Centre for Environment, Fisheries and Aquaculture Science (Cefas), The Nothe, Barrack Road, Weymouth, Dorset, DT4 8UB, United Kingdom.
Centre for Environment, Fisheries and Aquaculture Science (Cefas), The Nothe, Barrack Road, Weymouth, Dorset, DT4 8UB, United Kingdom.
Harmful Algae. 2018 Jul;77:66-80. doi: 10.1016/j.hal.2018.05.011. Epub 2018 Jun 19.
Official control biotoxin testing of bivalve molluscs from Great Britain has been conducted by Cefas for over a decade. Reflecting the changes in legislation, bioassays were gradually replaced by analytical methods, firstly for analysis of Paralytic shellfish toxins, followed by introduction of liquid chromatography tandem mass spectrometric (LCMS/MS) method for lipophilic toxins (LTs) in 2011. Twelve compounds, representing three main groups of regulated lipophilic toxins, as well as two non-regulated cyclic imines were examined in over 20,500 samples collected between July 2011 and December 2016. The toxins belonging to Okadaic acid (OA) group toxins were the most prevalent and were quantified in 23% of samples, predominantly from Scotland. The temporal pattern of OA group occurrences remained similar each year, peaking in summer months and tailing off during autumn and winter, however their abundance and magnitude varied between years significantly, with concentrations reaching up to 4993 μg OA eq./kg. Three toxin profiles were identified, reflecting the relative contribution of the two main toxins, OA and dinophysis toxin-2 (DTX2). Dinophysis toxin-1 (DTX1) was less common and was never detected in samples with high proportions of DTX2. Inter-annual changes in profiles were observed within certain regions, with the most notable being an increase of DTX2 occurrences in north-west Scotland and England in the last three years of monitoring. In addition, seasonal changes of profiles were identified when OA, the dominant toxin in early summer, was replaced by higher proportions of DTX2 in late summer and autumn. The profile distribution possibly reflected the availability of individual Dinophysis species as a food source for shellfish, however persistence of DTX2 during autumn and winter in mussels might have also been attributed to their physiology. Mussels were the only species with higher average proportions of non-esterified toxins, while Pacific oysters, cockles, surf clams, razors and queen scallops contained almost exclusively ester forms. In addition, a temporal change in proportion of OA and DTX2 free form was observed in mussels. Pectenotoxin-2 (PTX2) was quantified only on rare occasions.
英国的海洋生物安全局(CEFAS)已经对双壳贝类中的生物毒素进行了超过十年的官方监测。反映立法的变化,生物测定法逐渐被分析方法所取代,首先是麻痹性贝类毒素的分析,随后在 2011 年引入了亲脂性贝类毒素(LTs)的液相色谱串联质谱(LCMS/MS)方法。在 2011 年 7 月至 2016 年 12 月期间收集的超过 20500 个样本中,检查了 12 种化合物,代表三种受监管的亲脂性贝类毒素,以及两种非监管的环状亚胺。在检测的样品中,属于冈田酸(OA)毒素组的毒素最为普遍,占 23%,主要来自苏格兰。OA 毒素组的出现时间模式每年都相似,在夏季达到高峰,然后在秋季和冬季逐渐减少,但它们的丰度和幅度在不同年份之间差异显著,浓度高达 4993μgOAeq/kg。确定了三种毒素特征,反映了两种主要毒素 OA 和麻痹性贝类毒素-2(DTX2)的相对贡献。贝类毒素-1(DTX1)较少见,在 DTX2 比例较高的样本中从未检测到。在某些地区观察到了年度间特征的变化,在监测的最后三年,苏格兰西北部和英格兰的 DTX2 发生频率增加最为明显。此外,还发现了特征的季节性变化,即在初夏以 OA 为主导的毒素被夏季晚期和秋季更高比例的 DTX2 所取代。特征分布可能反映了作为贝类食物来源的单个塔玛多利赤潮藻的可利用性,但贻贝中 DTX2 在秋季和冬季的持续存在也可能归因于其生理学。贻贝是唯一具有更高平均非酯化毒素比例的物种,而太平洋牡蛎、文蛤、美洲帘蛤、剃刀蛤和女王扇贝几乎只含有酯化形式。此外,贻贝中 OA 和 DTX2 游离形式的比例也发生了时间变化。对扇贝毒素-2(PTX2)的检测则很少进行。
