Characterization of Penicillium oxalicum SL2 isolated from indoor air and its application to the removal of hexavalent chromium

Removal of toxic Cr(VI) by microbial reduction is a promising approach to reducing its ecotoxicological impact. To develop bioremediation technologies, many studies have evaluated the application of microorganisms isolated from Cr(VI)-contaminated sites. Nonetheless, little attention has been given...

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Bibliographic Details
Published in:PloS one 2018-01, Vol.13 (1), p.e0191484
Main Authors: Long, Bibo, Ye, Binhui, Liu, Qinglin, Zhang, Shu, Ye, Jien, Zou, Lina, Shi, Jiyan
Format: Article
Language:English
Subjects:
Air Microbiology
Analysis
Base sequence
Biology and Life Sciences
Bioremediation
Carbon
Cellulose
Chromium
Chromium - isolation & purification
Computer simulation
Contaminants
Contamination
Electroplating
Engineering
Engineering and Technology
Environmental engineering
Environmental science
Fungi
Growth curves
Growth rate
Hexavalent chromium
Indoor air
Indoor air quality
Indoor environments
Lag time
Microorganisms
Microscopy, Electron, Scanning
Nanocomposites
Penicillium
Penicillium - isolation & purification
Physical Sciences
Pollutant removal
Reduction
Research and Analysis Methods
Ribosomal DNA
RNA, Ribosomal - metabolism
Wastewater
Wastewater treatment
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Summary:Removal of toxic Cr(VI) by microbial reduction is a promising approach to reducing its ecotoxicological impact. To develop bioremediation technologies, many studies have evaluated the application of microorganisms isolated from Cr(VI)-contaminated sites. Nonetheless, little attention has been given to microbes from the environments without a history of Cr(VI) contamination. In this study, we aimed to characterize the Cr(VI) tolerance and removal abilities of a filamentous fungus strain, SL2, isolated from indoor air. Based on phenotypic characterization and rDNA sequence analysis, SL2 was identified as Penicillium oxalicum, a species that has not been extensively studied regarding Cr(VI) tolerance and reduction abilities. SL2 showed high tolerance to Cr(VI) on solid and in liquid media, facilitating its application to Cr(VI)-contaminated environments. Growth curves of SL2 in the presence of 0, 100, 400, or 1000 mg/L Cr(VI) were well simulated by the modified Gompertz model. The relative maximal colony diameter and maximal growth rate decreased as Cr(VI) concentration increased, while the lag time increased. SL2 manifested remarkable efficacy of removing Cr(VI). Mass balance analysis indicated that SL2 removed Cr(VI) by reduction, and incorporated 0.79 mg of Cr per gram of dry biomass. In electroplating wastewater, the initial rate of Cr(VI) removal was affected by the initial contaminant concentration. In conclusion, P. oxalicum SL2 represents a promising new candidate for Cr(VI) removal. Our results significantly expand the knowledge on potential application of this microorganism.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0191484