4.7 Article

Hemocyte Health Status Based on Four Biomarkers to Assess Recovery Capacity in American Lobster (Homarus americanus) after Exposure to Marine Diesel and Diluted Bitumen

Journal

Publisher

MDPI
DOI: 10.3390/jmse9040370

Keywords

Homarus americanus; hemolymph; oil spill; diluted bitumen; marine diesel; water accommodated fraction (WAF); PAH; biomarkers; Brix index

Funding

  1. Fonds d'amorcage de partenariat (FAP) UQAR-Merinov
  2. Centre d'expertise en gestion des risques d'incidents maritimes (CEGRIM)
  3. Mitacs Accelerate

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Research shows that lysosomal stability and ethoxyresorufin O-deethylase (EROD) induction exhibit higher sensitivity in contaminated lobsters. Increasing the temperature did not shorten the recovery period, and lobsters exposed to dilbit experienced greater cellular impacts compared to those exposed to marine diesel. Furthermore, marine diesel exposure appeared to have more ongoing issues for the lobster fishery.
The growing transportation of petroleum products pose a significant risk of marine diesel or diluted bitumen (dilbit) spills at sea. Despite the economic importance of the American lobster, there have been few studies assessing the impact study of such a spill on their population. In the lobster industry, lobster quality is monitored according to the Brix index of hemolymph. In our research, the effectiveness of three other biomarkers operative in the industry was assessed in hemolymph during contamination (over 96 h) by marine diesel and dilbit (Cold Lake Blend; CLB), as well as in the subsequent recovery period, according to two temperature cycles. At the end of the experiment, chemical and tainting assays were performed. Our results demonstrate that, among the four tested biomarkers, lysosomal stability and ethoxyresorufin O-deethylase (EROD) induction exhibit higher sensitivity. Increasing the temperature did not shorten the recovery period. Viability cellular impacts were greater in lobsters exposed to dilbit than that in those exposed to marine diesel. Marine diesel exposure appears to be more problematic for the lobster fishery, as the cooked lobster meat still presented a hydrocarbon odor even after 3 months of live holding. Finally, the high PAH concentrations measured in lobster eggs suggest potential adverse transgenerational effects of marine diesel exposure.

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