Phytotoxicity Optimization of Fungal Metabolites Produced by Solid and Submerged Fermentation and its Ecotoxicological Effects

Research and commercial production of bioherbicides occur to a lesser extent compared to bioinsecticides and biofungicides. In order to contribute to developing new bioherbicides with low environmental impact, this study aimed to increase the phytotoxicity of metabolites of the fungus Mycoleptodiscu...

Full description

Saved in:
Bibliographic Details
Published in:Applied biochemistry and biotechnology 2022-07, Vol.194 (7), p.2980-3000
Main Authors: Portela, Valéria Ortaça, Santana, Natielo Almeida, Balbinot, Michele Lusa, Antoniolli, Zaida Inês, de Oliveira Silveira, Andressa, Jacques, Rodrigo Josemar Seminoti
Format: Article
Language:English
Subjects:
Bagasse
Biochemistry
Biotechnology
Chemistry
Chemistry and Materials Science
Ecological effects
Ecotoxicology
Environmental impact
Fermentation
Fungi
Germination
Glucose
Leaves
Metabolites
Oligochaeta
Optimization
Original Article
Phytotoxicity
Sorghum
Substrates
Sugarcane
Water damage
Worms
Yeasts
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:Research and commercial production of bioherbicides occur to a lesser extent compared to bioinsecticides and biofungicides. In order to contribute to developing new bioherbicides with low environmental impact, this study aimed to increase the phytotoxicity of metabolites of the fungus Mycoleptodiscus indicus UFSM 54 by optimizing solid and submerged fermentation and evaluate the ecotoxicological effects on earthworms ( Eisenia andrei ). The Plackett–Burman and central composite rotatable designs were used to optimize metabolite phytotoxicity. The variables optimized in the fermentation were temperature, agitation, pH, water volume in the culture medium, glucose concentration, and yeast extract. The fungus was grown on sugarcane bagasse substrate, and its metabolites were applied to detached Cucumis sativus , Conyza sp ., and Sorghum bicolor leaves and used in an avoidance test and acute exposure to earthworms. Metabolite phytotoxicity in submerged fermentation was optimized at 35 °C, 50 rpm, and 1.5 g l −1 of glucose and in solid fermentation at 30–37 °C and in 14–32 ml of water. The metabolites severely damaged germination, initial growth, and leaves of the three plants, and at the doses tested (maximum of 113.92 ml kg −1 ), the metabolites of M. indicus UFSM 54 were not toxic to earthworms.
ISSN:0273-2289
1559-0291
DOI:10.1007/s12010-022-03884-x