Yeasts prevent ochratoxin A contamination in coffee by displacing Aspergillus carbonarius

•Biocontrol is an alternative in coffee postharvest for sustainable agriculture.•Use of pesticides has been replaced by microbial biocontrol in field conditions.•Yeasts were effective in controlling fungi and mycotoxin production in coffee.•Yeasts applied on coffee fruit had the revealed biocontrol...

Full description

Saved in:
Bibliographic Details
Published in:Biological control 2021-04, Vol.155, p.104512, Article 104512
Main Authors: Lino de Souza, Mariana, Silva Ribeiro, Luciana, Gabriela da Cruz Pedrozo Miguel, Maria, Roberto Batista, Luís, Freitas Schwan, Rosane, Henrique Medeiros, Flávio, Ferreira Silva, Cristina
Format: Article
Language:English
Subjects:
Biological control
Coffee arabica
Fungi
Interaction
Post-harvest control
Volatile organic compounds
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Biocontrol is an alternative in coffee postharvest for sustainable agriculture.•Use of pesticides has been replaced by microbial biocontrol in field conditions.•Yeasts were effective in controlling fungi and mycotoxin production in coffee.•Yeasts applied on coffee fruit had the revealed biocontrol mechanism.•Yeasts were efficiency and persistence in the natural coffee production system. To cope with post-harvest diseases, chemical fungicide has not assured safe food, both due to the lack of residual protection and the increasing demand for pesticide-free agricultural products. Alternative disease control products, therefore, are essential to deal with post-harvest diseases. One alternative is using yeasts as biocontrol agents. The biocontrol mechanisms of yeasts belonging to the genera Candida, Meyerozyma, Pichia, Wickerhamomyces, Rhodotorula and Saccharomyces in vitro and in vivo pathways were investigated. For toxin killer assay, 11 of the 32 strains had the phenotype. Eight of the tested strains produced volatile organic compounds (VOCs) inhibitory to Aspergillus ochraceus CCDCA 10612 and seven to A. carbonarius CCDCA 10608. Those belonging to Saccharomyces spp produced VOCs that hampered spore production and mycelial growth of those plant pathogens. The strains of S. cerevisiae CCMA (0159; 1299; 1302) were the most efficient to inhibit ochratoxigenic fungi in vitro. S. cerevisiae strains showed similar efficiency in in vivo biocontrol assays, including ochratoxin A (OTA) reduction in beans ranging from 0.04 to 10.11 μg/Kg. The formation of biofilms by S. cerevisiae CCMA 0159 and 1302 in surface of coffee beans was observed. The population of A. carbonarius (0.5 log spores/g) was reduced in the presence of S. cerevisiae CCMA 1302 at end of the drying period. Therefore, S. cerevisiae CCMA 1302 is a candidate for biological control agent over ocratoxigenic fungi in coffee fruits.
ISSN:1049-9644
1090-2112
DOI:10.1016/j.biocontrol.2020.104512