🌍💼 How effective are algae cultures and biocatalysis in treating wastewater containing antibiotics? 📉📉🌍Biodegradation by Algal Cu...
Published on by Hossein Ataei Far, Deputy Manager of the Research, Technology Development, and Industry Relations Center at NWWEC
🌍Biodegradation by Algal Cultures:
🔎 Introduction: Algal cultures effectively remove substances, but there's limited research on pharmaceuticals' impact.
▶️ Algal Cultures for Nutrient and Contaminant Removal: Certain algae can break down carbamazepine, but high concentrations hinder growth.
▶️ Limited Studies on Pharmaceutical Removal: Concentration influences removal rates and inhibition.
▶️ Removal Rates of Carbamazepine: Different rates for Scenedesmus obliquus and Chlamydomonas mexicana.
▶️ Effect of Concentration on Removal and Inhibition: Higher concentrations decrease removal and increase inhibition.
▶️ Proposed Mechanisms for Carbamazepine Degradation: Potential mechanisms include epoxidation and oxidation.
▶️ Removal of Other Pharmaceuticals using Chlorella sorokiniana: Chlorella sorokiniana effectively removes various pharmaceuticals.
🌍 Biodegradation Using Biocatalysts:
🔎Introduction: Biocatalysis, including laccases, is effective for enzymatic bioremediation.
▶️B. Enzymes Used in Biocatalysis: Laccases play a crucial role, but large-scale applications face challenges.
🌍 Fungal Laccases:
🔎 Introduction: Laccases from Pycnoporus sanguineus CS43 fungi are effective biocatalysts.
▶️ Laccases from Pycnoporus sanguineus CS43 Fungi for Wastewater Bioremediation: Effective degradation of various pharmaceuticals.
▶️ Degradation of Pharmaceuticals: Laccase cocktails effectively degrade diclofenac and tricyclic antidepressants.
▶️ Influence of Functional Groups: Electron-donating groups enhance enzymatic degradation.
🌍 Immobilization Techniques:
🔎 Introduction: ▶️ Immobilizing laccases enhances effectiveness in pharmaceutical removal.
▶️ Immobilization of Laccases on Mesoporous Silica Spheres: pH influences the efficiency of diclofenac biotransformation.
▶️ Cross-Linked Laccase Aggregates on Magnetic Nanoparticles: Effective removal of pharmaceuticals.
▶️ D. Influence of Electron-Donating Groups: The presence of such groups affects removal efficiency.
🌍 Algal and Bacterial Symbiosis for Antibiotic Wastewater Purification:
🔎 Overview: ASG consortium demonstrated high efficacy.
▶️ Microbial Population Diversity and Community Structure: Antibiotics influence microbial abundance and community structure.
▶️ Correlation with Pollutant Removal Rates: Positive correlation of certain microbes with removal rates.
▶️ Growth and Metabolic Characteristics: Microbial abundance correlates with growth and metabolic needs.
▶️ Chlorella Growth in Different Microcosm Systems: Different systems affect Chlorella growth and system efficiency.
🔗References:
[1]Sonali J.Mary Isabella et. al., (2023).
[2]Sharma.Anuj et. al., (2023).
[3]Fabris.Michele et. al., (2020)
#Micropollutants
#EmergingContaminants
#Algal
#EmergingTechnologies
#AlgalBiotechnology
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