Release and degradation of amnesic shellfish poison from decaying Pseudo-nitzschia multiseries in presence of bacteria and organic matter

Domoic acid (DA), the neurotoxin produced by diatoms such as Pseudo-nitzschia multiseries is water-soluble and can bioaccumulate, causing mass death of birds and marine mammals worldwide. Humans eating contaminated shellfish most commonly suffer from memory loss but mortalities have been recorded. T...

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Bibliographic Details
Published in:Harmful algae 2007-02, Vol.6 (2), p.175-188
Main Authors: Hagström, Johannes A., Granéli, Edna, Maneiro, Isabel, Barreiro, Aldo, Petermann, Anika, Svensen, Camilla
Format: Article
Language:English
Subjects:
Akvatisk ekologi
Algae
Animal and plant ecology
Animal, plant and microbial ecology
Aquatic Ecology
Autoecology
Bacillariophyceae
Bacteria
Biological and medical sciences
Copepoda
Degradation
Domoic acid
Fundamental and applied biological sciences. Psychology
Marine
Nitzschia
Nutrient condition
Plant cytology, morphology, systematics, chorology and evolution
Plants and fungi
Pseudo-nitzschia
Pseudo-nitzschia multiseries
Release
Thallophyta
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Summary:Domoic acid (DA), the neurotoxin produced by diatoms such as Pseudo-nitzschia multiseries is water-soluble and can bioaccumulate, causing mass death of birds and marine mammals worldwide. Humans eating contaminated shellfish most commonly suffer from memory loss but mortalities have been recorded. The fate of particulate and dissolved DA released from the cells or added as standards was studied when incubated with different bacterial abundances, copepod faecal pellets, mussel pseudo-faeces and bottom sediment. Strains of P. multiseries from Canada and Brazil were grown in non-axenic continuous monocultures with different nutrient conditions, or in a follow-up mesocosm experiment. Incubation lasted up to 75 days in the dark under quiescent conditions after the cells had been killed. Release of DA from decaying cells did not depend on bacterial abundance when the bacterial source was cultures of P. multiseries, and the dissolved toxin was stable with bacteria from P. multiseries cultures (at least 20 days with 1× or 4× bacterial concentration), or with a naturally occurring density of bacteria from surface waters of a known P. multiseries bloom area (35 days). However, four-fold concentration of the natural bacterial consortium from the bloom site reduced the onset of DA degradation to 16 days. Thus, this study suggests that when testing toxin degradation by bacteria, it is important to use bacterial consortia from known bloom areas of Pseudo-nitzschia. Copepod faecal pellets did not affect DA degradation, whereas the presence of mussel pseudo-faeces and bottom sediment rapidly removed most of the toxin. We believe that the rapid removal of DA in the two latter treatments was due to higher bacterial abundance and the presence of enzymes from the mussels and/or associated bacteria that are important for the degradation process. The mechanisms underlying the observed effects on DA degradation with mussel pseudo-faeces and sediment require further research, but suggest interesting possibilities as a potential future mitigation technique.
ISSN:1568-9883
1878-1470
1878-1470
DOI:10.1016/j.hal.2006.08.002