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Merck

Use of plant materials for the bioremediation of soil from an industrial site.

Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering (2020-02-19)
Danielle Aparecida Duarte Nunes, Andrea Medeiros Salgado, Emanuela Forestieri da Gama-Rodrigues, Rodrigo Gouvêa Taketani, Cláudia Duarte da Cunha, Eliana Flávia Camporese Sérvulo
RESUMEN

Bioremediation is one of the existing techniques applied for treating oil-contaminated soil, which can be improved by the incorporation of low-cost nutritional materials. This study aimed to assess the addition of two low-cost plant residues, sugarcane bagasse (SCB) and leaf litter (LL) of the forest leguminous Mimosa caesalpiniifolia plant (sabiá), either separately or combined, to a contaminated soil from a petroleum refinery area, analyzed after 90 days of treatment. Individually, both amounts of SCB (20 and 40 g kg-1) favored the growth of total heterotrophic bacteria and total fungi, while LL at 20 g kg-1 better stimulated the hydrocarbon-degrading microorganism's activity in the soil. However, no TPH removal was observed under any of these conditions. Higher microbial growth was detected by the application of both plant residues in multicontaminated soil. The maximum TPH removal of 30% was achieved in amended soil with 20 g kg-1 SCB and 20 kg-1 LL. All the experimental conditions revealed changes in the microbial community structure, related to the handling of the soil, with abundance of Alphaproteobacteria. This study demonstrates the effectiveness of the plant residues SCB and LL as low-cost nutritional materials for biodegradation of hydrocarbon in real oil contaminated soil by indigenous populations.

MATERIALES
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Millipore
Agar SABOURAUD dextrosa, GranuCult® prime, Dextrose 4 %, EP 5.6, USP 29, JP 4.05, granular, for yeasts, for molds, pack of 500 g and 5 kg
Millipore
GranuCult® Nutrient agar, ISO 6579, ISO 10273, ISO 19250, ISO 21528, APHA, suitable for microbiology