AI Article Synopsis
- This study explores the growing issue of cyanotoxin contamination in water systems, highlighting the diversity of these toxins and their potential health risks, including increased cancer risk.
- Recent advancements have enabled the identification of previously unknown cyanotoxins, prompting the need for a thorough evaluation of various toxin types.
- The study used high-resolution mass spectrometry to analyze water samples from Shanghai, finding a critical link between the concentration of cyanobacterial metabolites and toxicity, which calls for improved water quality management practices.
Article Abstract
This study addresses the increasing concern regarding cyanotoxin contamination of water bodies, highlighting the diversity of these toxins and their potential health implications. Cyanobacteria, which are prevalent in aquatic environments, produce toxic metabolites, raising concerns regarding human exposure and associated health risks, including a potential increase in cancer risk. Although existing research has primarily focused on well-known cyanotoxins, recent technological advancements have revealed numerous unknown cyanotoxins, necessitating a comprehensive assessment of multiple toxin categories. To enhance the cyanotoxin databases, we optimized the CyanoMetDB cyanobacterial secondary metabolites database by incorporating secondary fragmentation patterns using the Mass Frontier fragmentation data prediction software. Water samples from diverse locations in Shanghai were analyzed using high-resolution mass spectrometry. Subsequently, the toxicity of cyanobacterial metabolites in the water samples was examined through acute toxicity assays using the crustacean Thamnocephalus platyurus. After 24 h of exposure, the semi-lethal concentrations (LC) of the water samples ranged from 0.31 mg L to 1.78 mg L (MC-LR equivalent concentration). Our findings revealed a critical correlation between the overall concentration of cyanobacterial metabolites and toxicity. The robust framework and insights of this study underscore the need for an inclusive approach to water quality management, emphasizing continuous efforts to refine detection methods and comprehend the broader ecological impact of cyanobacterial blooms on aquatic ecosystems.
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| http://dx.doi.org/10.1016/j.scitotenv.2024.173023 | DOI Listing |
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