The Ability of Gastropods of Lake Baikal to Consume and Excrete Microplastic Particles of Different Morphological Structures

IF 0.8 4区生物学 Q4 MARINE & FRESHWATER BIOLOGY

Inland Water Biology Pub Date : 2024-07-13 DOI:10.1134/s199508292470010x

S. A. Biritskaya, E. M. Dolinskaya, M. A. Maslennikova, L. B. Bukhaeva, V. A. Pushnitsa, Ya. K. Ermolaeva, A. V. Lavnikova, D. I. Golubets, S. A. Nazarova, D. Yu. Karnaukhov, E. A. Silow

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Abstract

Studies of the pollution of Lake Baikal with microplastic particles have been started quite recently. Almost all of them are focused on assessing surface water pollution, while the impact of microplastics on Baikal organisms remains unexplored. We have conducted a laboratory experiment involving three species of gastropod mollusks, the Palearctic Lymnaea stagnalis (L., 1758) and Radix auricularia (L., 1758) and the Baikal endemic Benedictia baicalensis (Gerstfeldt, 1859). Two types of microplastics are used in the experiment: fragments of polystyrene and polyester fibers prepared in the laboratory. These plastic particles, along with the food mixture, are placed in aquariums with mollusks. In total, 386 preparations with mollusk excrements have been obtained (144 preparations from Radix auricularia, 176 from Lymnaea stagnalis, and 67 from Benedictia baicalensis). The experiment with Benedictia baicalensis has been carried out only with polystyrene fragments. All preparations have been analyzed according their fluorescence ability. The data have been statistically processed using Spearman’s rank correlation coefficient. The data allow us to conclude that gastropods of these species are able both to absorb microplastic particles and remove them from the body. However, the rate of removal of microplastic particles from the body of a mollusk is species-specific and also directly depends on the morphological structure of microplastic particles.

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贝加尔湖腹足类吞食和排出不同形态结构的微塑料颗粒的能力

摘要对贝加尔湖微塑料颗粒污染的研究最近才开始。几乎所有的研究都集中在地表水污染的评估上，而微塑料对贝加尔湖生物的影响仍未得到研究。我们进行了一项涉及三种腹足类软体动物的实验室实验，这三种软体动物分别是古北欧的 Lymnaea stagnalis (L., 1758) 和 Radix auricularia (L., 1758) 以及贝加尔湖特有的 Benedictia baicalensis (Gerstfeldt, 1859)。实验中使用了两种微塑料：实验室制备的聚苯乙烯和聚酯纤维碎片。这些塑料微粒与食物混合物一起被放入装有软体动物的水族箱中。总共获得了 386 种含有软体动物排泄物的制剂（其中 144 种来自鼠尾草，176 种来自鳗鲡，67 种来自黄芩）。使用本草的实验只使用了聚苯乙烯碎片。所有制剂都根据其荧光能力进行了分析。使用斯皮尔曼等级相关系数对数据进行了统计处理。根据这些数据，我们可以得出结论，这些种类的腹足类动物既能吸收微塑料颗粒，也能将其从体内清除。不过，微塑料颗粒从软体动物体内清除的速度是有物种特异性的，而且还直接取决于微塑料颗粒的形态结构。

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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来源期刊

Inland Water Biology 生物-海洋与淡水生物学

CiteScore

1.30

自引率

55.60%

发文量

审稿时长

6-12 weeks

期刊介绍： Inland Water Biology publishes thematic reviews and original papers devoted to flora and fauna in waterbodies, biodiversity of hydrobionts, biology, morphology, systematics, ecology, ethology, ecological physiology and biochemistry of aquatic organisms, patterns of biological cycle, structure and functioning of aquatic ecosystems, anthropogenic and uncontrolled natural impacts on aquatic organisms and ecosystems, invasion of nonindigenous species into ecosystems and their ecology, methods of hydrobiological and ichthyological studies.