Abstract
The use of biofuel blends with fossil fuels is widespread globally, raising concerns over novel contamination types in environments impacted by these mixtures. This study investigates the microbial functional in soils contaminated by biofuel and fossil fuel blends and subjected to various bioremediation treatments. Using metagenomic analysis, it was compared hydrocarbon degradation functional profiles across areas polluted with ethanol/gasoline and biodiesel/diesel blends. Results indicate that long-term natural attenuation areas exhibited distinct functional profiles compared to actively bioremediated areas. However, same hydrocarbon degradation genes were enriched across all areas, highlighting functional redundancy despite taxonomic variation in hydrocarbon-degrading microbes. Finally, several of the keystone species found were hydrocarbon degraders, such as members of the families Clostridiaceae and Comamonadaceae, representing potential targets for biostimulation in future remediation efforts. This long-term, field-scale study uniquely focuses on the functional profiles of microbial communities, offering new insights into the bioremediation of complex biofuel/fossil fuel contaminants in situ.
Published Version
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