Barron Mace G
Gulf Ecology Division, U.S. Environmental Protection Agency, Gulf Breeze, FL, 32561, USA.
Arch Environ Contam Toxicol. 2017 Jul;73(1):40-46. doi: 10.1007/s00244-016-0360-y. Epub 2017 Jul 10.
Photoenhanced toxicity is a distinct mechanism of petroleum toxicity that is mediated by the interaction of solar radiation with specific polycyclic aromatic compounds in oil. Phototoxicity is observed as a twofold to greater than 1000-fold increase in chemical toxicity to aquatic organisms that also have been exposed to light sources containing sufficient quantity and quality of ultraviolet radiation (UV). When tested under natural sunlight or laboratory sources of UV, fresh, and weathered middle distillates, crudes and heavy oils can exhibit photoenhanced toxicity. These same products do not exhibit phototoxicity in standard test protocols because of low UV irradiance in laboratory lighting. Fresh, estuarine, and marine waters have been shown to have sufficient solar radiation exposure to elicit photoenhanced toxicity, and a diversity of aquatic invertebrate and fish species can exhibit photoenhanced toxicity when exposed to combinations of oil and UV. Risks of photoenhanced toxicity will be greatest to early life stages of aquatic organisms that are translucent to UV and that inhabit the photic zone of the water column and intertidal areas exposed to oil.
光增强毒性是石油毒性的一种独特机制,它由太阳辐射与油中特定多环芳烃的相互作用介导。光毒性表现为对同样暴露于含有足够数量和质量紫外线(UV)光源的水生生物的化学毒性增加两倍至超过1000倍。当在自然阳光或实验室紫外线源下进行测试时,新鲜的和风化的中间馏分油、原油和重油会表现出光增强毒性。由于实验室照明中紫外线辐照度低,这些相同的产品在标准测试方案中不会表现出光毒性。已表明新鲜的、河口的和海洋的水体有足够的太阳辐射暴露以引发光增强毒性,并且当暴露于油和紫外线的组合时,多种水生无脊椎动物和鱼类物种会表现出光增强毒性。光增强毒性对水生生物的早期生命阶段风险最大,这些早期生命阶段对紫外线是半透明的,并且栖息在水柱的光合层和暴露于油的潮间带区域。