Modulation of PFOA (perfluorooctanoic acid) uptake in Daphnia (Daphnia magna) by TiO2 nanoparticles

IF 3.9 3区环境科学与生态学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Comparative Biochemistry and Physiology C-toxicology & Pharmacology Pub Date : 2025-02-18 DOI:10.1016/j.cbpc.2025.110150

Arian Farajizadeh, Lazarus Sui, Jonas Wong, Greg G. Goss

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Abstract

The hydrophobic surface of plastics adsorbs hydrophobic persistent organic pollutants (POP) such as Perfluorooctanoic acid (PFOA). The potential for hydrophobic nanoparticles such as titanium dioxide (TiO₂) to associate with PFOA and alter accumulation rates has not been investigated. Nanoparticles form ecocorona by adsorption of multiple constituents in water, but few studies have examined if this results in differences in the rate of PFOA accumulation in freshwater animals. We demonstrate the PFOA associates with the hydrophobic surfaces of nano-sized TiO₂ particles and this increases the rate of uptake of PFOA into Daphnia magna. Accumulation of PFOA in daphnia was measurement over multiple concentrations, flux times and particle sizes using a radiotracer-based method (¹⁴C-labelled PFOA). Our results show that TiO₂ NPs have a high sorption capacity for PFOA and PFOA sorption decreased aggregation of TiO₂ as evidenced by a decrease in average hydrodynamic diameter, decreased zeta potential and increased polydispersity index. Uptake of PFOA at 10 μg/L was found to be 45 % higher in the presence of 500 μg/L of 5 nm TiO₂ compared to control PFOA alone uptake. Potentiation of PFOA uptake using 25 nm TiO₂ NPs was 25 % higher than control PFOA alone. PFOA alone (0.5 mg/L) reduced metabolic oxygen consumption (MO₂) in daphnia by 52 %, but exposure to (100 mg/L) 5 nm TiO₂ NPs sorbed with (0.5 mg/L) PFOA decreased metabolic oxygen consumption (MO₂) by ~88 %. These findings show that TiO₂ nanoparticles act as vectors for hydrophobic organic pollutant accumulation and significantly potentiate PFOA accumulation and toxicity in aquatic organisms.

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二氧化钛纳米粒子对水蚤（大水蚤）全氟辛酸吸收的调节

塑料的疏水性表面吸附了疏水性持久性有机污染物（POP），如全氟辛酸（PFOA）。疏水纳米颗粒如二氧化钛（TiO2）与PFOA结合并改变积累速率的可能性尚未研究。纳米颗粒通过吸附水中的多种成分形成生态冠，但很少有研究调查这是否会导致淡水动物体内PFOA积累速率的差异。我们证明了PFOA与纳米级TiO2粒子的疏水性表面相结合，这增加了PFOA被大水蚤吸收的速率。使用基于放射性示踪剂的方法（14c标记的PFOA）测量水蚤中PFOA的积累，包括多种浓度、通量次数和粒径。结果表明，TiO2 NPs对PFOA具有较高的吸附能力，PFOA的吸附降低了TiO2的聚集，表现为平均水动力直径减小，zeta电位降低，多分散性指数增加。在500 μg/L的5nm TiO2存在下，10 μg/L的PFOA吸收量比单独摄入PFOA的对照高45%。25 nm TiO2纳米粒子对PFOA吸收的增强作用比单独使用PFOA的对照高25%。单用PFOA （0.5 mg/L）可使水蚤的代谢耗氧量（MO2）降低52%，而用（0.5 mg/L） PFOA吸附（100 mg/L） 5 nm TiO2 NPs可使水蚤的代谢耗氧量（MO2）降低约88%。这些结果表明，TiO2纳米粒子作为疏水性有机污染物积累的载体，显著增强了PFOA在水生生物中的积累和毒性。

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来源期刊

Comparative Biochemistry and Physiology C-toxicology & Pharmacology 医学-动物学

CiteScore

7.50

自引率

5.10%

发文量

206

审稿时长

30 days

期刊介绍： Part C: Toxicology and Pharmacology. This journal is concerned with chemical and drug action at different levels of organization, biotransformation of xenobiotics, mechanisms of toxicity, including reactive oxygen species and carcinogenesis, endocrine disruptors, natural products chemistry, and signal transduction with a molecular approach to these fields.