![](data:image/png;base64,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)
Microbiolização de sementes de soja com Trichoderma harzianum: qualidade fisiológica e sanitária
Nativa, Sinop, v. 11, n. 2, p. 220-225, 2023.
224
O gênero Trichoderma foi descrito como um potencial
agente de biocontrole para fitopatógenos em agricultura,
como o gênero Colletotrichum (KUCHLAN; ANSARI, 2019).
Isso age por meio de mecanismos de competição por espaço
e nutrientes, antibiose, parasitismo e indução dos
mecanismos de defesa da planta contra patógenos
(CONTRERAS-CORNEJO et al., 2020; SOOD et al., 2020;
VINAL; SIVASITHAMPARAM, 2020).
O uso de T. harzianum foi eficiente na qualidade
fisiológica de sementes de soja quando utilizada a dose de 1
ml. 500-1 g de sementes, havendo um aumento de 5% em
relação a testemunha (SANTANA; SEGATO, 2020).
O fungo T. harzianum está entre os agentes de biocontrole
mais conhecidos e estudados na agricultura, havendo
relatados como agentes biológicos inicialmente na década de
1930 (GHAZANFAR et al., 2018). Esse fungo pode ser
utilizado como promotores do crescimento de plantas,
indutores de resistência contra doenças e também utilizados
no controle de fitopatógenos (MACHADO et al., 2012).
As sementes duras podem ser descritas como aquelas que
permanecem sem absorver água por um período mais longo
que o normal e se apresentam no final do teste com aspecto
de sementes recém-colocadas no substrato. Essa condição é
relativamente comum em determinadas espécies,
principalmente em leguminosas (CARVALHO;
NAKAGAWA, 2012).
Kraemer (2022), avaliando o potencial de isolados de
Trichoderma spp. no biocontrole de doenças da soja e na
qualidade fisiológica de sementes, obteve um resultado
semelhante a essa pesquisa, obtendo um aumento de 15 cm
no comprimento das plântulas quando comparadas com a
testemunha.
As eventuais diferenças, independentemente de serem de
grandes ou em pequenas proporções, podem ser explicadas
pela alteração do comportamento fisiológico dentro da
mesma espécie, onde as mudanças das condições climáticas e
a diversidade genética das matrizes podem influenciar nos
testes que indicam o potencial fisiológico, inclusive no
comprimento das plântulas (GUEDES et al., 2015).
5. CONCLUSÕES
Foram identificados nas sementes de soja (Glycine max)
das cultivares BRS 523 e BRS 539 os seguintes fungos:
Aspergillus flavus, Fusarium semitectum, Penicillium sp. e
Colletotrichum truncatum.
A aplicação de Trichoderma harzianum na concentração
máxima (400 g) utilizada sobre as sementes de soja foi a mais
eficiente na redução de Aspergillus flavus, Fusarium semitectum,
Penicillium sp. e Colletotrichum truncatum.
As concentrações altas (350 g e 400 g) de T. harzianum
proporcionaram um aumento de 2% na germinação das
sementes de soja cultivar BRS 539.
6. REFERÊNCIAS
BETTIOL, W.; MORANDI, M. A. B.; PINTO, Z. V.;
PAULO JÚNIOR, T. J.; CORRÊA, É. B.; MOURA, A.
B.; LUCON, C. M. M. COSTA, J. C. B.; BEZERRA, J.
L. Produtos comerciais à base de agentes de
biocontrole de doenças de plantas. Jaguariúna:
Embrapa Meio Ambiente, 2012. 115p. Disponível em:
<http://www.infoteca.cnptia.embrapa.br/infoteca/han
dle/doc/930378>. Acesso em: 25 de mar. 2023.
BRASIL. Ministério da Agricultura, Pecuária e
Abastecimento. Regras para análise de sementes.
Secretaria de Defesa Agropecuária. Brasília:
MAPA/ACS, 2009. 399p.
CARVALHO, N. M.; NAKAGAWA, J. Sementes: ciência,
tecnologia e produção. 5 ed. Jaboticabal: FUNEP,
2012. 590p.
CONAB_Companhia Nacional de Abastecimento.
Acompanhamento da safra brasileira de grãos
2018/2019. Disponível em:<
http://www.conab.gov.br/OlalaCMS/uploads/arquivos
/17_03_14_15_28_33_boletim_graos_marc_2017bx.pd
f>. Acessado em: 13 Mar. 2020.
CONTRERAS-CORNEJO, H. A.; MACÍAS-
RODRÍGUEZ L.; DEL-VAL, E.; LARSEN, J.
Interactions of Trichoderma with plants, insects, and
plant pathogen microorganism: chemical and molecular
base. In: MÉRILLION, J. M.; RAMAWAT, K. G. (Eds.)
Co-evolution of secondary metabolites. Cham, Zug:
Springer Nature Switzarland AG, 2020. p. 263-290.
https://doi.org/10.1007/978-3-319-96397-6_23
DOMENE, M. P.; GLORIA, E. M.; BIAGI, J.;
BENEDETTI, B. C.; MARTINS, L. Efeito do
tratamento com óleos essenciais sobre a qualidade
fisiológica e sanitária das sementes de milho (Zea mays).
Arquivos do Instituto Biológico, v. 83, p. 1-6, 2016.
https://doi.org/10.1590/1808-1657000072014
EMBRAPA_Empresa Brasileira de Pesquisa Agropecuária.
Centro Nacional de Pesquisa de Soja. Tecnologias de
produção de soja - região central do Brasil, 2011.
Londrina: Embrapa Soja & Embrapa Cerrados: Embrapa
Agropecuária Oeste, 2010. 255p.
EMBRAPA_Empresa Brasileira de Pesquisa Agropecuária.
Centro Nacional de Pesquisa de Soja. Tecnologias de
Produção de Soja Região Central do Brasil. 2020.
Londrina: Embrapa Soja & Embrapa Cerrados: Embrapa
Agropecuária Oeste, 2020. 347p.
ETHUR, L. Z.; LUPATINI, M.; BLUME, E.; MUNIZ, M.
F. B.; ANTONIOLLI, Z. I.; LORENTZ, L. H.
Trichoderma asperellum na produção de mudas contra a
fusariose do pepineiro. Scientia Agraria Paranaensis, v.
11, n. 4, p. 73-84, 2012.
https://doi.org/10.18188/sap.v11i4.5347
FIESP_Federação das Indústrias do Estado de São Paulo. 9º
Levantamento USDA da safra 2019/20. 2020.
Disponível em: <https://www.fiesp.com.br/indices-
pesquisas-e publicacoes/saframundial-de-
soja/attachment/file-20200115141404>: Acesso em: 20
de fev. 2020.
FIPKE, G. M.; PAZINI, J. B.; ETHUR, L. Z. Antagonismo
de isolados de Trichoderma spp. ao Sclerotinia sclerotiorum em
diferentes temperaturas. Magistra, v. 27, n.1, p. 23-32,
2015.
GHAZANFAR, M. U.; RAZA, M.; RAZA, W.; QAMAR, M.
I. Trichoderma as potential biocontrol agent, its
exploitation is agriculture: a review. Plant Protection, v.
2, n. 3, p. 109-135, 2018.
GUEDES, R. S.; ALVES, E. R.; MOURA, S. S. S.;
GALINDO, E. A. Teste de comprimento de plântula na
avaliação da qualidade fisiológica de sementes de
Amburana cearensis (Allemão) A. C. Smith. Semina:
Ciências Agrárias, v. 36, n. 4, p. 2373-2382, 2015.
https://doi.org/10.5433/1679-0359.2015v36n4p2373