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暴露于微纳米轮胎颗粒后两种河口指示物种的内化、生长减缓和行为影响。

Internalization, reduced growth, and behavioral effects following exposure to micro and nano tire particles in two estuarine indicator species.

机构信息

Fisheries, Wildlife, and Conservation Sciences; Coastal Oregon Marine Experiment Station, College of Agricultural and Life Sciences, Oregon State University, 97365, USA.

Marine Resources Management Program, College of Earth, Atmospheric, and Oceanic Sciences, Oregon State University Corvallis, Oregon, 97331, USA.

出版信息

Chemosphere. 2022 Jun;296:133934. doi: 10.1016/j.chemosphere.2022.133934. Epub 2022 Feb 15.

DOI:10.1016/j.chemosphere.2022.133934
PMID:35176295
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9071364/
Abstract

Synthetic rubber emissions from automobile tires are common in aquatic ecosystems. To assess potential impacts on exposed organisms, early life stages of the estuarine indicator species Inland Silverside (Menidia beryllina) and mysid shrimp (Americamysis bahia) were exposed to three tire particle (TP) concentrations at micro and nano size fractions (0.0038, 0.0378 and 3.778 mg/L in mass concentrations for micro size particles), and separately to leachate, across a 5-25 PSU salinity gradient. Following exposure, M. beryllina and A. bahia had significantly altered swimming behaviors, such as increased freezing, changes in positioning, and total distance moved, which could lead to an increased risk of predation and foraging challenges in the wild. Growth for both A. bahia and M. beryllina was reduced in a concentration-dependent manner when exposed to micro-TP, whereas M. beryllina also demonstrated reduced growth when exposed to nano-TP (except lowest concentration). TP internalization was dependent on the exposure salinity in both taxa. The presence of adverse effects in M. beryllina and A. bahia indicate that even at current environmental levels of tire-related pollution, which are expected to continue to increase, aquatic ecosystems may be experiencing negative impacts.

摘要

汽车轮胎产生的合成橡胶排放物在水生生态系统中很常见。为了评估对暴露生物的潜在影响,河口指示物种内陆银汉鱼(Menidia beryllina)和糠虾(Americamysis bahia)的早期生命阶段分别暴露于微纳米粒径的三种轮胎颗粒(TP)浓度(微粒径的质量浓度分别为 0.0038、0.0378 和 3.778mg/L),并单独暴露于浸出液中,横跨 5-25 PSU 盐度梯度。暴露后,M. beryllina 和 A. bahia 的游泳行为发生了明显变化,如冻结增加、位置变化和总移动距离增加,这可能导致在野外捕食和觅食的风险增加。当暴露于微 TP 时,A. bahia 和 M. beryllina 的生长均呈浓度依赖性降低,而 M. beryllina 当暴露于纳米 TP 时(除最低浓度外)也表现出生长降低。在这两个分类群中,TP 的内化都依赖于暴露盐度。M. beryllina 和 A. bahia 存在不良影响表明,即使在当前预计会继续增加的与轮胎相关的污染环境水平下,水生生态系统也可能正在受到负面影响。