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2. An investigation on bloom dynamics of Alexandrium catenella and A. pacificum and toxin accumulation in shellfish along the coast of Qinhuangdao, China

Author

Wen-Jiao Tang, Zhuo-Ru Lin, Qing-Chun Zhang, Hui-Xia Geng, Hong-Xiao Sun, Xue-Xi Tang, and Ren-Cheng Yu

Subjects
Tandem Mass Spectrometry, Dinoflagellida, Humans, Shellfish Poisoning, Aquatic Science, Oceanography, Pollution, Chromatography, Liquid, Shellfish, Toxins, Biological
Abstract

The dinoflagellate genus Alexandrium comprises most of the toxic bloom-forming species producing paralytic shellfish toxins (PSTs) in the sea. Recently, repeated paralytic shellfish poisoning episodes have been recorded in Qinhuangdao located at the west coast of the Bohai Sea. To elucidate the relationship between toxic Alexandrium blooms and the poisoning episodes, a year-round investigation was carried out in this region from July 2020 to July 2021. Two qPCR assays were used to detect A. catenella and A. pacificum, and LC-MS/MS was applied to analyze PSTs in phytoplankton and shellfish samples. The blooms of A. catenella and A. pacificum were found in April and July, respectively, and PST content in three bivalves exhibited notable increase following the bloom of A. catenella. The results revealed bloom dynamics of the two toxic Alexandrium species in the Bohai Sea for the first time, and further confirmed A. catenella as the causative agent of poisoning episodes.

Published
2022

3. Toxin production of dinoflagellate Gymnodinium catenatum isolated from the East China Sea

Author

Zhuo-Ru, Lin, Hui-Xia, Geng, Qing-Chun, Zhang, Zhen-Fan, Chen, Li, Dai, and Ren-Cheng, Yu

Subjects
Tandem Mass Spectrometry, Dinoflagellida, Shellfish Poisoning, Marine Toxins, Plant Science, Aquatic Science, Chromatography, High Pressure Liquid
Abstract

Dinoflagellate Gymnodinium catenatum is an important producer of paralytic shellfish toxins (PSTs), including a novel group of hydroxybenzoate derivatives named GC toxins. In the East China Sea, G. catenatum has been considered as the causative agent for several paralytic shellfish poisoning (PSP) episodes, yet the knowledge on their toxin production was still quite limited. In this study, toxins produced by a strain of G. catenatum (MEL11) isolated from the East China Sea were determined, using high performance liquid chromatography coupled with tandem mass spectrometry (HPLC-MS/MS). Changes of toxin profile in the stain MEL11 in response to nutrient and temperature variations were also examined. A total of 11 PST components dominated by hydroxybenzoate analogs and N-sulfocarbamoyl toxins were detected, which was different from other G. catenatum strains previously established in the East China Sea in the presence of GC5 and the lack of dcGTX23. Cellular toxin composition and content of the strain had no apparent change within a range of temperature from 20°C to 26°C. In contrast, nutrient limitation and nitrogen source had notable impacts on toxin production. The molar percentage of GC toxins decreased remarkably at the stationary growth phase under nutrient-deprived conditions of both nitrogen (N) and phosphorus (P). The replacement of nitrate with ammonium as the source of N significantly promoted PST production by G. catenatum. The study revealed the potential diversity of toxin profiles of G. catenatum in the East China Sea, and highlighted the effects of nutrients on production of GC toxins by G. catenatum.

Published
2022

4. The dinoflagellate Alexandrium catenella producing only carbamate toxins may account for the seafood poisonings in Qinhuangdao, China

Author

Mingjiang Zhou, Rencheng Yu, Qingchun Zhang, Tian Yan, Wen-Jiao Tang, Yang Liu, Zhuo-Ru Lin, Li Dai, Fan-Zhou Kong, Hui-Xia Geng, and Zhen-Fan Chen

Subjects
0106 biological sciences, Alexandrium catenella, China, biology, 010604 marine biology & hydrobiology, Neosaxitoxin, Dinoflagellate, Zoology, Poison control, Plant Science, 010501 environmental sciences, Aquatic Science, biology.organism_classification, medicine.disease, 01 natural sciences, Shellfish poisoning, Seafood, Phytoplankton, medicine, Dinoflagellida, Shellfish Poisoning, Carbamates, Paralytic shellfish poisoning, Shellfish, 0105 earth and related environmental sciences
Abstract

An outbreak of paralytic shellfish poisoning, recorded in April 2016 in Qinhuangdao China, was suspected to be caused by a toxic species in genus Alexandrium. Shortly after the poisoning outbreak, shellfish and net-concentrated phytoplankton samples were collected from the Bohai Sea, and analysed using high performance liquid chromatography coupled with fluorescence detection. Paralytic shellfish toxins (PSTs) were detected in both phytoplankton and shellfish samples, with similar toxin profiles dominated by carbamate toxins. High throughput sequencing data for phytoplankton samples collected previously in the coastal waters of Qinhuangdao were then analysed, and 8 operational taxonomic units (OTUs) were assigned to Alexandrium affine, A. andersonii/A. ostenfeldii, A. catenella, A. fraterculus, A. hiranoi/A. pseudogonyaulax, A. margalefii, A. pacificum and A. pohangense, among which A. catenella, A. pacificum and A. ostenfeldii could be potential producers of PSTs. During a cruise in 2019, three isolates of Alexandrium were established by cyst germination, and identified as A. catenella based on the sequences of the 28S ribosomal RNA gene (28S rDNA) D1−D2 region. Interestingly, all the three strains had the same toxin profile consisting of gonyautoxins 1, 3, 4 (GTX1, 3, 4) and neosaxitoxin (NEO). The toxin profile is similar to those of phytoplankton samples collected previously in the coastal waters of Qinhuangdao, but remarkably different from the general toxin profile of A. catenella dominated by N-sulfocarbamoyl toxins C1−2 in the Bohai Sea and the Yellow Sea. The results suggest that A. catenella is most likely to be the causative species of the poisoning outbreak in Qinhuangdao. As far as we know, this is the first report of A. catenella in the Bohai Sea producing PSTs dominated by high potent gonyautoxins GTX1−4. Occurrence of the highly toxic A. catenella will increase the risk of paralytic shellfish poisoning, which necessitates in-depth mechanism studies and increasing monitoring efforts.

Published
2020

5. Sediment as a Potential Pool for Lipophilic Marine Phycotoxins with the Case Study of Daya Bay of China

Author

Zhuo-Ru Lin, Peng Zhang, Yanyan Zhou, Li Zhang, Lizhao Chen, Rencheng Yu, Yang Liu, and Sen Du

Subjects
0106 biological sciences, China, Daya bay, Pharmaceutical Science, 010501 environmental sciences, Spatial distribution, 01 natural sciences, Article, Food chain, lipophilic marine phycotoxins, Drug Discovery, Daya Bay, toxin composition, liquid chromatography-tandem mass spectrometry, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), lcsh:QH301-705.5, 0105 earth and related environmental sciences, Pollutant, spatial distribution, 010604 marine biology & hydrobiology, fungi, Sediment, food and beverages, lcsh:Biology (General), sediment, Bays, Benthic zone, Environmental chemistry, Environmental science, Environmental Pollutants, Marine Toxins, Water Pollutants, Chemical, Environmental Monitoring
Abstract

Marine sediments can reserve many environmental pollutants. Lipophilic marine phycotoxins (LMPs) are natural toxic substances widespread in the marine environment, however, evidence of their existence in sediment is scarce. In the present study, in order to explore the occurrence and distribution characteristics of LMPs in sediment, surface sediment samples collected from a tropical area of Daya Bay (DYB) at different seasons, were analyzed using liquid chromatography with tandem mass spectrometry (LC-MS/MS). According to the results, up to six toxin compounds were detected in sediment samples from DYB, OA and DTX1 had the highest levels, followed by PTX2, homo-YTX, AZA2, and GYM. Although AZA2 and GYM were found in most of the sediment, OA, DTX1, homo-YTX, and PTX2 were the predominant toxin compounds, and PTX2 was the most ubiquitous toxin in sediment. The spatial distribution of LMP components in the sediment fluctuated with sampling times, partially according to the physical&ndash, chemical parameters of the sediment. There are likely several sources for LMPs existing in surface sediments, but it is difficult to determine contributions of a specific toxin-source in the sediment. Therefore, marine sediments may be a toxin reservoir for LMPs accumulation in benthic organisms via food chains.

Published
2019

6. Spatiotemporal variation of paralytic shellfish toxins in the sea area adjacent to the Changjiang River estuary

Author

Yue Zhao, Mingjiang Zhou, Rencheng Yu, Zheng-Xi Zhou, Hui-Xia Geng, Zhuo-Ru Lin, Li Dai, Zhen-Fan Chen, Yang Liu, and Fan-Zhou Kong

Subjects
010504 meteorology & atmospheric sciences, Harmful Algal Bloom, Health, Toxicology and Mutagenesis, 010501 environmental sciences, Toxicology, 01 natural sciences, Algal bloom, Rivers, Phytoplankton, medicine, Humans, Shellfish, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, biology, fungi, Dinoflagellate, Estuary, General Medicine, biology.organism_classification, medicine.disease, Pollution, Shellfish poisoning, Oceanography, Nutrient pollution, Dinoflagellida, Environmental science, Seawater, Estuaries, Eutrophication
Abstract

The Changjiang (Yangtze River) River estuary (CRE) and its adjacent coastal waters is a notable region for nutrient pollution, which results in severe problems of coastal eutrophication and harmful algal blooms (HABs). The occurrence of HABs, particularly those of dinoflagellate Alexandrium spp. capable of producing paralytic shellfish toxins (PSTs), has an increasing risk of contaminating seafood and poisoning human-beings. The investigation of PSTs, however, is often hampered by the relatively low abundance of Alexandrium spp. present in seawater. In this study, a monitoring strategy of PSTs using net-concentrated phytoplankton from a large volume of seawater was employed to examine spatiotemporal variations of PSTs in the CRE and its adjacent waters every month from February to September in 2015. Toxins in concentrated phytoplankton samples were analyzed using high-performance liquid chromatography coupled with a fluorescence detector (HPLC-FLD). The results showed that PSTs could be detected in phytoplankton samples during the sampling stage in the CRE and its adjacent waters. Toxin content increased gradually from February to May, reached the peak in June, and then decreased rapidly from July to September. The maximum value of PST content was 215 nmol m−3 in June. Low-potency toxins N-sulfocarbamoyl toxins 1/2 (C1/2) were the most dominant components of PST in phytoplankton samples from February to June in 2015, while high-potency gonyautoxin 4 (GTX4) became the dominant component from July to September. Toxins were mainly detected from three regions, the sea area north to the CRE, the sea area east to the CRE, and sea area near Zhoushan Island south to the CRE. Based on the results of this study, it can be inferred that the three regions around the CRE in May and June is of high risk for PST contamination and seafood poisoning.

Published
2020

7. Occurrence and distribution of lipophilic phycotoxins in a subtropical bay of the South China Sea

Author

Yang Liu, Zhuo-Ru Lin, Peng Zhang, Rencheng Yu, Sen Du, Lizhao Chen, Yanyan Zhou, and Li Zhang

Subjects
China, Environmental Engineering, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, Hydrocarbons, Cyclic, Mollusk Venoms, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, Algae, Tandem Mass Spectrometry, Okadaic Acid, Phytoplankton, Animals, Humans, Environmental Chemistry, Seawater, Spiro Compounds, Furans, Shellfish, Pyrans, 0105 earth and related environmental sciences, biology, Oxocins, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, Okadaic acid, biology.organism_classification, Pollution, 020801 environmental engineering, Bays, Seafood, chemistry, Bioaccumulation, Environmental chemistry, Environmental science, Marine Toxins, Imines, Macrolides, Yessotoxin, Heterocyclic Compounds, 3-Ring, Bay, Chromatography, Liquid, Environmental Monitoring
Abstract

Lipophilic phycotoxins (LPs) pose significant threats to the health of marine mammals, birds, and human beings. The distribution and components of lipophilic phycotoxins contamination in subtropical area in the South China Sea are rarely known. This study systematically assessed the composition, concentration, and distribution of typical LPs in a typical subtropical bay, Daya Bay located in the South China Sea. Phytoplankton, seawater, suspended particulate matter, sediments, and shellfish samples were simultaneously collected from Daya Bay, and analyzed using liquid chromatography with tandem mass spectrometry. Okadaic acid, dinophysistoxins-1, pectenotoxins-2, yessotoxin and its derivate homo-yessotoxin, azaspiracid-2, 13-desmethyl spirolide C and gymnodimine were widely spread in multiple media in Daya Bay. Pectenotoxins-2 was the most widely distributed and highly concentrated toxin in the marine environments of Daya Bay. Toxin homo-yessotoxin was only detected in sediments and shellfish samples, and none of yessotoxin group components were found in phytoplankton and seawater, indicating that sediments were the major source of yessotoxin in shellfish. The study strongly demonstrated the lipophilic phycotoxins accumulated in shellfish are multisource, not only derived from toxigenic algae, but also from other marine media containing lipophilic phycotoxins. This study systematically distinguished multi-pathways of bioaccumulation of LPs in the marine shellfish.

Published
2020

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