Bench-scale fermentation of Trichoderma viride on wastewater sludge: Rheology,lytic enzymes and biocontrol activity |
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| Institution: | 1. INRS-ETE, Université du Québec, 490, Rue de la Couronne, Québec, Canada G1K 9A9;2. Department of Biochemical Engineering and Biotechnology, Indian Institute of Technology, Delhi 110016, India;3. CRDSGC, Agriculture et Agro-alimentaire Canada, 2560 boul. Hochelaga, Québec, Canada G1V 2J3;4. US EPA, P.O. Box-17-2141, Kansas City, KS 66117, United States;1. U.S. Naval Research Laboratory, Code 6920, 4555 Overlook Ave. SW, Washington D.C. 20375, United States;2. U.S. Naval Research Laboratory, Code 6910, 4555 Overlook Ave. SW, Washington D.C. 20375, United States;3. U.S. Naval Research Laboratory, Code 6930, 4555 Overlook Ave. SW, Washington D.C. 20375, United States;1. Universidade de Caxias do Sul—Instituto de Biotecnologia, Laboratório de Enzimas e Biomassas Rua Francisco Getúlio Vargas, 1130, CEP 95070-560 Caxias do Sul, RS, Brazil;2. Universidade Federal do Paraná—Departamento de Química, Centro de Pesquisa em Química Aplicada P.O. Box 19032, Curitiba, PR CEP 81531-980, Brazil;3. Centro de Tecnologia Canavieira (CTC), Fazenda Santo Antônio, 13400-907 Piracicaba, São Paulo, Brazil;1. Department of Dermatology, Affiliated Hospital of Guangdong Medical College, Zhanjiang, Guangdong, China;2. First Affiliated Hospital and Institute of Mycology, Jinan University, Guangzhou, Guangdong, China;1. Department of Oral Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama 700-8525, Japan;2. Department of Medical Engineering, Faculty of Engineering, Tokyo City University, Tokyo 158-8557, Japan |
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| Abstract: | Conidiation and lytic enzyme production by Trichoderma viride at different solids concentration of pre-treated municipal wastewater sludge was examined in a 15-L fermenter. The maximum conidia concentration (5.94 × 107 CFU mL−1 at 96 h) was obtained at 30 g L−1 suspended solids. The maximum lytic enzyme activities were achieved around 12–30 h of fermentation. Bioassay against a fungal phytopathogen, Fusarium sp. showed maximum activity in the sample drawn around 96 h of fermentation at 30 g L−1 suspended solids concentration. Entomotoxicity against spruce budworm larvae showed maximum value ≈17290 SBU μL−1 at 30 g L−1 suspended solids concentration at the end of fermentation (96 h). Plant bioassay showed dual action of T. viride, i.e., disease prevention and growth promotion. The rheological analyses of fermentation sludges showed the pseudoplastic behaviour. In order to maintain required dissolved oxygen concentration ≥30%, the agitation and aeration requirements significantly increased at 35 g L−1 compared to 30 and 25 g L−1. The oxygen uptake rate and volumetric oxygen mass transfer coefficient, kLa at 35 g L−1 did not increase in comparison to 30 g L−1 due to rheological complexity of the broth during fermentation. Thus, the successful fermentation operation of the biocontrol fungus T. viride is a rational indication of its potential for mass-scale production for agriculture and forest sector as a biocontrol agent. |
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