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Depuration of mussels (Mytilus galloprovincialis) contaminated with domoic acid
Blanco, J.; Bermúdez de la Puente, M.; Arévalo, F.; Salgado, C.; Moroño, Á. (2002). Depuration of mussels (Mytilus galloprovincialis) contaminated with domoic acid. Aquat. Living Resour. 15(1): 53-60. hdl.handle.net/10.1016/S0990-7440(01)01139-1
In: Aquatic Living Resources = Ressources vivantes aquatiques. Elsevier: Montrouge. ISSN 0990-7440, more
Peer reviewed article  

Available in Authors 

Keywords
    Fish poisoning; Kinetics; Models; Salinity; Self purification; Shellfish; Temperature; Mytilus galloprovincialis Lamarck, 1819 [WoRMS]; Marine

Authors  Top 
  • Blanco, J.
  • Bermúdez de la Puente, M., correspondent
  • Arévalo, F.
  • Salgado, C.
  • Moroño, Á.

Abstract
    Domoic acid is a neurotoxin responsible for the Amnesic Shellfish Poisoning (ASP). With the aim of determining its depuration kinetics in raft mussels Mytilus galloprovincialis and the effects of body weight, salinity and temperature on it, an experiment involving these factors was carried out. Mussels which had incorporated this toxin to a concentration of 153 µg·g-1 of soft tissue during a bloom of the pennate diatom Pseudo nitzschia australis, were collected from the Galician Rías and placed at temperatures of 18 and 22 ºC and salinities of 12.5 and 31. Mussel samples were taken at the start of the experiment and daily during the four subsequent days and the domoic acid contents of the soft tissues were analysed. The simple one-compartment kinetics, that is a kinetics in which all toxin depurates at the same rate, was fitted to the data, with good quantitative results. Notwithstanding, the deviations of the model from the actual data were dependent on time, suggesting that such a simple model is not enough to correctly describe the data, and that a more complex kinetics may be more adequate. A two-compartment kinetic model, in which two pools of toxins exist (compartments), each one depurating at different rate, described qualitatively better the depuration but its quantitative contribution to the fit was not statistically significant. The parameters of the model, obtained by least squares fitting, suggest the possibility of a small second compartment of very small or null depuration rate, as detected in other species. This kind of model would explain the reduced quantitative contribution of the second (slowly depurating) compartment. Low salinity was shown to reduce the depuration rate. The two other factors checked, temperature and body weight, nor any interaction had significant effect on depuration rate.

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