Cawthron Institute, Private Bag 2, Nelson 7042, New Zealand.
Chemosphere. 2011 Feb;82(6):888-94. doi: 10.1016/j.chemosphere.2010.10.055. Epub 2010 Nov 11.
Sampling and monitoring for cyanotoxins can be problematic as concentrations change with environmental and hydrological conditions. Current sampling practices (e.g. grab samples) provide data on cyanotoxins present only at one point in time and may miss areas or times of highest risk. Recent research has identified the widespread distribution of anatoxin-producing benthic cyanobacteria in rivers highlighting the need for development of effective sampling techniques. In this study we evaluated the potential of an in situ method known as solid phase adsorption toxin tracking (SPATT) for collecting and concentrating anatoxin-a (ATX) and homoanatoxin-a (HTX) in river water. Fifteen different adsorption substrates were screened for efficiency of ATX uptake, nine of which retained high proportions (>70%) of ATX. Four substrates were then selected for a 24-h trial in a SPATT bag format in the laboratory. The greatest decrease in ATX in the water was observed with powdered activated carbon (PAC) and Strata-X (a polymeric resin) SPATT bags. A 3-d field study in a river containing toxic benthic cyanobacterial mats was undertaken using PAC and Strata-X SPATT bags. ATX and HTX were detected in all SPATT bags. Surface grab samples were taken throughout the field study and ATX and HTX were only detected in one of the water samples, highlighting the limitations of this currently used method. Both Strata-X and PAC were found to be effective absorbent substrates. PAC has the advantage that it is cheap and readily available and appears to continue to sorb toxins over longer periods than Strata-X. SPATT has the potential to be integrated into current cyanobacterial monitoring programmes and would be a very useful and economical tool for early warning of ATX and HTX contamination in water.
采样和监测蓝藻毒素可能会出现问题,因为其浓度会随环境和水文条件而变化。目前的采样方法(例如随机采样)仅提供一个时间点上存在的蓝藻毒素数据,可能会错过高风险的区域或时间。最近的研究发现,产anatoxin 的底栖蓝藻在河流中的广泛分布,突出了开发有效采样技术的必要性。在这项研究中,我们评估了一种称为固相吸附毒素追踪(SPATT)的原位方法在收集和浓缩河水中anatoxin-a (ATX) 和 homoanatoxin-a (HTX) 的潜力。筛选了 15 种不同的吸附基质,以评估其对 ATX 吸收的效率,其中 9 种基质保留了高比例(>70%)的 ATX。然后,选择了 4 种基质进行为期 24 小时的实验室 SPATT 袋试验。在实验室的粉末状活性炭 (PAC) 和 Strata-X(一种聚合物树脂)SPATT 袋中,观察到 ATX 在水中的最大减少量。在含有有毒底栖蓝藻垫的河流中进行了为期 3 天的现场研究,使用 PAC 和 Strata-X SPATT 袋。在所有 SPATT 袋中均检测到 ATX 和 HTX。在整个现场研究中,均采集了表层随机采样,而仅在一个水样中检测到 ATX 和 HTX,突出了目前使用的方法的局限性。Strata-X 和 PAC 均被证明是有效的吸附基质。PAC 的优势在于价格便宜且易于获得,并且似乎比 Strata-X 更能长时间持续吸附毒素。SPATT 有可能集成到现有的蓝藻监测计划中,对于早期预警水中 ATX 和 HTX 的污染,将是一种非常有用且经济的工具。
