Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/9504
Título
Unveiling the capacity of bioaugmentation application, in comparison with biochar and rhamnolipid for TPHs degradation in aged hydrocarbons polluted soil
Autor
Publicado en
Environmental Research. 2024, V. 252, 118880
Editorial
Elsevier
Fecha de publicación
2024-07-01
ISSN
0013-9351
DOI
10.1016/j.envres.2024.118880
Résumé
Persistent, aged hydrocarbons in soil hinder remediation, posing a significant environmental threat. While bioremediation offers an environmentally friendly and cost-effective approach, its efficacy for complex contaminants relies on enhancing pollutant bioavailability. This study explores the potential of immobilized bacterial consortia combined with biochar and rhamnolipids to accelerate bioremediation of aged total petroleum hydrocarbon (TPH)-contaminated soil. Previous research indicates that biochar and biosurfactants can increase bioremediation rates, while mixed consortia offer sequential degradation and higher hydrocarbon mineralization. The present investigation aimed to assess whether combining these strategies could further enhance degradation in aged, complex soil matrices. The bioaugmentation (BA) with bacterial consortium increased the TPHs degradation in aged soil (over 20% compared to natural attenuation - NA). However, co-application of BA with biochar and rhamnolipid higher did not show a statistically prominent synergistic effect. While biochar application facilitated the maintenance of hydrocarbon degrading bacterial consortium in soil, the present study did not identify a direct influence in TPHs degradation. The biochar application in contaminated soil contributed to TPHs adsorption. Rhamnolipid alone slightly increased the TPHs biodegradation with NA, while the combined bioaugmentation treatment with rhamnolipid and biochar increased the degradation between 27.5 and 29.8%. These findings encourage further exploration of combining bioaugmentation with amendment, like biochar and rhamnolipid, for remediating diverse environmental matrices contaminated with complex and aged hydrocarbons.
Palabras clave
Biodegradation
Bioaugmentation
Biochar
Rhamnolipids
TPHs polluted soils
Recalcitrant hydrocarbons
Materia
Química agrícola
Agricultural chemistry
Química inorgánica
Chemistry, Inorganic
Bioquímica
Biochemistry
Biología molecular
Molecular biology
Versión del editor
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