Aerosolized algal bloom toxins are not inert

IF 2.8 Q3 ENVIRONMENTAL SCIENCES Environmental science: atmospheres Pub Date : 2024-08-12 DOI:10.1039/D4EA00078A
Eric P. Vejerano, Jeonghyeon Ahn and Geoffrey I. Scott
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Abstract

Harmful algal blooms (HABs) are projected to become increasingly prevalent, extending over longer periods and wider geographic regions due to the warming surface ocean water and other environmental factors, including but not limited to nutrient concentrations and runoff for marine and freshwater environments. Incidents of respiratory distress linked to the inhalation of marine aerosols containing HAB toxins have been documented, though the risk is typically associated with the original toxins. However, aerosolized toxins in micrometer and submicrometer particles are vulnerable to atmospheric processing. This processing can potentially degrade HAB toxins and produce byproducts with varying potencies compared to the parent toxins. The inhalation of aerosolized HAB toxins, especially in conjunction with co-morbid factors such as exposure to air pollutants from increased commercial activities in ports, may represent a significant exposure pathway for a considerable portion of the global population. Understanding the chemistry behind the transformation of these toxins can enhance public protection by improving the existing HAB alert systems.

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气溶胶藻华毒素并非惰性。
由于表层海水变暖和其他环境因素(包括但不限于海洋和淡水环境中的营养物浓度和径流),预计有害藻华(HAB)将越来越普遍,持续时间更长,地域范围更广。吸入含有有害藻华毒素的海洋气溶胶导致呼吸困难的事件已有记录,不过这种风险通常与原始毒素有关。不过,微米级和亚微米级颗粒中的气溶胶毒素很容易受到大气加工的影响。这种处理可能会降解有害藻华毒素,并产生与母体毒素相比效力不同的副产品。吸入气溶胶化的有害藻华毒素,特别是与港口商业活动增加所产生的空气污染物接触等共病因素结合在一起,可能是全球相当一部分人口的重要接触途径。了解这些毒素转化背后的化学过程,可以通过改进现有的有害藻华警报系统来加强对公众的保护。
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