Bioremediation strategies for diesel and biodiesel in oxisol from southern Brazil

• Published in: International biodeterioration & biodegradation Vol. 95; pp. 356 - 363
• Main Authors: Meyer, Daniel Derrossi, Beker, Sabrina Anderson, Bücker, Francielle, Peralba, Maria do Carmo Ruaro, Guedes Frazzon, Ana Paula, Osti, Júlio Flávio, Andreazza, Robson, Anastácio de Oliveira Camargo, Flávio, Bento, Fátima Menezes
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.11.2014
• Subjects: Attenuation; Bacillus megaterium; Bacillus pumilus; Bacteria; Bioaugmentation/biostimulation; Biodegradation; Biodiesel; Diesel; Diesel fuels; Microorganisms; Natural attenuation; PCR-DGGE; Pseudomonas aeruginosa; Soil (material); Stenotrophomonas maltophilia; Strategy; Brazil; PCR-DGGE; Diesel; Natural attenuation; Bioaugmentation/biostimulation; Biodiesel
• ISSN: 0964-8305; 1879-0208
• DOI: 10.1016/j.ibiod.2014.01.026

Leaks and spillages during the extraction, transport and storage of petroleum and its derivatives may result in environmental contamination. Biodiesel is an alternative energy source that can contribute to a reduction in environmental pollution. The aim of the present work was to evaluate biodegradation of diesel, biodiesel, and a 20% biodiesel-diesel mixture in oxisols from southern Brazil, using two bioremediation strategies: natural attenuation and bioaugmentation/biostimulation. Fuel biodegradation was monitored over 60 days by dehydrogenase activity, CO2 evolution and gas chromatography. The bacterial inoculum employed for bioaugmentation/biostimulation consisted of Bacillus megaterium, Bacillus pumilus, Pseudomonas aeruginosa, and Stenotrophomonas maltophilia and PCR-DGGE using 16S RNAr primers showed that some members of this consortium survived in the soil after 60 days. The biodegradation of pure biodiesel was higher for bioaugmentation/biostimulation than for natural attenuation, suggesting that the addition of the microbial consortium, together with adjustment of the macronutrient ratio, increased biodiesel degradation. The results of dehydrogenase and respiratory activity, together with GC analysis, suggested that the presence of biodiesel may, by stimulating general microbial degradative metabolism, increase the biodegradation of petroleum diesel. The microbial community was altered by both treatments, with natural attenuation producing a lower diversity index than the amended soil. The bioaugmentation/biostimulation strategy was showed to have a high potential for cleaning up soils contaminated with diesel and biodiesel blends. •Bioremediation of diesel, biodiesel and B20 blend in Brazil was investigated.•We observed biodegradation over 93% for B0; B20 and B100 after 60 days.•B100 presented lower degradability compared to B0 and B20 for Natural Attenuation.•PCR-DGGE showed that the microbial diversity was affected by bioremediation essays.