Not all that glitters is gold: Glitter causes acute toxicity to nauplii of Artemia sp.

Maritime Technology and Research Pub Date : 2024-05-02 DOI:10.33175/mtr.2024.270722

Denis Moledo de Souza Abessa, Alexandre Rodrigo Nascimento Gonçalves, Maysa Ueda de Carvalho, Natalie Spanghero, Nathalia Sales Soares do Nascimento, Milene Fornari, F. Perina, Ana Carolina Feitosa Cruz

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Abstract

Glitter has been reported as a relevant pollutant, as it is widely used in cosmetic and textile products and craftwork, and often associated with domestic sewage. The particular glitter is composed of thin layers of plastic and metal. This study assessed the acute toxicity of glitter dispersions in the brine shrimp Artemia sp. Nauplii of Artemia sp. that were exposed to glitter dispersions (0.01, 0.1, 1, 10, and 100 mg/L), obtained by diluting a stock solution in seawater; the control consisted of filtered seawater only. Three replicates were used per treatment and consisted of glass tubes filled with 10 mL of the test solution, and ten nauplii aging over 48 h. After 48 h, the survivors were counted and examined under a microscope. The mean size of glitter particles was 3.94 (±0.98) µm; approximately 44 % of particles were in the range of very fine sand, and 27 % coarse silt. Significant lethal effects (p < 0.05) occurred from 0.1 mg/L (Lowest Observed Effect Concentration - LOEC); the lethal concentration to 50 % organisms (LC50-48h) was 0.350 (0.348 - 0.351) mg/L. The exposed organisms also exhibited patches in their digestive tracts, and particles were stranded in their appendices. The results indicate the toxic potential of glitter to brine shrimp. This investigation indicates the need for further studies on the toxicity of glitter to marine invertebrates. Highlights Glitter includes particles of sizes similar to those of marine microalgae Exposure to glitter suspensions caused toxicity in brine shrimps from 0.1 mg/L The nauplii of Artemia were more sensitive to glitter than echinoderm embryos Metallic parts of the glitter were observed in the digestive tract of the brine shrimp nauplii

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并非所有闪闪发光的东西都是金子：闪闪发光的东西会对蒿甲虫的稚虫造成急性毒性。

据报道，闪粉是一种相关污染物，因为它被广泛用于化妆品、纺织品和工艺品中，而且通常与生活污水有关。闪粉由塑料和金属薄层组成。本研究评估了闪粉分散液对卤虫Artemia sp.的急性毒性。 Artemia sp.的幼体暴露于闪粉分散液（0.01、0.1、1、10 和 100 mg/L）中，闪粉分散液是通过稀释海水中的储备溶液获得的；对照组仅包括过滤海水。48小时后，对存活者进行计数并在显微镜下进行观察。闪光颗粒的平均大小为 3.94 (±0.98) 微米；约 44% 的颗粒属于极细砂，27% 属于粗粉砂。从 0.1 毫克/升（最低观测效应浓度 - LOEC）开始就会产生显著的致死效应（p < 0.05）；50% 的生物的致死浓度（LC50-48 小时）为 0.350 (0.348 - 0.351) 毫克/升。暴露生物的消化道中也出现了斑块，颗粒滞留在其附录中。结果表明，闪粉对卤虫有潜在毒性。亮粉包括与海洋微藻大小相似的颗粒，暴露于亮粉悬浮液会导致 0.1 毫克/升以上的卤虫中毒，蒿甲虫的稚虫比棘皮动物的胚胎对亮粉更敏感。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Maritime Technology and Research

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