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Microbiolization of cowpea seeds with commercial strains of Trichoderma asperellum and T. harzianum 1
ABSTRACT Seed microbiolization has been increasingly contributed to researches due to its beneficial action in the initial growth of seedlings and control of phytopathogens. [...]the aim of this study was to evaluate the initial growth and control of fungi associated with cowpea seeds by the seed mi...
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| Published in: | Revista Ceres 2022-09, Vol.69 (5), p.613-618 |
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| container_end_page | 618 |
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| container_title | Revista Ceres |
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| creator | Cruz, José Manoel Ferreira de Lima de Farias, Otília Ricardo de Moura, Isadora Nayara Bandeira Medeiros Linné, Jéssica Alina da Silva, Luiz Danial Rodriguas do Nascimanto, Luciana Cordairo |
| description | ABSTRACT Seed microbiolization has been increasingly contributed to researches due to its beneficial action in the initial growth of seedlings and control of phytopathogens. [...]the aim of this study was to evaluate the initial growth and control of fungi associated with cowpea seeds by the seed microbiolization with commercial strains of Trichodarma spp. According to data from the Brazilian National Supply Company (Conab), cowpea production was estimated at 637.7 thousand metric tons of grains in 2018/2019 (Conab, 2019). [...]the control of microorganisms associated with seeds is an essential measure to guarantee high productivity, which seed microbiolization has become an important study for researchers (Cruz at al., 2020; De Sá at al., 2019; Farias at al., 2019; Pereira at al., 2019), once it has reached out prominence in relation to synthetic products to be an alternative in reducing environmental risks caused by the excessive use of pesticides, thus aiming the use of microorganisms that are able to promote growth and direct action in the control of phytopathogens associated with seeds. (2018) modes of action of Trichoderma spp. that inhibit the growth of fungi may be several, such as mycoparasitism, which involves direct activity on phytopathogenic fungi, the antibiosis, antagonistic interaction involving low molecular weight diffusible secondary metabolites or antibiotics harmful to fungal phytopathogens; and the competition for substrate, which is the most important factor for the establishment of fungi in the search for space and nutrients. |
| doi_str_mv | 10.1590/0034-737X202269050015 |
| format | article |
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[...]the aim of this study was to evaluate the initial growth and control of fungi associated with cowpea seeds by the seed microbiolization with commercial strains of Trichodarma spp. According to data from the Brazilian National Supply Company (Conab), cowpea production was estimated at 637.7 thousand metric tons of grains in 2018/2019 (Conab, 2019). [...]the control of microorganisms associated with seeds is an essential measure to guarantee high productivity, which seed microbiolization has become an important study for researchers (Cruz at al., 2020; De Sá at al., 2019; Farias at al., 2019; Pereira at al., 2019), once it has reached out prominence in relation to synthetic products to be an alternative in reducing environmental risks caused by the excessive use of pesticides, thus aiming the use of microorganisms that are able to promote growth and direct action in the control of phytopathogens associated with seeds. (2018) modes of action of Trichoderma spp. that inhibit the growth of fungi may be several, such as mycoparasitism, which involves direct activity on phytopathogenic fungi, the antibiosis, antagonistic interaction involving low molecular weight diffusible secondary metabolites or antibiotics harmful to fungal phytopathogens; and the competition for substrate, which is the most important factor for the establishment of fungi in the search for space and nutrients.</description><identifier>ISSN: 0034-737X</identifier><identifier>EISSN: 2177-3491</identifier><identifier>DOI: 10.1590/0034-737X202269050015</identifier><language>eng</language><publisher>Vicosa: Universidade Federal de Viçosa-UFV, Revista Ceres</publisher><subject>Agricultural production ; Antibiosis ; Antibiotics ; Biological products ; Cowpeas ; Environmental risk ; Fungi ; Fungicides ; Laboratories ; Low molecular weights ; Metabolites ; Microorganisms ; Molecular weight ; Nutrients ; Pathogens ; Pesticides ; Phytopathogenic fungi ; Productivity ; Secondary metabolites ; Seedlings ; Seeds ; Strains (organisms) ; Substrates ; Variance analysis ; Vigna unguiculata</subject><ispartof>Revista Ceres, 2022-09, Vol.69 (5), p.613-618</ispartof><rights>2022. 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[...]the aim of this study was to evaluate the initial growth and control of fungi associated with cowpea seeds by the seed microbiolization with commercial strains of Trichodarma spp. According to data from the Brazilian National Supply Company (Conab), cowpea production was estimated at 637.7 thousand metric tons of grains in 2018/2019 (Conab, 2019). [...]the control of microorganisms associated with seeds is an essential measure to guarantee high productivity, which seed microbiolization has become an important study for researchers (Cruz at al., 2020; De Sá at al., 2019; Farias at al., 2019; Pereira at al., 2019), once it has reached out prominence in relation to synthetic products to be an alternative in reducing environmental risks caused by the excessive use of pesticides, thus aiming the use of microorganisms that are able to promote growth and direct action in the control of phytopathogens associated with seeds. 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| ispartof | Revista Ceres, 2022-09, Vol.69 (5), p.613-618 |
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| subjects | Agricultural production Antibiosis Antibiotics Biological products Cowpeas Environmental risk Fungi Fungicides Laboratories Low molecular weights Metabolites Microorganisms Molecular weight Nutrients Pathogens Pesticides Phytopathogenic fungi Productivity Secondary metabolites Seedlings Seeds Strains (organisms) Substrates Variance analysis Vigna unguiculata |
| title | Microbiolization of cowpea seeds with commercial strains of Trichoderma asperellum and T. harzianum 1 |
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