Virginia Institute of Marine Science, William & Mary, Gloucester Point, VA 23062, USA.
Division of Shellfish Safety and Waterborne Hazards, Virginia Department of Health, Norfolk, VA 23510, USA.
Harmful Algae. 2021 Mar;103:101993. doi: 10.1016/j.hal.2021.101993. Epub 2021 Feb 10.
Harmful algal blooms (HABs), varying in intensity and causative species, have historically occurred throughout the Chesapeake Bay, U.S.; however, phycotoxin data are sparse. The spatiotemporal distribution of phycotoxins was investigated using solid-phase adsorption toxin tracking (SPATT) across 12 shallow, nearshore sites within the lower Chesapeake Bay and Virginia's coastal bays over one year (2017-2018). Eight toxins, azaspiracid-1 (AZA1), azaspiracid-2 (AZA2), microcystin-LR (MC-LR), domoic acid (DA), okadaic acid (OA), dinophysistoxin-1 (DTX1), pectenotoxin-2 (PTX2), and goniodomin A (GDA) were detected in SPATT extracts. Temporally, phycotoxins were always present in the region, with at least one phycotoxin group (i.e., consisting of OA and DTX1) detected at every time point. Co-occurrence of phycotoxins was also common; two or more toxin groups were observed in 76% of the samples analyzed. Toxin maximums: 0.03 ng AZA2/g resin/day, 0.25 ng DA/g resin/day, 15 ng DTX1/g resin/day, 61 ng OA/g resin/day, 72 ng PTX2/g resin/day, and 102,050 ng GDA/g resin/day were seasonal, with peaks occurring in summer and fall. Spatially, the southern tributary and coastal bay regions harbored the highest amount of total phycotoxins on SPATT over the year, and the former contained the greatest diversity of phycotoxins. The novel detection of AZAs in the region, before a causative species has been identified, supports the use of SPATT as an explorative tool in respect to emerging threats. The lack of karlotoxin in SPATT extracts, but detection of Karlodinium veneficum by microscopy, however, emphasizes that this tool should be considered complementary to, but not a replacement for, more traditional HAB management and monitoring methods.
有害藻类水华(HABs)在美国切萨皮克湾各地的强度和致病物种各不相同,但藻毒素数据却很少。在一年(2017-2018 年)内,使用固相吸附毒素跟踪(SPATT)技术,在切萨皮克湾下游和弗吉尼亚沿海湾的 12 个浅近岸地点调查了藻毒素的时空分布。在 SPATT 提取物中检测到八种毒素:azaspiracid-1(AZA1)、azaspiracid-2(AZA2)、微囊藻-LR(MC-LR)、软骨藻酸(DA)、okadaic 酸(OA)、dinophysistoxin-1(DTX1)、pectenotoxin-2(PTX2)和goniodomin A(GDA)。在该地区,藻毒素一直存在于时间上,至少在每个时间点都检测到一个藻毒素组(即由 OA 和 DTX1 组成)。藻毒素的共存也很常见;在分析的 76%的样本中观察到两种或更多的毒素组。毒素最大值:0.03ng AZA2/g 树脂/天、0.25ng DA/g 树脂/天、15ng DTX1/g 树脂/天、61ng OA/g 树脂/天、72ng PTX2/g 树脂/天和 102050ng GDA/g 树脂/天是季节性的,峰值出现在夏季和秋季。从空间上看,南部支流和沿海湾地区在一年中 SPATT 上含有最高量的总藻毒素,而前者含有最多的藻毒素多样性。在该地区尚未确定致病物种的情况下,首次检测到 AZAs,支持将 SPATT 用作新兴威胁的探索性工具。然而,由于在 SPATT 提取物中未检测到 karlotoxin,但通过显微镜检测到了 Karlodinium veneficum,因此强调该工具应被视为对更传统的 HAB 管理和监测方法的补充,而不是替代方法。
