McGuire Bradley T, Sanderson Marta P, Smith Juliette L, Gobler Christopher J
School of Marine and Atmospheric Sciences, Stony Brook University, Southampton, NY, United States.
Virginia Institute of Marine Science, William & Mary, Gloucester Point, VA, United States.
Harmful Algae. 2025 Jan;141:102745. doi: 10.1016/j.hal.2024.102745. Epub 2024 Nov 30.
Diarrhetic shellfish poisoning (DSP) is the intoxication syndrome derived from the consumption of bivalves that have accumulated toxins produced by algae such as Dinophysis acuminata, yet no study has examined the rate at which bivalves feed on this toxigenic species. During 2021 and 2022, the clearance rates (CR) of three commercially significant bivalve species native to the western North Atlantic (Crassostrea virginica, Mercenaria mercenaria, and Mytilus edulis) were quantified during exposure to D. acuminata blooms of varying densities (10 - 10 cells L) at three sites across New York (NY), USA. The same bivalve species were deployed at NY sites experiencing Dinophysis blooms to track accumulation and depuration rates of diarrhetic shellfish toxins (DSTs) and pectenotoxins (PTXs), toxins that are harmful to humans or shellfish, respectively. A native, non-commercial mussel species (Geukensis demissa) was also sampled in situ to quantify toxin accumulation. CR of D. acuminata were greater than chlorophyll-a-based-rates for all bivalves and clearance rates of D. acuminata by C. virginica (1.69 ± 1.34 L h g) were significantly greater than those of M. edulis (0.46 ± 0.32 L h g) and M. mercenaria (0.41 ± 0.24 L h g; p < 0.05). During a bloom event in 2021, C. virginica and M. mercenaria accumulated low levels of pectenotoxin-2 (PTX2), whereas during a more sustained bloom in 2022, C. virginica, M. edulis, and G. demissa accumulated combinations of DSTs (okadaic acid (OA), dinophysistoxin-1 (DTX1)), PTX2, and pectenotoxin-2 seco acid (PTX2sa) with M. edulis DST loads (265 ng OA + DTX1 g shellfish tissue) exceeding the FDA closure guideline (160 ng toxin g) for three weeks. DST concentrations in M. edulis were significantly higher (p < 0.05) than C. virginica and M. mercenaria, whereas PTX2 concentrations in C. virginica were significantly higher than in all other bivalves (p < 0.05). PTX2sa loads in M. edulis and C. virginica were similar to each other and were significantly greater than PTX2 loads (p < 0.05). Toxin accumulation efficiencies (TAEs) were higher for M. edulis than C. virginica, and TAEs for DSTs were higher than for PTX2 and PTX2sa in both species. The combination of rapid CR of D. acuminata observed in all bivalves, even at >10 cells L, and the ability of bivalves such as M. edulis to rapidly accumulate high levels of DSTs demonstrate these HABs may represent a significant DSP threat in North America.
腹泻性贝类中毒(DSP)是因食用积聚了诸如渐尖鳍藻等藻类产生毒素的双壳贝类而引发的中毒综合征,但尚无研究考察双壳贝类摄食这种产毒藻类的速率。在2021年和2022年期间,对原产于北大西洋西部的三种具有商业重要性的双壳贝类物种(弗吉尼亚牡蛎、硬壳蛤和紫贻贝)在接触不同密度(10 - 10个细胞/升)渐尖鳍藻水华时的清除率(CR)进行了量化,实验地点位于美国纽约州的三个地点。将相同的双壳贝类物种放置在纽约州出现鳍藻水华的地点,以追踪腹泻性贝类毒素(DSTs)和pectenotoxins(PTXs)的积累和净化速率,这两种毒素分别对人类或贝类有害。还对一种本地非商业贻贝物种(凹线贻贝)进行了现场采样,以量化毒素积累情况。所有双壳贝类对渐尖鳍藻的清除率均高于基于叶绿素a的速率,弗吉尼亚牡蛎对渐尖鳍藻的清除率(1.69±1.34升/小时·克)显著高于紫贻贝(0.46±0.32升/小时·克)和硬壳蛤(0.41±0.24升/小时·克;p<0.05)。在2021年的一次水华事件中,弗吉尼亚牡蛎和硬壳蛤积累了低水平的pectenotoxin - 2(PTX2),而在2022年一次持续时间更长的水华中,弗吉尼亚牡蛎、紫贻贝和凹线贻贝积累了DSTs(冈田酸(OA)、鳍藻毒素 - 1(DTX1))、PTX2和pectenotoxin - 2 海葵酸(PTX2sa)的组合,紫贻贝的DST负荷(265纳克OA + DTX1/克贝类组织)超过美国食品药品监督管理局的关闭指导标准(160纳克毒素/克)长达三周。紫贻贝中的DST浓度显著高于(p<0.05)弗吉尼亚牡蛎和硬壳蛤中的浓度,而弗吉尼亚牡蛎中的PTX2浓度显著高于所有其他双壳贝类中的浓度(p<0.05)。紫贻贝和弗吉尼亚牡蛎中的PTX2sa负荷彼此相似,且显著高于PTX2负荷(p<0.05)。紫贻贝的毒素积累效率(TAEs)高于弗吉尼亚牡蛎,并且在这两个物种中,DSTs的TAEs高于PTX2和PTX2sa的TAEs。在所有双壳贝类中观察到的即使在>10个细胞/升时渐尖鳍藻的快速清除率,以及紫贻贝等双壳贝类快速积累高水平DSTs的能力,表明这些有害藻华可能在北美构成重大的DSP威胁。
