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Book (stand-alone)Marine biotoxins 2004
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This paper provides an extensive review of different aspects of five shellfish poisoning syndromes (paralytic shellfish poisoning, diarrhoeic shellfish poisoning, amnesic shellfish poisoning, neurologic shellfish poisoning, azaspiracid shellfish poisoning), as well as one fish poisoning syndrome (ciguatera fish poisoning). Various aspects of these poisoning syndromes are discussed in detail including the causative toxins produced by marine organisms, chemical structures and analytical methods of the toxins, habitat and occurrence of the toxin producing organisms, case studies and existing regulations. Based on this analysis, risk assessments are carried out for each of these different toxins, and recommendations elaborated to better manage these risks in order to reduce the harmful effect of these toxins on public health. -
Book (series)Joint FAO-IOC-IAEA technical guidance for the implementation of early warning systems for harmful algal blooms 2023
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No results found.Globally, there are 3 400 to 4 000 described species of marine microalgae but only 1 to 2 percent are considered to be harmful. Harmful algal blooms (HABs) have significant impacts on food safety and security through contamination or mass mortalities of aquatic organisms. The impacts and mass mortalities of marine species caused by harmful algae are not new and have been recorded for decades. However, there is growing concern that these events will increase due to accelerating global warming, climate change and anthropogenic activities. Indeed, if not properly controlled, aquatic products contaminated with HAB biotoxins are responsible for potentially deadly foodborne diseases and when rapidly growing, HAB consequences include reduced dissolved oxygen in the ocean, dead zones, and mass mortalities of aquatic organisms. Improving HAB forecasting is an opportunity to develop early warning systems for HAB events such as food contamination, mass mortalities, or foodborne diseases. Surveillance systems have been developed to monitor HABs in many countries; however, the lead-time or the type of data (i.e. identification at the species-level, determination of toxicity) may not be sufficient to take effective action for food safety management measures or other reasons, such as transfer of aquaculture products to other areas. Having early warning systems could help mitigate the impact of HABs and reduce the occurrence of HAB events. The Joint FAO-IOC-IAEA technical guidance for the implementation of early warning systems (EWS) for HABs will guide competent authorities and relevant institutions involved in consumer protection or environmental monitoring to implement early warning systems for HABs present in their areas (marine and brackish waters), specifically those affecting food safety or food security (benthic HABs, fish-killing HABs, pelagic toxic HABs, and cyanobacteria HABs). The guidance provides a roadmap for stakeholders on how to improve or implement an EWS for HABs and biotoxins, where appropriate. It is important to note that not all countries and institutions can implement the same level of EWS for HABs, and this guidance is intended mainly for those who seek to broaden existing early warning systems, or who are just beginning to consider putting a system in place. -
Book (stand-alone)Joint FAO/WHO Literature Review: Histamine in Salmonids 2018
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No results found.Histamine is a naturally occurring substance that is derived from the decarboxylation of amino acids. It can be present in certain foods containing free histidine. Certain bacteria produce the enzyme histidine decarboxylase during growth. This enzyme reacts with free histidine, a naturally occurring amino acid that is present in higher proportions in certain species of fish, particularly those of the Scombridae and Scomberesocidae families. The result is the formation of histamine. Histamine poisoning is often referred to as scombrotoxin fish poisoning (SFP) because of the frequent association of the illness with the consumption of spoiled scombroid fish. SFP is most commonly linked to fish that have a high level of free histidine. Histamine formation is then dependent on the time/temperature conditions under which the fish is handled. Even in fish with high levels of free histidine, the available data suggest that high histamine levels are as a result of gross time/temperature abuse during handling and storage. Compared with scombroid fish, which have free histidine levels ranging from approximately 5 000 mg/kg to 20 000 mg/kg, most species in the Salmonidae family have less than 1000 mg/kg histidine. Nevertheless some concerns have been raised about the potential risk of SPF or SPF-like illness linked to Salmonidae, considering these fish are globally traded with 80% of global production entering international trade. This report describes the methods and findings of a comprehensive literature review undertaken to assess the scientific evidence regarding the risk of histamine development in fish of the family Salmonidae and the potential impact for human health.
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