Assessment of Phytotoxicity in Untreated and Electrochemically Treated Leachates through the Analysis of Early Seed Growth and Inductively Coupled Plasma-Optical Emission Spectroscopy Characterization

The treatment of stabilized leachates with high refractory organic matter content, which are over 10 years old, presents a challenge. This study explored the potential of electro-coagulation (EC) and electro-oxidation (EO) treatment systems to address this issue. The objective of this study was to i...

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Bibliographic Details
Published in:Horticulturae 2024-01, Vol.10 (1), p.67
Main Authors: Martínez-Cruz, Alfredo, Rojas-Valencia, María Neftalí
Format: Article
Language:English
Subjects:
Bioassays
Biodegradability
Biodegradable materials
Biodegradation
Chemical elements
Chemical oxygen demand
Circular economy
Coagulation
Developing countries
Dissolved organic carbon
Effluents
electro-coagulation
electro-oxidation
Emission analysis
Emission spectroscopy
Environmental aspects
Environmental impact
Fractionation
Heavy metals
Humic acids
Humic substances
Inductively coupled plasma
Landfill
LDCs
Leachates
mature leachates
Methods
Optical analysis
Optical emission spectroscopy
Organic matter
Oxidation
Physiological aspects
Phytotoxicity
Plasma
Pollutants
Resource recovery
Seeds
Spectroscopy
Spectrum analysis
Testing
Toxicity
Wastewater
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Summary:The treatment of stabilized leachates with high refractory organic matter content, which are over 10 years old, presents a challenge. This study explored the potential of electro-coagulation (EC) and electro-oxidation (EO) treatment systems to address this issue. The objective of this study was to investigate the phytotoxicity of the proposed treatment system on seed growth and examine possible relationships between phytotoxicity results and the characterization of leachates, effluents, soil, and radicles. Phytotoxicity tests were conducted on seeds of Lactuca sativa, Cucumis sativus, and Phaseolus vulgaris, using Inductively Coupled Plasma-Optical analysis. The evolution of organic matter was monitored by fractionating the chemical oxygen demand (COD) and humic substances. The biodegradability index increased from 0.094 in raw leachate to 0.26 and 0.48 with EC and EO, respectively. Removal rates of 82%, 86%, 99%, and 81% were achieved for COD, dissolved organic carbon, color, and ammoniacal nitrogen, respectively. The biodegradable COD increased from 26% in raw leachate to 39% in the EC process and 58% in the EO process effluent. The proposed treatment system successfully broke the aromatic structures of the humic substances present in the raw leachate, thereby increasing the content of biodegradable material. Phytotoxicity tests revealed that the proposed treatment system significantly reduced the phytotoxicity of the generated effluents.
ISSN:2311-7524
2311-7524
DOI:10.3390/horticulturae10010067