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5. Integrated analysis of marine biotoxins and contaminants of emerging concern in bivalve mollusks from Santa Catarina, Brazil

Author

Bosch-Orea, Cristina, Kleemann, Cristian Rafael, Deolindo, Carolina Turnes Pasini, Molognoni, Luciano, Dallegrave, Alexsandro, Daguer, Heitor, de Oliveira Costa, Ana Carolina, Hoff, Rodrigo Barcellos, Bosch-Orea, Cristina, Kleemann, Cristian Rafael, Deolindo, Carolina Turnes Pasini, Molognoni, Luciano, Dallegrave, Alexsandro, Daguer, Heitor, de Oliveira Costa, Ana Carolina, and Hoff, Rodrigo Barcellos

Abstract

Santa Catarina is the main producer state of oysters and mussels in Brazil, reaching 98 % of national production. To assure the safety of bivalve mollusks production, control programs of marine biotoxins (MBs) have been continuously performed. Herein, the co-occurrence of MBs and contaminants of emerging concern (CECs) in oyster and mussels from the main production sites of Santa Catarina was reported, covering 178 compounds. Samples of wild and non-cultivated oysters and mussels were also assessed. Chemometric tools were used to evaluate and optimize several sample preparation techniques such as solid-liquid, ultrasound assisted, and pressurized liquid extraction. The optimized protocol was based on ultrasound assisted extraction followed by liquid chromatography coupled to tandem mass spectrometry. The results showed the incidence of several CECs and MBs. In the case of MBs, all results were below the regulatory limits for both cultivated and non-cultivated samples. Wild mollusks have shown a higher number of compounds. Regarding CECs, the more frequent compounds were caffeine, diclofenac, meloxicam, and sertraline. Domoic acid and okadaic acid were the main toxins detected. The results highlighted the need of monitoring for MBs and the potential of oyster and mussels as sentinel organisms to risk analysis of CECs in coastal regions. To the best of our knowledge, this is the first method to describe a simultaneous sample preparation and analysis of CECs and MBs in bivalve mollusks, as well as the first report of meloxicam and florfenicol in mussels and oysters.

Published
2023

9. Evaluation of biotoxins in marine ecosystems by new analytical and biological strategies

Author

Bosch Orea, Cristina, Farré, Marinella, Núñez Burcio, Oscar, and Universitat de Barcelona. Facultat de Química

Subjects
Toxines marines, Espectrometria de masses, Toxinas marinas, Mass spectrometry, Liquid chromatography, Espectrometría de masas, Marine toxins, Cromatografía líquida, Cromatografia de líquids, Ciències Experimentals i Matemàtiques
Abstract

[eng] In this thesis is presented the development of different analytical methodologies for the analysis of marine biotoxins in seawater. The objectives were the development of the methods and the application to study the biotoxins in marine environments as well as to use it as early warning tools able to detect the presence of the biotoxins at low concentrations previous to an algal bloom development. The analytical development has been carried out evaluating the precision, accuracy, selectivity and sensibility of the methods. Due to the diverse physic-chemical properties between the different groups of toxins, three different methodologies have been created. First step of the methods consisted in a sample pre-treatment to eliminate the possible interferences in the sample that could difficult the instrumental analysis. For this reason, the biotoxins were extracted from seawater and concentrated to achieve better sensibility. Then, the seawater was filtered and the particulate and filtrate portions were separated, treated and analysed separately. The extraction of the biotoxins form the particulate was carried out with methanol and assisted with ultrasounds. For the filtrate portion solid phase extraction was employed at different conditions conditioned by the different groups of biotoxins. The analysis of the extracts was performed by high performance liquid chromatography coupled to high resolution mass spectrometry through the ionization by electrospray. The chromatographic separation was carried out by hydrophilic interaction and reversed phase modes. The acquisition mode for the mass spectrometry was the combination of full scan at high resolution with tandem mass. After being validated, the three methodologies were applied to study the occurrence of the different biotoxins in the Mediterranean Sea. In the Catalan’s littoral, okadaic acid was found in concentrations ranging from 2 ng/L to 9.5 µg/L. Domoic acid was also present in the study of Ebro delta, reaching the highest concentration of 69.5 ng/L during summer. Also, the most hydrophilic marine toxins were studied in Mar Menor, Murcia, but any of the toxins was detected. Finally, one of the methods was used to validate an immunoassay capable to detect and quantify five pollutants in seawater, being one of them domoic acid., `spa] La tesis doctoral presenta el desarrollo de diversas metodologías analíticas para el análisis de biotoxinas marinas en agua de mar. Las técnicas utilizadas son la cromatografía líquida de alta eficacia acoplada a la espectrometría de masas de alta resolución. El objetivo de estos métodos de análisis es su utilización en el estudio de las biotoxinas marinas en el medio marino, así como su aplicación para la temprana detección de estos compuestos cuando están a bajas concentraciones, con el fin de anticiparse a la posible formación de eventos de floraciones algares nocivas donde la concentración de las biotoxinas podría ser muy elevada y provocar impactos negativos en el ecosistema y en las actividades de maricultura. El desarrollo analítico se ha realizado evaluando la precisión, exactitud, selectividad y sensibilidad de los métodos. Dado que las propiedades físico-químicas de los diferentes grupos de biotoxinas son muy diversas, se han tenido de desarrollar tres metodologías diferentes. La primera etapa para todas consiste en un tratamiento de muestra ya que es esencial eliminar posibles interferencias en la muestra para su posterior análisis mediante las dichas técnicas instrumentales, por lo que las biotoxinas fueron extraídas del agua de mar y concentradas. Primeramente, se filtra el agua de mar y se separa la porción de materia en suspensión y la parte del filtrado para ser tratadas y analizadas por separado. La extracción de las biotoxinas de la porción de materia en suspensión se realiza con metanol y se asiste con ultrasonidos. La fracción del filtrado se somete a una extracción en fase sólida en diferentes condiciones dependiendo del grupo de toxinas. El análisis de los extractos, se realiza mediante cromatografía liquida de alta eficacia acoplada a espectrometría de masas de alta resolución mediante la ionización por electroespray. La separación de los compuestos más polares, se realizó mediante cromatografía líquida de interacción hidrofílica mientras que para los más apolares fue de tipo fase inversa. La adquisición utilizada en la espectrometría de masas fue mediante la combinación de un barrido completo en alta resolución y la fragmentación de los iones precursores, tipo tándem de masas, para cada una de las toxinas a resolución más baja. Una vez validadas, las tres metodologías se emplearon en el estudio de biotoxinas en el mar Mediterráneo, concretamente en el litoral catalán y murciano. Las biotoxinas más apolares se investigaron a lo largo de la costa catalana, mediante muestras recolectadas en playas públicas y puestos deportivos en diferentes localidades. El 88 % de esas muestras había una de las toxinas más frecuentemente hallada en el mar Mediterráneo, el ácido okadaico, el cual estaba en rangos de concentración de entre 2 ng/L y 9,5 µg/L. Por otro lado, el ácido domoico, se estudió en la zona de la desembocadura del rio Ebro, que consta de una zona de humedales y dos bahías donde se llevan a cabo actividades de maricultura. Su presencia destacó en las bahías especialmente en las muestras colectadas en verano, aunque la concentración más alta llegó a los 69,5 ng/L. Finalmente, las biotoxinas más polares se analizaron en aguas de la laguna salada del Mar Menor, en Murcia. Sin embargo, no se detectó la presencia de ninguna. Por otro lado, una de los métodos se utilizó para la validación de un inmunoensayo previamente desarrollado, capaz de detectar y cuantificar cinco grupos de contaminantes en agua de mar, siendo uno de ellos una biotoxina, el ácido domoico. Al immunoensayo se le añadió una etapa de tratamiento de muestra en que se pudieron concentrar los diferentes compuestos y conseguir así una detectabilidad a concentraciones muy bajas, del rango de los ng/L. Para concluir, se podría decir que los métodos desarrollados proporcionan mucha sensibilidad y selectividad en el análisis de biotoxinas marinas en agua de mar y que además, gracias a la alta resolución de las técnicas instrumentales, se podría estudiar la caracterización de compuestos nuevos.

Published
2021

10. Analysis of highly polar marine biotoxins in seawater by hydrophilic interaction liquid chromatography coupled to high resolution mass spectrometry

Author

Ministerio de Economía y Competitividad (España), Bosch-Orea, Cristina, Sanchís, Josep, Farré, Marinella, Ministerio de Economía y Competitividad (España), Bosch-Orea, Cristina, Sanchís, Josep, and Farré, Marinella

Abstract

The monitoring of marine biotoxins (MBTs) in seawater is presented as an alternative strategy to determine their presence and the possible implications in the ecosystem. For this, an analytical method based on hydrophilic interaction liquid chromatography coupled to high resolution mass spectrometry (HILIC-HRMS) has been developed to identify and quantify some hydrophilic MBTs in seawater: saxitoxin (STX), decarbamoyl-saxitoxin (dcSTX), neosaxitoxin (NeoSTX), gonaytoxin-2,3 (GTX-2,3) and tetrodotoxin (TTX), which are responsible of gastrointestinal and central nervous system distress in humans when are consumed via seafood. Particulate and filtrate portion were analyzed separately in order to characterize the extracellular toxins dissolved in the water and those present in the particulate. Ultrasound assisted solid-liquid extraction with methanol was used for the isolation of the MBTs from particulate and solid phase extraction using silica cartridges for the filtrate. Extraction procedure was the most critical step during the analytical method due to the high polarity of the toxins and the absolute recoveries obtained ranged from 15 to 47 % in the filtrate and 26 to 71 % in the particulate portions. Limits of detection of the method ranged from 0.5 to 5 µg/L in the filtrate portion and from 3.1 to 62 µg/L in the particulate portion.•Saxitoxins and tetrodotoxins have been analysed by using HILIC-HRMS.•UAE with methanol and SPE with silica cartridges have been employed for the extractions of the polar MBTs from seawater.

Published
2021

11. Ultra-trace determination of domoic acid in the Ebro Delta estuary by SPE-HILIC-HRMS

Author

Ministerio de Economía y Competitividad (España), Barceló, Damià [0000-0002-8873-0491], Farrè, Marinella [0000-0001-8391-6257], Bosch-Orea, Cristina, Sanchis, Josep, Barceló, Damià, Farré, Marinella, Ministerio de Economía y Competitividad (España), Barceló, Damià [0000-0002-8873-0491], Farrè, Marinella [0000-0001-8391-6257], Bosch-Orea, Cristina, Sanchis, Josep, Barceló, Damià, and Farré, Marinella

Abstract

Marine phytoplankton, such as diatoms, are responsible for a considerable part of carbon fixation and form the basis of the marine food web. However, different factors, such as eutrophication, can affect their population growth and induce the production of toxins. During the last few years, the presence of domoic acid (DA) has increased worldwide in coastal areas. Its toxic properties and capacity to bioaccumulate through the food chain have reinforced the need for developing monitoring strategies to ensure the safety and quality of marine resources. In this work, a highly sensitive analytical method has been developed to be used as an early detection and quantification tool for DA in seawater. The method is based on a sample pre-treatment step by solid-phase extraction (SPE) and an instrumental analysis by hydrophilic interaction liquid chromatography coupled with high-resolution mass spectrometry (HILIC-HRMS). The method has been validated, showing good results in terms of sensitivity and repeatability. Limits of detection and quantification were 0.25 and 0.75 ng L−1 respectively, and acceptable recovery was in the range of 48–69%. Then, the method was applied to study a real scenario in the Ebro Delta where mariculture activities are relevant for the economy of the area. A total of 34 samples were collected in different campaigns during three seasons covering the two main delta bays (Alfacs and Fangar) and four lagoons (La Tancada, Illa de Buda, l'Encanyissada and Canal Vell). 65% of the samples had concentrations of DA at the ng L−1 level, ranging from 0.90 to 69.6 ng L−1. The highest levels were found in samples from Alfacs bay and the summer campaign. In the case of the lagoons, DA was detected only in La Tancada at 8.78 ng L−1 in the winter campaign. This study proves the prevalence of DA in highly eutrophic areas, during all seasons, often at trace level concentrations.

Published
2020

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