用不同盐化比例的海盐加工的鱼干中微塑料的积累动态和风险评估

IF 5.4 Q2 ENGINEERING, ENVIRONMENTAL Journal of hazardous materials advances Pub Date : 2024-02-24 DOI:10.1016/j.hazadv.2024.100415
Sandhiya Venkatesh , Bejawada Chanikya Naidu , Suguna Palanisamy , Soibam Ngasotter , S.S. Shaju , Layana Porayil , Amjad Balange , Binaya Bhusan Nayak , K. A. Martin Xavier
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引用次数: 0

摘要

全球粮食安全,尤其是南亚和印度等低收入沿海地区的粮食安全,依赖于海产品的消费,包括新鲜海产品和干海产品。海产品包括小型中上层鱼类、干制品种和盐腌鱼类,在加工过程中会吸收微/纳米塑料等异种生物及其相关污染物。造成这种情况的因素包括加工条件、鱼类肌肉的生化状态以及所使用的添加剂。本研究调查了腌制对腌鱼中微塑料(MPs)污染的影响,探索了在受控条件下腌制、肌肉生化和 MPs 之间错综复杂的关系。用于腌制的商用日晒盐平均含有 40.72 ± 5.97 MPs/g。腌鱼中的微塑料丰度明显下降,从 65.7 ± 6 降至 3.36 ± 1.5 MPs/g,盐鱼比降至 1:10。腌鱼和腌盐中 MPs 的形态、大小、颜色和聚合物类型等特征呈现出相似的趋势。蛋白质含量与 MPs 呈较强的负相关,而脂质含量与 MPs 存在的相关性较弱。各种 MPs 指数(如污染因子、负荷指数和聚合物诱发风险指数)强调了盐在增强腌鱼污染、给消费者带来安全风险方面的重要作用。鉴于在理解加工海产品对微塑料的吸收(食品安全的一个重要方面)方面开展的研究数量有限,本研究旨在阐明鱼类生物化学与微塑料特性之间错综复杂的相互作用。此外,本研究还探讨了盐在这一动态变化中的作用,强调了盐对食品安全和人类健康的影响。
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Microplastic accumulation dynamics and risk assessment in dried fish processed with sea salt at different salting ratios

Global food security, particularly in South Asia and low-income coastal regions like India, relies on seafood consumption, both fresh and dried. Seafood, encompassing small pelagic fish, dried varieties, and salt-cured fish, absorbs xenobiotics like micro/nanoplastics and their associated contaminants during processing. This occurs due to factors such as processing conditions, the status of fish muscle biochemistry, and the additives used, presenting largely unexplored health risks that have received minimal study attention. This study investigates the impact of salting on microplastics (MPs) contamination in cured fish, exploring the intricate relationship between salting, muscle biochemistry, and MPs under controlled conditions. Commercial solar salt used for curing contained an average of 40.72 ± 5.97 MPs/g. Microplastic abundance in cured fish decreased significantly, from 65.7 ± 6 to 3.36 ± 1.5 MPs items/g, with a lower salt-to-fish ratio of 1:10. Characteristics of MPs such as morphotype, size, colour and polymer type in both cured fish and curing salt exhibited similar trends. Protein content and MPs showed a strong negative correlation, while the lipid content correlation with MPs presence was weak. Various MPs indices such as contamination factor, load index and polymer induced risk index emphasized salt's significant role in enhancing contamination in cured fish, posing safety risks to consumers. Given the limited number of studies conducted on comprehending the uptake of microplastics in processed seafood, a critical aspect of food safety, the present study aims to illuminate the intricate interplay between fish biochemistry and microplastic characteristics. Additionally, it explores the role of salt in this dynamic, highlighting implications for both food safety and human health.

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来源期刊
Journal of hazardous materials advances
Journal of hazardous materials advances Environmental Engineering
CiteScore
4.80
自引率
0.00%
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0
审稿时长
50 days
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