Removal of a mixture of pesticides by a Streptomyces consortium: Influence of different soil systems

Although the use of organochlorine pesticides (OPs) is restricted or banned in most countries, they continue posing environmental and health concerns, so it is imperative to develop methods for removing them from the environment. This work is aimed to investigate the simultaneous removal of three OP...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2017-04, Vol.173, p.359-367
Main Authors: Fuentes, María S., Raimondo, Enzo E., Amoroso, María J., Benimeli, Claudia S.
Format: Article
Language:English
Subjects:
Actinobacteria consortium
Biodegradation
Biodegradation, Environmental
Chlordan - isolation & purification
Different matrices
Lindane - isolation & purification
Microbial Consortia
Organochlorine pesticides pollution
Pesticides - chemistry
Pesticides - isolation & purification
Pesticides - metabolism
Soil - chemistry
Soil Pollutants - chemistry
Soil Pollutants - isolation & purification
Soil Pollutants - metabolism
Streptomyces - growth & development
Streptomyces - metabolism
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Summary:Although the use of organochlorine pesticides (OPs) is restricted or banned in most countries, they continue posing environmental and health concerns, so it is imperative to develop methods for removing them from the environment. This work is aimed to investigate the simultaneous removal of three OPs (lindane, chlordane and methoxychlor) from diverse types of systems by employing a native Streptomyces consortium. In liquid systems, a satisfactory microbial growth was observed accompanied by removal of lindane (40.4%), methoxychlor (99.5%) and chlordane (99.8%). In sterile soil microcosms, the consortium was able to grow without significant differences in the different textured soils (clay silty loam, sandy and loam), both contaminated or not contaminated with the OPs-mixture. The Streptomyces consortium was able to remove all the OPs in sterile soil microcosm (removal order: clay silty loam > loam > sandy). So, clay silty loam soil (CSLS) was selected for next assays. In non-sterile CSLS microcosms, chlordane removal was only about 5%, nonetheless, higher rates was observed for lindane (11%) and methoxychlor (20%). In CSLS slurries, the consortium exhibited similar growth levels, in the presence of or in the absence of the OPs-mixture. Not all pesticides were removed in the same way; the order of pesticide dissipation was: methoxychlor (26%)>lindane (12.5%)>chlordane (10%). The outlines of microbial growth and pesticides removal provide information about using actinobacteria consortium as strategies for bioremediation of OPs-mixture in diverse soil systems. Texture of soils and assay conditions (sterility, slurry formulation) were determining factors influencing the removal of each pesticide of the mixture. •Removal of three pesticides was simultaneously assayed in liquid and soil systems.•The pesticides contaminated systems were inoculated with a Streptomyces consortium.•Pesticides removal by the consortium was dependent on the system evaluated.•Soil textures were determining in the removal of each pesticide in soil microcosms.•Highest percentages of pesticide removal were obtained in clay silty loam soil.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2017.01.044