Field and mesocosm trials on passive sampling for the study of adsorption and desorption behaviour of lipophilic toxins with a focus on OA and DTX1

Fux, Elie; Marcaillou, Christiane; Mondeguer, Florence; Biré, Ronel; Heß, Philipp

doi:10.1016/j.hal.2007.12.008

Cited by 61 publications

(81 citation statements)

References 21 publications

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“…We have demonstrated the successful application of HP20 for detection of the hydrophilic toxins DA and PST in the field, and previous studies have demonstrated its applicability for lipophilic toxins (Fux et al 2009;Fux et al 2008;Mackenzie et al 2004;Pizarro et al 2008aPizarro et al , 2008bRundberget et al 2007Rundberget et al , 2009Takahashi et al 2007;Turrell et al 2007). HP20 demonstrates characteristics that perhaps most closely imitate those of a mussel, i.e., a relatively low rate of accumulation (19% over 7 d) and a relatively higher rate of desorption.…”

Section: ; Aoac International 2006)mentioning

confidence: 67%

“…Extraction of a field SPATT sample is comparatively lower in time and labor requirements. The SPATT extraction described here includes a three-step series of column elutions that can be completed within 10-30 min, yielding extracts that are available for immediate analysis of a single toxin or of multiple toxins, as demonstrated (e.g., DA or DA plus PST), We note that others have already demonstrated the ability to use HP20 for a suite of marine toxins (Fux et al 2008(Fux et al , 2009Mackenzie et al 2004;Pizarro et al 2008aPizarro et al , 2008bRundberget et al 2007Rundberget et al , 2009Takahashi et al 2007). The resin and extract are reasonably stable when stored at -80°C, providing the ability to archive samples for further analysis at a later time.…”

Section: Discussionmentioning

confidence: 99%

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Application of Solid Phase Adsorption Toxin Tracking (SPATT) for field detection of the hydrophilic phycotoxins domoic acid and saxitoxin in coastal California

Lane

Roddam

Langlois

et al. 2010

Limnology & Ocean Methods

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Recent publications have identified the analysis of phycotoxins in sentinel shellfish as a problematic tool for environmental monitoring purposes. Domoic acid (DA), a neurotoxin produced by some species of the diatom Pseudo‐nitzschia, can remain undetected in sentinel shellfish stocks during toxic blooms and subsequent marine bird and mammal mass mortality events. Solid Phase Adsorption Toxin Tracking (SPATT) has previously been described for monitoring of lipophilic toxins, whereas resin‐based sampling methods are routinely employed for many other environmental contaminants. Here, we evaluate the applicability of SPATT for monitoring the hydrophilic phycotoxin DA and demonstrate that the same field sampling methods can be used for the detection of saxitoxins. We present laboratory‐based adsorption profiles characterizing the performance of SPATT with four resin types: (1) HP20, (2) SP700, (3) SP207, and (4) SP207SS. We present results from 17 mo of approximately weekly SPATT deployments in Monterey Bay, California (USA); this period included two significant toxigenic Pseudo‐nitzschia bloom events as well as low‐level saxitoxin events. SPATT signaled the presence of DA 3 and 7 weeks before the recognition of bloom conditions by traditional monitoring techniques (7 and 8 weeks before shellfish toxicity). Under ambient (non‐bloom) conditions, all resins detected DA when its presence was not apparent from traditional monitoring, highlighting the ubiquity of low level or transient toxin events in the environment. This study is the first to evaluate SPATT deployments in U.S. waters, and the first to demonstrate the applicability of SPATT toward detection of hydrophilic phycotoxins in the field.

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Section: ; Aoac International 2006)mentioning

confidence: 67%

Section: Discussionmentioning

confidence: 99%

Application of Solid Phase Adsorption Toxin Tracking (SPATT) for field detection of the hydrophilic phycotoxins domoic acid and saxitoxin in coastal California

Lane

Roddam

Langlois

et al. 2010

Limnology & Ocean Methods

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“…23, 255-266 (2010) Table 2. level. These amounts of adsorbed toxin are low in comparison with the adsorption capability of polymeric resin for OA (Fux et al 2008). …”

Section: Toxin Detection In Biodeposits and In The Passive Adsorptionmentioning

confidence: 83%

“…Three SPATT bags were removed four times during the experiment (on the sixth, tenth, fifteenth and twentieth days). The efficiency of this technique, inspired by a study in New Zealand , has previously been established (Fux et al 2008). Sample collection and processing.…”

Section: Methodsmentioning

confidence: 99%

Effect of food supply on the detoxification in the blue mussel,Mytilus edulis, contaminated by diarrhetic shellfish toxins

Marcaillou

Haure

Mondeguer

et al. 2010

Aquat. Living Resour.

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-The objective of this study was to identify a possible effect of food on the acceleration of decontamination in blue mussels, Mytilus edulis, containing diarrhetic toxins belonging to the okadaic acid (OA) structural group. An experimental protocol was designed to describe and compare the decontamination kinetics and detoxification rates of naturally OA-contaminated mussels that had either received or not received food for three weeks. The protocol was applied in two trials (in June 2006 and June 2007, called Ker06 and Ker07), conducted one year apart on samples of mussels collected in the same area, at the same season. Okadaic acid (OA), the main lipophilic toxin produced by the toxic alga Dinophysis acuminata, was analysed over the course of the decontamination, in hydrolysed (total OA) and non hydrolysed (free OA) digestive gland extracts, in order to estimate acyl-esters (7-O-acyl-ester derivatives of OA) concentrations. OA analyses were also made for toxin presence in biodeposits and in the aqueous phase. Bivalve physiological status was evaluated by biomass measurements (dry weight of flesh) and two biochemical compounds (total lipid and glycogen concentrations). Measured physiological parameters showed that mussels did not suffer under experimental conditions. Both trials showed that the food accelerated the elimination of free and total OA. This effect cannot be attributed to a dilution of the toxin in the tissue, as results expressed in toxin burden led to the same conclusion. The kinetic models of decontamination differed between the two experiments: the model was linear for Ker06, provided that the values corresponding to the first two days were discarded, whereas data fitted a decreasing exponential curve better in Ker07. Detoxification rates increased as the food supply increased. After three weeks of experimentation, the detoxification rates for total OA in Ker06 and Ker07 were 52 and 61%, respectively, in unfed mussels and 90 and 89% in fed mussels (with the highest level in Ker07). Comparisons between the free OA and esters showed that detoxification rate was higher for free OA than for esters, whatever the level of food supply. The results of this study suggest that food increase probably accelerates elimination of OA and OA-esters but the latter are eliminated at a lower speed. Key words:Mussel / Feeding / Digestive gland / Depuration / Okadaic acid / Acyl esters / Marine lipophilic biotoxins / Mass spectrometry Résumé -L'objectif de cette étude est de mettre en évidence un effet éventuel de la nourriture sur la vitesse de décontamination de moules, Mytilus edulis, contenant des toxines diarrhéiques de la famille de l'acide okadaïque (OA). Un protocole expérimental est conçu pour décrire les cinétiques durant 3 semaines d'expérience et comparer les taux de détoxication d'une part chez des moules nourries et d'autre part chez des moules maintenues à jeun. Ce protocole est appliqué sur des moules prélevées au même endroit, à la même saison, en 2006et 2007. L'acide okadaïque, principale ...

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“…Flynn et al 1996, Wang et al 2002, Kim et al 2005. For dinoflagellates that produce hydrophobic toxins associated with DSP (diarrhoeic shellfish poisoning), toxins dissolved in the water are measured with the so-called 'SPATT (solid phase adsorption toxin tracking) bags' filled with a polymeric resin that adsorbs hydrophobic compounds (MacKenzie et al 2004, Fux et al 2008, 2009. During DSP-producing blooms, significant amounts of DSP toxins are dissolved in the seawater (MacKenzie et al 2004).…”

Section: Introductionmentioning

confidence: 99%

Toxin profile change in vegetative cells and pellicle cysts of Alexandrium fundyense after gut passage in the eastern oyster Crassostrea virginica

Smith¹,

Persson²,

Selander³

et al. 2011

Aquat. Biol.

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Vegetative cells and pellicle cysts of the toxic dinoflagellate Alexandrium fundyense Balech were fed to the eastern oyster Crassostrea virginica Gmelin under controlled conditions. Paralytic shellfish toxins (PSTs) were measured in vegetative cells and pellicle cysts prior to feeding and directly after passage through the oyster alimentary canal and defecation as intact cells. Oysters fed with vegetative cells and those fed with pellicle cysts accumulated toxins. One experimental treatment tested for direct uptake of toxins from the water (oysters and A. fundyense cells were separated by a screen); PSTs were not accumulated from the water by the oysters. There were no significant changes in total, per-cell toxicity after passage through the oyster alimentary canal, suggesting limited transfer of toxins from intact cells to the oysters. However, there were statistically significant changes in the toxin composition of cells following gut passage. Vegetative cells and pellicle cysts from feces had increased amounts of saxitoxin (STX) and decreased amounts of gonyautoxin 4 (GTX4) per cell, compared to amounts prior to gut passage. Following gut passage, pellicle cysts showed better survival in the feces than vegetative cells, which is consistent with the view of pelliclecyst formation as a successful survival strategy against adverse conditions. KEY WORDS: Alexandrium fundyense · Crassostrea virginica · Dinoflagellate · Toxin · PST · Pellicle cyst Resale or republication not permitted without written consent of the publisher

show abstract

Field and mesocosm trials on passive sampling for the study of adsorption and desorption behaviour of lipophilic toxins with a focus on OA and DTX1

Cited by 61 publications

References 21 publications

Application of Solid Phase Adsorption Toxin Tracking (SPATT) for field detection of the hydrophilic phycotoxins domoic acid and saxitoxin in coastal California

Application of Solid Phase Adsorption Toxin Tracking (SPATT) for field detection of the hydrophilic phycotoxins domoic acid and saxitoxin in coastal California

Effect of food supply on the detoxification in the blue mussel,Mytilus edulis, contaminated by diarrhetic shellfish toxins

Toxin profile change in vegetative cells and pellicle cysts of Alexandrium fundyense after gut passage in the eastern oyster Crassostrea virginica

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