Ignacio Moya-Ramírez scite author profile

Olive mill waste (OMW) creates a major environmental problem due to the difficulty of further waste processing. In this work we present an approach to give OMW added value by using it for the production of biosurfactants. Two bacterial species, Pseudomonas aeruginosa and Bacillus subtilis, were grown with OMW as the sole carbon source. Glycerol and waste frying oil were used as comparative carbon sources. B. subtilis produced surfactin (a lipopeptide) at a maximum concentration of 3.12 mg/L with 2% w/v of OMW in the medium, dropping to 0.57 mg/L with 10% w/v of OMW. In contrast, P. aeruginosa produced 8.78 mg/L of rhamnolipid with 2% w/v OMW increasing to 191.46 mg/L with 10% w/v OMW. The use of solvent-extracted OMW reduced the biosurfactant production by 70.8% and 88.3% for B. subtilis and P. aeruginosa respectively. These results confirm that OMW is a potential substrate for biosurfactant production.

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Two‐phase olive mill waste (alpeorujo) as carbon source for biosurfactant production

Maass

Moya-Ramírez

García-Román

et al. 2015

J of Chemical Tech & Biotech

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BACKGROUND: The olive oil extraction process currently used in Spain and other Mediterranean countries generates large amounts of a semi-solid by-product known as 'alpeorujo' or 'two-phase olive mill waste' (TPOMW). Although TPOMW can be a source of valuable compounds, it is mostly dried and burnt to produce energy. This paper, and for the first time, reports the use of TPOMW as the main carbon source for the production of surfactin, a high added value biosurfactant, by Bacillus subtilis DSM 3256.

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Hydrolysis of olive mill waste to enhance rhamnolipids and surfactin production

Moya-Ramírez

Altmajer-Vaz

Banat

et al. 2016

Bioresource Technology

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The aim of this work was to demonstrate the effectiveness of hydrolysis pretreatment of olive mill (OMW) waste before use as a carbon source in biosurfactant production by fermentation. Three hydrolysis methods were assessed: enzymatic hydrolysis, acid pretreatment plus enzymatic hydrolysis, and acid hydrolysis. Fermentation was carried out using two bacterial species: Pseudomonas aeruginosa and Bacillus subtilis. Our results showed that the enzymatic hydrolysis was the best pretreatment, yielding up to 29.5 and 13.7mg/L of rhamnolipids and surfactins respectively. Glucose did not show significant differences in comparison to enzymatically hydrolysed OMW. At the best conditions found rhamnolipids and surfactins reached concentrations of 299 and 26.5mg/L; values considerably higher than those obtained with non-hydrolysed OMW. In addition, enzymatic pretreatment seemed to partially reduce the inhibitory effects of OMW on surfactin production. Therefore, enzymatic hydrolysis proved to effectively increase the productivity of these biosurfactants using OMW as the sole carbon source.

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