In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeasts
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2020 |
| Outros Autores: | , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Semina. Ciências Agrárias (Online) |
| Texto Completo: | https://ojs.uel.br/revistas/uel/index.php/semagrarias/article/view/37525 |
Resumo: | Gray mold in grapes (caused by Botrytis cinerea) and blue mold in citrus (caused by Penicillium italicum) are post-harvest diseases that cause major losses in these crops. The control of these diseases is based on the use of synthetic chemical fungicides. The increase in regulatory policies and demand to reduce the application of pesticides, due to harmful effects on the environment and humans, have led to the search for more ecofriendly alternatives, such as biological control agents. Thus, the present work aims to verify the antagonistic potential of four yeast strains, Pichia caribbica (CCMA 0759), Hanseniaspora opuntiae (CCMA 0760), Pichia manshurica (CCMA 0762), and Lachancea thermotolerans (CCMA 0763), against of B cinerea and P. italicum. To assess the antagonism of volatile compounds, Petri plates with two divisions containing potato-dextrose-agar (PDA) were used by placing a fungal mycelial disc and yeast suspension (3.0 × 106 cells mL-1) on opposite sides of the plate. The colony diameter and mycelial growth rate index of the fungi were evaluated via comparisons with the control plate without yeast. For the evaluation of the antagonism of diffusible substances in the medium, yeasts were striated 3 cm from the center of the plates containing PDA. After 48 h, a mycelial disc of each phytopathogen was placed in the center of the plates. The colony growth, inhibition halo, and mycelial growth rate index were evaluated via comparisons with the control plate. All yeast strains showed an antagonistic effect on the mycelial growth of B. cinerea in both tests. In the volatile compounds test, H. opuntiae, L. thermotolerans, P. caribbica, and P. manshurica inhibited mycelial growth by approximately 82%, 75%, 72%, and 50%, respectively. In the antagonism test of the diffusible substances in the medium, P. caribbica and P. manshurica inhibited mycelial growth by 58% and 33%, respectively. However, these yeast strains did not show an antagonistic effect against P. italicum. Thus, all isolates demonstrated potential to be tested as biocontrol agents of gray mold in post-harvest grape fruits. |
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In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeastsControle in vitro de Botrytis cinerea e Penicillium italicum por leveduras antagonistasAntagonismBiological controlBlue moldGray moldVolatile compounds.AntagonismoBolor azulCompostos voláteisControle BiológicoMofo cinzento.Gray mold in grapes (caused by Botrytis cinerea) and blue mold in citrus (caused by Penicillium italicum) are post-harvest diseases that cause major losses in these crops. The control of these diseases is based on the use of synthetic chemical fungicides. The increase in regulatory policies and demand to reduce the application of pesticides, due to harmful effects on the environment and humans, have led to the search for more ecofriendly alternatives, such as biological control agents. Thus, the present work aims to verify the antagonistic potential of four yeast strains, Pichia caribbica (CCMA 0759), Hanseniaspora opuntiae (CCMA 0760), Pichia manshurica (CCMA 0762), and Lachancea thermotolerans (CCMA 0763), against of B cinerea and P. italicum. To assess the antagonism of volatile compounds, Petri plates with two divisions containing potato-dextrose-agar (PDA) were used by placing a fungal mycelial disc and yeast suspension (3.0 × 106 cells mL-1) on opposite sides of the plate. The colony diameter and mycelial growth rate index of the fungi were evaluated via comparisons with the control plate without yeast. For the evaluation of the antagonism of diffusible substances in the medium, yeasts were striated 3 cm from the center of the plates containing PDA. After 48 h, a mycelial disc of each phytopathogen was placed in the center of the plates. The colony growth, inhibition halo, and mycelial growth rate index were evaluated via comparisons with the control plate. All yeast strains showed an antagonistic effect on the mycelial growth of B. cinerea in both tests. In the volatile compounds test, H. opuntiae, L. thermotolerans, P. caribbica, and P. manshurica inhibited mycelial growth by approximately 82%, 75%, 72%, and 50%, respectively. In the antagonism test of the diffusible substances in the medium, P. caribbica and P. manshurica inhibited mycelial growth by 58% and 33%, respectively. However, these yeast strains did not show an antagonistic effect against P. italicum. Thus, all isolates demonstrated potential to be tested as biocontrol agents of gray mold in post-harvest grape fruits.O mofo cinzento na uva (causada por Botrytis cinerea) e o bolor azul nos citros (causada por Penicillium italicum) são doenças de pós-colheita que causam perdas importantes nestas culturas. O controle destas doenças é baseado na utilização de fungicidas químicos sintéticos. O aumento das políticas regulatórias e a demanda para reduzir a aplicação de agrotóxicos, devido a efeitos prejudiciais ao meio ambiente e aos seres humanos, levam à procura de alternativas mais ecológicas como o uso de agentes de controle biológico. Desta forma, o presente trabalho teve por finalidade analisar o potencial antagônico de quatro cepas de leveduras, Pichia caribbica (CCMA 0759), Hanseniaspora opuntiae (CCMA 0760), Pichia manshurica (CCMA 0762) e Lachancea thermotolerans (CCMA 0763) no controle de B. cinerea e P. italicum. Para avaliar o antagonismo por compostos voláteis, foram utilizadas placas bipartidas contendo meio batata-dextrose-ágar (BDA) onde foram colocados um disco micelial dos fungos e uma suspensão de 3,0x106 cél. mL-1 das leveduras em lados opostos da placa. Avaliou-se o diâmetro da colônia e índice de velocidade de crescimento micelial dos fungos, comparando-a com a placa controle sem a levedura. Para a avaliação do antagonismo de substâncias difusíveis no meio, as leveduras foram estriadas a 3 cm do centro de placas contendo meio BDA e após 48 h colocou-se um disco micelial de cada fitopatógeno no centro das mesmas. Avaliou-se o crescimento da colônia, a formação do halo de inibição e o índice de velocidade de crescimento micelial comparando-os com a placa controle. Todos os isolados apresentaram efeito antagônico no crescimento micelial de B. cinerea nos dois testes realizados. H. opuntiae, L. thermotolerans, P. caribbica e P. manshurica inibiram o crescimento micelial em aproximadamente 82%, 75%, 72% e 50%, respectivamente, no teste de compostos voláteis. P. caribbica e P. manshurica inibiram o crescimento micelial em 58% e 33%, respectivamente, no teste de antagonismo por substâncias difusíveis no meio. Contudo, nos testes com P. italicum as leveduras não apresentaram efeito antagônico. Deste modo, todas as cepas utilizadas apresentam potencial para ser testados no controle de mofo cinzento em uva.UEL2020-08-07info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionAvaliado por paresComunicação Científicaapplication/pdfhttps://ojs.uel.br/revistas/uel/index.php/semagrarias/article/view/3752510.5433/1679-0359.2020v41n5supl1p2411Semina: Ciências Agrárias; Vol. 41 No. 5supl1 (2020); 2411-2418Semina: Ciências Agrárias; v. 41 n. 5supl1 (2020); 2411-24181679-03591676-546Xreponame:Semina. Ciências Agrárias (Online)instname:Universidade Estadual de Londrina (UEL)instacron:UELenghttps://ojs.uel.br/revistas/uel/index.php/semagrarias/article/view/37525/27815Copyright (c) 2020 Semina: Ciências Agráriashttp://creativecommons.org/licenses/by-nc/4.0info:eu-repo/semantics/openAccessThomé, Renata MoriOliveira, Luiz Vitor Barbosa deSumida, Ciro HidekiBalbi-Peña, Maria Isabel2022-10-07T14:21:39Zoai:ojs.pkp.sfu.ca:article/37525Revistahttp://www.uel.br/revistas/uel/index.php/semagrariasPUBhttps://ojs.uel.br/revistas/uel/index.php/semagrarias/oaisemina.agrarias@uel.br1679-03591676-546Xopendoar:2022-10-07T14:21:39Semina. Ciências Agrárias (Online) - Universidade Estadual de Londrina (UEL)false |
| dc.title.none.fl_str_mv |
In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeasts Controle in vitro de Botrytis cinerea e Penicillium italicum por leveduras antagonistas |
| title |
In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeasts |
| spellingShingle |
In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeasts Thomé, Renata Mori Antagonism Biological control Blue mold Gray mold Volatile compounds. Antagonismo Bolor azul Compostos voláteis Controle Biológico Mofo cinzento. |
| title_short |
In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeasts |
| title_full |
In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeasts |
| title_fullStr |
In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeasts |
| title_full_unstemmed |
In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeasts |
| title_sort |
In vitro control of Botrytis cinerea and Penicillium italicum by antagonistic yeasts |
| author |
Thomé, Renata Mori |
| author_facet |
Thomé, Renata Mori Oliveira, Luiz Vitor Barbosa de Sumida, Ciro Hideki Balbi-Peña, Maria Isabel |
| author_role |
author |
| author2 |
Oliveira, Luiz Vitor Barbosa de Sumida, Ciro Hideki Balbi-Peña, Maria Isabel |
| author2_role |
author author author |
| dc.contributor.author.fl_str_mv |
Thomé, Renata Mori Oliveira, Luiz Vitor Barbosa de Sumida, Ciro Hideki Balbi-Peña, Maria Isabel |
| dc.subject.por.fl_str_mv |
Antagonism Biological control Blue mold Gray mold Volatile compounds. Antagonismo Bolor azul Compostos voláteis Controle Biológico Mofo cinzento. |
| topic |
Antagonism Biological control Blue mold Gray mold Volatile compounds. Antagonismo Bolor azul Compostos voláteis Controle Biológico Mofo cinzento. |
| description |
Gray mold in grapes (caused by Botrytis cinerea) and blue mold in citrus (caused by Penicillium italicum) are post-harvest diseases that cause major losses in these crops. The control of these diseases is based on the use of synthetic chemical fungicides. The increase in regulatory policies and demand to reduce the application of pesticides, due to harmful effects on the environment and humans, have led to the search for more ecofriendly alternatives, such as biological control agents. Thus, the present work aims to verify the antagonistic potential of four yeast strains, Pichia caribbica (CCMA 0759), Hanseniaspora opuntiae (CCMA 0760), Pichia manshurica (CCMA 0762), and Lachancea thermotolerans (CCMA 0763), against of B cinerea and P. italicum. To assess the antagonism of volatile compounds, Petri plates with two divisions containing potato-dextrose-agar (PDA) were used by placing a fungal mycelial disc and yeast suspension (3.0 × 106 cells mL-1) on opposite sides of the plate. The colony diameter and mycelial growth rate index of the fungi were evaluated via comparisons with the control plate without yeast. For the evaluation of the antagonism of diffusible substances in the medium, yeasts were striated 3 cm from the center of the plates containing PDA. After 48 h, a mycelial disc of each phytopathogen was placed in the center of the plates. The colony growth, inhibition halo, and mycelial growth rate index were evaluated via comparisons with the control plate. All yeast strains showed an antagonistic effect on the mycelial growth of B. cinerea in both tests. In the volatile compounds test, H. opuntiae, L. thermotolerans, P. caribbica, and P. manshurica inhibited mycelial growth by approximately 82%, 75%, 72%, and 50%, respectively. In the antagonism test of the diffusible substances in the medium, P. caribbica and P. manshurica inhibited mycelial growth by 58% and 33%, respectively. However, these yeast strains did not show an antagonistic effect against P. italicum. Thus, all isolates demonstrated potential to be tested as biocontrol agents of gray mold in post-harvest grape fruits. |
| publishDate |
2020 |
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2020-08-07 |
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info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Avaliado por pares Comunicação Científica |
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article |
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publishedVersion |
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https://ojs.uel.br/revistas/uel/index.php/semagrarias/article/view/37525 10.5433/1679-0359.2020v41n5supl1p2411 |
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https://ojs.uel.br/revistas/uel/index.php/semagrarias/article/view/37525 |
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10.5433/1679-0359.2020v41n5supl1p2411 |
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eng |
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eng |
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https://ojs.uel.br/revistas/uel/index.php/semagrarias/article/view/37525/27815 |
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Copyright (c) 2020 Semina: Ciências Agrárias http://creativecommons.org/licenses/by-nc/4.0 info:eu-repo/semantics/openAccess |
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Copyright (c) 2020 Semina: Ciências Agrárias http://creativecommons.org/licenses/by-nc/4.0 |
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openAccess |
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application/pdf |
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UEL |
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UEL |
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Semina: Ciências Agrárias; Vol. 41 No. 5supl1 (2020); 2411-2418 Semina: Ciências Agrárias; v. 41 n. 5supl1 (2020); 2411-2418 1679-0359 1676-546X reponame:Semina. Ciências Agrárias (Online) instname:Universidade Estadual de Londrina (UEL) instacron:UEL |
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Universidade Estadual de Londrina (UEL) |
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Semina. Ciências Agrárias (Online) |
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Semina. Ciências Agrárias (Online) |
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Semina. Ciências Agrárias (Online) - Universidade Estadual de Londrina (UEL) |
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