Abstracts
Résumé
Dans le cadre du programme de recherche sur les blooms toxiques à cyanobactéries dans certains lacs de barrage du Maroc, une étude de ce phénomène a été entreprise sur trois retenues : Lalla Takerkoust, Oued Mellah et Al Massira. L'étude taxonomique montre que dans les lacs Lalla Takerkoust et Al Massirra, l'espèce responsable des blooms est Microcystis aeruginosa alors que dans la retenue saumâtre et hypereutrophe Oued Mellah, c'est Microcystis ichthyoblabe.
En complément, une étude toxicologique et toxinologique a permis d'évaluer les risques sanitaires potentiels qui peuvent être engendrés par ces blooms. L'hépatotoxicité, pour l'ensemble des blooms récoltés en 1999, a été confirmée par le biotest " souris ". L'application de ce test a montré que le bloom de LallaTakerkoust est hautement toxique (DL50 < 100 mg/kg) ; celui de Oued Mellah est le moins toxique (DL50 > 500 mg/kg) et celui d'Al Massira est intermédiaire (DL50 comprise entre 100 et 500 mg/kg). Les teneurs en microcystines (hépatotoxines) déterminées par ELISA révèlent des concentrations beaucoup plus importantes pour le bloom de Lalla Takerkoust. L'utilisation de la chromatographie liquide haute performance avec détecteur à barrette photodiode, (CLHP-DBP) a permis la détection et l'identification de 2, 4 et 11 variantes de microcystines, respectivement à partir d'extraits du bloom naturel d'Al Massira, Lalla Takerkoust et Oued Mellah. Cependant, la Microcystine-LR n'a été détectée que dans les extraits d'Al Massira et de Takerkoust. L'apparition des blooms toxiques à cyanobactéries dans ces plans d'eau impose dorénavant la prise en considération des nuisances écologiques et des risques sanitaires liés à la présence des microcystines dans ces eaux.
Mots-clés:
- Cyanobactéries,
- bloom,
- Microcystis,
- microcystines,
- Maroc
Abstract
During the first part of the toxic cyanobacteria survey program carried out since 1994, Microcystis blooms which periodically occurred in Al Massira, Lalla Takerkoust and Oued Mellah reservoirs were studied. These reservoirs were located at a different hydrographic basin and have a various trophic status. The water was used for irrigation, recreational purpose and/or drinking water supply. The bloom-forming species was identified as Microcystis aeruginosa in Al Massira and Takerkoust freshwater reservoirs whereas in brackish water Oued Mellah reservoir, the bloom-forming species is Microcystis ichthyoblabe.
In complement to this ecological studies and in order to assess the potential health risk, a toxicology and toxinology of these Microcystis blooms were undertaken. The hepatotoxicity of lyophilized bloom material collected during bloom periods in 1999 was confirmed by (i. p) mice bioassay. The toxicity assessment revealed that Microcystis Takerkoust bloom was highly toxic with LD50 < 100 mg/kg whereas those from Al Massira and Oued Mellah were respectively characterized by a medium and a low toxicities.
The content of microcystins (MCYST) determined by the Enzyme-linked Immunosorbent assay (ELISA) show that MCYST content ranged between 0.37 to 496 µg/g dry weight. It appears that Takerkoust bloom contain 600 to 1300 fold more MCYST than Oued Mellah and Al Massira blooms. The isolation and identification of microcystins variants from bloom extracts were performed using the high performance liquid chromatography with photodiode array detection (HPLC-PDA). This technique provided the separation and identification of at least two microcytins variants from each bloom material. The most number of 11 microcystins were detected from Microcystis ichthyoblabe bloom of Oued Mellah. However, only two and four variants of microcystins were respectively detected from Al Massira and Takerkoust blooms. Among these variants of microcystins solely Microcystin-LR was identified according to the Mcyst-LR authentic sample from extract of Al Massira and Takerkoust blooms.
The occurrence of toxic cyanobacteria bloom in these drinking and/or recreational water reservoirs lead us to take into consideration the real health hazard which will be induced by these harmful cyanobacterial blooms.
Keywords:
- Cyanobacteria,
- hepatotoxins,
- Microcystis,
- microcystins,
- toxic bloom,
- Morocco
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