4.6 Article

Bioherder Generated by Rhodococcus erythropolis as a Marine Oil Spill Treating Agent

Journal

FRONTIERS IN MICROBIOLOGY
Volume 13, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fmicb.2022.860458

Keywords

biosurfactant; bioherder; in situ burning; Rhodococcus erythropolis; marine oil spill response; low temperature; herding effectiveness

Categories

Funding

  1. Canada Research Chairs (CRC) Program [950-231554]
  2. Canada Foundation for Innovation [36677]
  3. Natural Sciences and Engineering Research Council of Canada [RGPIN-2018-05378]
  4. Fisheries and Oceans Canada (DFO), MPRI [1.02]

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This study evaluated a biosurfactant produced by Rhodococcus erythropolis M25 as an effective and eco-friendly herding agent. The impact of environmental and operational factors on its performance was investigated and the results showed that higher temperature and a higher dose of herder could increase the herding effectiveness.
There is an urgent call for contingency planning with effective and eco-friendly oil spill cleanup responses. In situ burning, if properly applied, could greatly mitigate oil in water and minimize the adverse environmental impacts of the spilled oil. Chemical herders have been commonly used along with in situ burning to increase the thickness of spilled oil at sea and facilitate combustion. These chemical surfactant-based agents can be applied to the edges of the oil slick and increase its thickness by reducing the water-oil interfacial tension. Biosurfactants have recently been developed as the next generation of herds with a smaller environmental footprint. In this study, the biosurfactant produced by Rhodococcus erythropolis M25 was evaluated and demonstrated as an effective herding agent. The impact of environmental and operational factors (e.g., temperature, herder dose, spilled oil amount, water salinity, and operation location) on its performance was investigated. A five-factor fractional design was applied to examine the importance of these factors and their impact on herding effectiveness and efficiency. The results of this study showed that higher temperature and a higher dose of herder could result in an increased oil slick thickness changing rate. Differences in water salinity at the same temperature led to the same trend, that is, the herding process effectively goes up with increasing herder-oil ratio (HOR). Further large-scale testing needs to be conducted for evaluating the applicability of the developed bioherder in the field.

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