Photo-Fenton oxidation of cylindrospermopsin at neutral pH with LEDs
EntidadUAM. Departamento de Biología; UAM. Departamento de Ingeniería Química
Fecha de edición2022-10-22
10.1007/s11356-022-23681-7Environmental Science and Pollution Research (2022): 1-10
ISSN0944-1344 (print); 1614-7499 (online)
Financiado porOpen Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. This research has been supported by the CYTED Ibero-American Science and Technology Program for Development (CYTED-2019) through the project TALGENTOX (PCI2020-112013) and by the Spanish Ministry for Science and Innovation (MICINN) through the project PID2019-105079RB-I00. D. Ortiz has received a FPU predoctoral grant (FPU19/04816) from the Spanish Ministry of Universities. M. Munoz has received a Ramón y Cajal postdoctoral contract (RYC-2016–20648) from the Spanish MINECO
ProyectoGobierno de España. PID2019-105079RB-I00
Versión del editorhttps://doi.org/10.1007/s11356-022-23681-7
MateriasCyanotoxin; Cylindrospermopsin; Degradation; EDDS; LEDs; Photo-Fenton; Biología y Biomedicina / Biología; Química
Derechos© The Author(s) 2022
Esta obra está bajo una Licencia Creative Commons Atribución 4.0 Internacional.
Cylindrospermopsin (CYN) is a potent cyanobacterial toxin found in freshwaters worldwide. In this work, the feasibility of the photo-Fenton process under neutral pH using light emitting diodes as irradiation source for the removal of this hazardous cyanotoxin from freshwater was investigated. The impact of the kind of iron chelating agent (ethylenediamine-N, N′-disuccinic acid vs. ethylenedinitrilotetraacetic acid) as well as the effect of the main operating conditions viz. H2O2 dose, Fe(III) load, initial CYN concentration, and Fe(III):EDDS molar ratio on the performance of the process was systematically evaluated. EDDS was selected as the most appropriate iron chelating agent considering the kinetics of the process and the environmental impact (Vibrio fischeri and Artemia salina). Under optimized conditions ([H2O2] = 30 mg L−1; [Fe(III)] = 5 mg L−1; Fe(III):ligand = 1:0.5 (molar ratio)), complete removal of CYN was achieved in 15-min reaction time. Furthermore, the catalytic system showed to be effective in real water matrices (river and reservoir waters) spiked with CYN. Although the presence of inorganic ions (mainly HCO3−/CO32−) and dissolved organic carbon decreased the oxidation rate of CYN due to scavenging reactions and iron coordination, respectively, complete elimination of the cyanotoxin was achieved in all cases. The fate of EDDS along the process was also evaluated to demonstrate that the catalytic system investigated, apart from its effectiveness, warrants the complete absence of residues after reaction. Therefore, the proposed system constitutes a promising method for cyanotoxin treatment either as a drinking water treatment step in conventional plants or as a potential remediation strategy in the natural environment
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Google Scholar:Ortiz Suárez, David - Muñoz García, Macarena - Garcia, Jorge - Cires Gómez, Samuel - Martínez de Pedro, Zahara - Quesada del Corral, Antonio - Casas, Jose A.
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