Preliminary hazard assessment of a new nature-inspired antifouling (NIAF) agent

生物污染 生物浓缩 盐卤虫 三角褐指藻 环境化学 生物 大型水蚤 水生毒理学 遗传毒性 水生生态系统 硅藻 毒性 生物累积 化学 生态学 生物化学 有机化学
作者
Cátia Vilas-Boas,João Sousa,E. R. L. LIMA,Logan Running,Diana I. S. P. Resende,Ana Rita L. Ribeiro,Emı́lia Sousa,Miguel M. Santos,Diana S. Aga,Maria Elizabeth Tiritan,Raquel Ruivo,G. Ekin Atilla‐Gokcumen,Marta Correia‐da‐Silva
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:933: 172824-172824 被引量:2
标识
DOI:10.1016/j.scitotenv.2024.172824
摘要

A recently synthesized aminated 3,4-dioxygenated xanthone (Xantifoul2) was found to have promising antifouling (AF) effects against the settlement of the macrofouler Mytilus galloprovincialis larvae. Preliminary assessment indicated that Xantifoul2 has reduced ecotoxicological impacts: e.g., being non-toxic to the marine crustacea Artemia salina (<10 % mortality at 50 μM) and showing low bioconcentration factor in marine organisms. In order to meet the EU Biocidal Product Regulation, a preliminary hazard assessment of this new nature-inspired antifouling (NIAF) agent was conducted in this work. Xantifoul2 did not affect the swimming ability of the planktonic crustacean Daphnia magna, the growth of the diatom Phaeodactylum tricornutum, and the cellular respiration of luminescent Gram-negative bacteria Vibrio fischeri, supporting the low toxicity towards several non-target marine species. Regarding human cytotoxicity, Xantifoul2 did not affect the cell viability of retinal human cells (hTERT-RPE-1) and lipidomic studies revealed depletion of lipids involved in cell death, membrane modeling, lipid storage, and oxidative stress only at a high concentration (10 μM). Accelerated degradation studies in water were conducted under simulated sunlight to allow the understanding of putative transformation products (TPs) that could be generated in the aquatic ecosystems. Both Xantifoul2 and photolytic-treated Xantifoul2 in the aqueous matrix were therefore evaluated on several nuclear receptors (NRs). The results of this preliminary hazard assessment of Xantifoul2, combined with the high degradation rates in water, provide strong evidence of the safety of this AF agent under the evaluated conditions, and provide the support for future validation studies before this compound can be introduced in the market.
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