abundance. Differently, the NGS method was able to detect a greater biodiversity (lower abundant species) in comparison with the culture-dependent method. In this regard, the methodologies used gave a different picture of yeast dynamics during the fermentation process. The results indicated that the fungal treatments can influence the yeast community of grapes leading must fermentation and the final composition of wine.
topic mycobiota of grapes
organic treatment
conventional treatment
Next Generation Sequencing
culture-dependent method
url https://www.mdpi.com/2076-2607/7/5/114
work_keys_str_mv AT aliceagarbati theinfluenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT lauracanonico theinfluenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT leonardomancabelli theinfluenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT christianmilani theinfluenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT marcoventura theinfluenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT mauriziociani theinfluenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT francescacomitini theinfluenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT aliceagarbati influenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT lauracanonico influenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT leonardomancabelli influenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT christianmilani influenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT marcoventura influenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT mauriziociani influenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
AT francescacomitini influenceoffungicidetreatmentsonmycobiotaofgrapesanditsevolutionduringfermentationevaluatedbymetagenomicandculturedependentmethods
_version_ 1725909462389096448

Similar Items