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Variability in Paralytic Shellfish Toxin Profiles and Dinoflagellate Diversity in Mussels and Seawater Collected during Spring in Korean Coastal Seawateropen access

Authors
Choi, Dong HanYang, WonseokKim, Young-EunPark, Bum SooSung, JiyeonChoi, JaehoRho, Jung-RaeHan, Young SeokLee, Yeonjung
Issue Date
Aug-2024
Publisher
Multidisciplinary Digital Publishing Institute (MDPI)
Keywords
Alexandrium species; dinoflagellate diversity; microalgae; mussel; paralytic shellfish poisoning (PSP); paralytic shellfish toxins (PST)
Citation
Toxins, v.16, no.8, pp 1 - 14
Pages
14
Indexed
SCIE
SCOPUS
Journal Title
Toxins
Volume
16
Number
8
Start Page
1
End Page
14
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195435
DOI
10.3390/toxins16080338
ISSN
2072-6651
2072-6651
Abstract
Paralytic shellfish toxins (PSTs) are potent neurotoxins produced by certain microalgae, particularly dinoflagellates, and they can accumulate in shellfish in coastal seawater and thus pose significant health risks to humans. To explore the relationship between toxicity and PST profiles in seawater and mussels, the spatiotemporal variations in PST concentrations and profiles were investigated along the southern coast of Korea under peak PST levels during spring. Seawater and mussel samples were collected biweekly from multiple stations, and the toxin concentrations in the samples were measured. Moreover, the dinoflagellate community composition was analyzed using next-generation sequencing to identify potential PST-producing species. The PST concentrations and toxin profiles showed substantial spatiotemporal variability, with GTX1 and GTX4 representing the dominant toxins in both samples, and C1/2 tending to be higher in seawater. Alexandrium species were identified as the primary sources of PSTs. Environmental factors such as water temperature and salinity influenced PST production. This study demonstrates that variability in the amount and composition of PSTs is due to intricate ecological interactions. To mitigate shellfish poisoning, continuous monitoring must be conducted to gain a deeper understanding of these interactions.
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