Your search keyword '"Torán, Josefina"' showing total 6 results

1. Fungal bioremediation of diuron-contaminated waters: evaluation of its degradation and the effect of amendable factors on its removal in a trickle-bed reactor under non-sterile conditions

Author

Hu, Kaidi, Toran, Josefina, Lopez-Garcia, Ester, Barbieri, Maria Vittoria, Postigo, Cristina, de Alda, Miren Lopez, Caminal, Gloria, Sarra, Montserrat, and Blanquez, Paqui

Subjects

Quantitative Biology - Quantitative Methods

Abstract

The occurrence of the extensively used herbicide diuron in the environment poses a severe threat to the ecosystem and human health. Four different ligninolytic fungi were studied as biodegradation candidates for the removal of diuron. Among them, T. versicolor was the most effective species, degrading rapidly not only diuron (83%) but also the major metabolite 3,4-dichloroaniline (100%), after 7-day incubation. During diuron degradation, five transformation products (TPs) were found to be formed and the structures for three of them are tentatively proposed. According to the identified TPs, a hydroxylated intermediate 3-(3,4-dichlorophenyl)-1-hydroxymethyl-1-methylurea (DCPHMU) was further metabolized into the N-dealkylated compounds 3-(3,4-dichlorophenyl)-1-methylurea (DCPMU) and 3,4-dichlorophenylurea (DCPU). The discovery of DCPHMU suggests a relevant role of hydroxylation for subsequent N-demethylation, helping to better understand the main reaction mechanisms of diuron detoxification. Experiments also evidenced that degradation reactions may occur intracellularly and be catalyzed by the cytochrome P450 system. A response surface method, established by central composite design, assisted in evaluating the effect of operational variables in a trickle-bed bioreactor immobilized with T. versicolor on diuron removal. The best performance was obtained at low recycling ratios and influent flow rates. Furthermore, results indicate that the contact time between the contaminant and immobilized fungi plays a crucial role in diuron removal. This study represents a pioneering step forward amid techniques for bioremediation of pesticides-contaminated waters using fungal reactors at a real scale., Comment: Published in Science of the Total Environment

Published

2020

2. High-rate activated sludge at very short SRT: Key factors for process stability and performance of COD fractions removal

Author

Canals, Joan, Cabrera-Codony, Alba, Carbó, Oriol, Torán, Josefina, Martín, Maria, Baldi, Mercè, Gutiérrez, Belén, Poch, Manel, Ordóñez, Antonio, and Monclús, Hèctor

Published

2023

3. The removal of diuron from agricultural wastewaters by Trametes versicolor immobilized on pinewood in simple channel reactors

Author

Beltrán-Flores, Eduardo, Torán, Josefina, Caminal, Glòria, Blánquez, Paqui, and Sarrà, Montserrat

Published

2020

4. Exploring the degradation capability of Trametes versicolor on selected hydrophobic pesticides through setting sights simultaneously on culture broth and biological matrix

Author

Hu, Kaidi, Peris, Andrea, Torán, Josefina, Eljarrat, Ethel, Sarrà, Montserrat, Blánquez, Paqui, and Caminal, Gloria

Published

2020

5. Fungal bioremediation of diuron-contaminated waters: Evaluation of its degradation and the effect of amendable factors on its removal in a trickle-bed reactor under non-sterile conditions

Author

European Commission, Postigo, Cristina [0000-0002-7344-7044], López De Alda, Miren [0000-0002-9347-2765], Caminal, Glòria [0000-0001-9646-6099], Hu, Kaidi, Torán, Josefina, López-García, Ester, Barbieri, Maria Vittoria, Postigo, Cristina, López de Alda, Miren, Caminal, Glòria, Sarrà, Montserrat, Blánquez, Paqui, European Commission, Postigo, Cristina [0000-0002-7344-7044], López De Alda, Miren [0000-0002-9347-2765], Caminal, Glòria [0000-0001-9646-6099], Hu, Kaidi, Torán, Josefina, López-García, Ester, Barbieri, Maria Vittoria, Postigo, Cristina, López de Alda, Miren, Caminal, Glòria, Sarrà, Montserrat, and Blánquez, Paqui

Abstract

The occurrence of the extensively used herbicide diuron in the environment poses a severe threat to the ecosystem and human health. Four different ligninolytic fungi were studied as biodegradation candidates for the removal of diuron. Among them, T. versicolor was the most effective species, degrading rapidly not only diuron (83%) but also the major metabolite 3,4-dichloroaniline (100%), after 7-day incubation. During diuron degradation, five transformation products (TPs) were found to be formed and the structures for three of them are tentatively proposed. According to the identified TPs, a hydroxylated intermediate 3-(3,4-dichlorophenyl)-1-hydroxymethyl-1-methylurea (DCPHMU) was further metabolized into the N-dealkylated compounds 3-(3,4-dichlorophenyl)-1-methylurea (DCPMU) and 3,4-dichlorophenylurea (DCPU). The discovery of DCPHMU suggests a relevant role of hydroxylation for subsequent N-demethylation, helping to better understand the main reaction mechanisms of diuron detoxification. Experiments also evidenced that degradation reactions may occur intracellularly and be catalyzed by the cytochrome P450 system. A response surface method, established by central composite design, assisted in evaluating the effect of operational variables in a trickle-bed bioreactor immobilized with T. versicolor on diuron removal. The best performance was obtained at low recycling ratios and influent flow rates. Furthermore, results indicate that the contact time between the contaminant and immobilized fungi plays a crucial role in diuron removal. This study represents a pioneering step forward amid techniques for bioremediation of pesticides-contaminated waters using fungal reactors at a real scale.

Published

2020

6. Fungal bioremediation of diuron-contaminated waters: Evaluation of its degradation and the effect of amendable factors on its removal in a trickle-bed reactor under non-sterile conditions

Author

Hu, Kaidi, primary, Torán, Josefina, additional, López-García, Ester, additional, Barbieri, Maria Vittoria, additional, Postigo, Cristina, additional, de Alda, Miren López, additional, Caminal, Gloria, additional, Sarrà, Montserrat, additional, and Blánquez, Paqui, additional

Published

2020