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. 2019 Jul;87:101629. doi: 10.1016/j.hal.2019.101629. Epub 2019 Jul 2.
Cefas has been responsible for the delivery of official control biotoxin testing of bivalve molluscs from Great Britain for just over a decade. Liquid chromatography tandem mass spectrometric (LC-MS/MS) methodology has been used for the quantitation of lipophilic toxins (LTs) since 2011. The temporal and spatial distribution of okadaic acid group toxins and profiles in bivalves between 2011 and 2016 have been recently reported. Here we present data on the two other groups of regulated lipophilic toxins, azaspiracids (AZAs) and yessotoxins (YTXs), over the same period. The latter group has also been investigated for a potential link with Protoceratium reticulatum and Lingulodinium polyedra, both previously recognised as YTXs producing phytoplankton. On average, AZAs were quantified in 3.2% of all tested samples but notable inter-annual variation in abundance was observed. The majority of all AZA contaminated samples were found between July 2011 and August 2013 in Scotland, while only two, three-month long, AZA events were observed in 2015 and 2016 in the south-west of England. Maximum concentrations were generally reached in late summer or early autumn. Reasons for AZAs persistence during the 2011/2012 and 2012/2013 winters are discussed. Only one toxin profile was identified, represented by both AZA1 and AZA2 toxins at an approximate ratio of 2 : 1, suggesting a single microalgal species was the source of AZAs in British bivalves. Although AZA1 was always the most dominant toxin, its proportion varied between mussels, Pacific oysters and surf clams. The YTXs were the least represented group among regulated LTs. YTXs were found almost exclusively on the south-west coast of Scotland, with the exception of 2013, when the majority of contaminated samples originated from the Shetland Islands. The highest levels were recorded in the summer months and followed a spike in Protoceratium reticulatum cell densities. YTX was the most dominant toxin in shellfish, further strengthening the link to P. reticulatum as the YTX source. Neither homo-YTX, nor 45-OH homo-YTX were detected throughout the monitored period. 45-OH YTX, thought to be a shellfish metabolite associated with YTX elimination, contributed on average 26% in mussels. Although the correlation between 45-OH YTX abundance and the speed of YTX depuration could not be confirmed, we noted the half-life of YTX was more than two-times longer in queen scallops, which contained 100% YTX, than in mussels. No other bivalve species were affected by YTXs. This is the first detailed evaluation of AZAs and YTXs occurrences and their profiles in shellfish from Great Britain over a period of multiple years.
Cefas 负责在过去十年中提供来自英国的双壳贝类的官方生物毒素检测服务。自 2011 年以来,一直使用液相色谱串联质谱(LC-MS/MS)方法定量测定脂溶性毒素(LTs)。最近报道了 2011 年至 2016 年期间贝类中环丙氨酸组毒素的时间和空间分布以及特征。在这里,我们提供了同一时期另两种受监管的脂溶性毒素(azaspiracids(AZAs)和 yessotoxins(YTXs)的数据。后一组也被研究了与 Protoceratium reticulatum 和 Lingulodinium polyedra 的潜在联系,这两种浮游植物之前都被认为是 YTXs 的产生者。平均而言,在所有测试的样本中,AZAs 的含量为 3.2%,但发现丰度存在显著的年际变化。在苏格兰,大多数受 AZA 污染的样本都发现于 2011 年 7 月至 2013 年 8 月之间,而在 2015 年和 2016 年,英格兰西南部仅观察到两次为期三个月的 AZA 事件。最大浓度通常出现在夏末或初秋。讨论了 2011/2012 年和 2012/2013 年冬季 AZAs 持续存在的原因。仅鉴定出一种毒素特征,由 AZA1 和 AZA2 毒素代表,近似比例为 2:1,表明英国双壳贝类中 AZAs 的来源是单一的微藻物种。尽管 AZA1 一直是最占优势的毒素,但它在贻贝、太平洋牡蛎和文蛤之间的比例有所不同。YTXs 是受监管的脂溶性毒素中最少的一组。YTXs 几乎只在苏格兰西南部发现,2013 年除外,当时大部分受污染的样本来自设得兰群岛。最高水平出现在夏季月份,并紧随赤潮细胞密度的增加。在贝类中,YTX 是最占优势的毒素,这进一步加强了与赤潮细胞密度的增加有关,赤潮细胞密度是 YTX 的来源。在整个监测期间,均未检测到同型 YTX 或 45-OH 同型 YTX。45-OH YTX 被认为是与 YTX 消除有关的贝类代谢物,在贻贝中平均占 26%。虽然无法证实 45-OH YTX 丰度与 YTX 净化速度之间的相关性,但我们注意到 YTX 的半衰期在含有 100% YTX 的女王扇贝中比贻贝中长两倍以上。没有其他双壳贝类受到 YTXs 的影响。这是首次对英国贝类中 AZAs 和 YTXs 的发生及其在贝类中的特征进行多年详细评估。
