The Characteristics of p-Chlorophenol with Cu2+ Biodegradation by Fusarium Sp.

Xiao Xiao Wang; Shi Bo Wang; Jun Ya Pan; Xiao Ping Shi; Ji Wu Li

doi:10.4028/www.scientific.net/AMR.781-784.127

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Enrichment of Peptide with Graphene for MALDI-TOF MS Analysis
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Indirect Determination of Methimazole in Pharmaceutical Sample by Discoloration Spectrophotometry Using Fe (III)-Tiron System
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Beware of Pseudo Matrix-Matched Standard Calibration Curve due to Matrix Effect on Sulfonamide Residue in Honey
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The Characteristics of p-Chlorophenol with Cu²⁺ Biodegradation by Fusarium Sp.
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Rapid Preparation of Solid Alcohol
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Chiral Discrimination of the Diastereomeric Salts with (R)-Nipecotic Acid and Tartaric Acid Derivative
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Hydrate Formation Conditions of Natural Gas with Different Content of Carbon Dioxide and Inhibitors Screening Studies
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Hydrothermal Synthesis Hollow BiVO₄ Photocatalysts
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 781-784The Characteristics of p-Chlorophenol with Cu2+...

The Characteristics of p-Chlorophenol with Cu²⁺ Biodegradation by Fusarium Sp.

Abstract:

The stain of Fusarium sp. used in 4-chlorophenol (4-CP) degradation was isolated in our laboratory. The effects of pH, Cu²⁺ concentration, carbon source on 4-CP degradation rate by Fusarium sp. were investigated. The kinetic equation of 4-CP biodegradation was discussed. It was concluded that Fusarium sp. could grow with 4-CP as the sole carbon and energy source. 4-CP concentration of 50mg/L in the Cu²⁺ concentration of 3mg/L could be degraded completely. The capacity of 4-CP degradation was effectively enhanced by the addiction of phenol. Phenol concentration of 200 mg/L in the pH 7 and the Cu²⁺ concentration of 3 mg/L could be degraded completely. Cu²⁺ at high concentration might reduce the biodegradation rate of 4-CP. The kinetic equation of 4-CP biodegradation could well accord with the zero order equation for 4-CP as the sole carbon source with Cu²⁺ coexistence by Fusarium sp..