Microplaston artificial polymers in the Miass River and Lake Turgoyak (Southern Urals, Russia) in the early stages of colonisation

IF 0.3 Q4 ECOLOGY

South of Russia-Ecology Development Pub Date : 2023-11-02 DOI:10.18470/1992-1098-2023-3-133-143

Ph. V. Sapozhnikov, O. Yu. Kalinina, S. V. Vostokov

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Abstract

Aim . To identify the composition and features of the spatial structure of microfouling (microplaston) during the early stages of colonisation of the surfaces of artificial polymer films (LDPE) in the natural habitats of the Miass River and Lake Turgoyak (Southern Urals). The early stages of polymer microfouling which create the basis for further complexity of its spatial mosaic are considered, taking into account the surface microlandscape and the possibilities it creates for the location of community components. Materials and Methods . Fragments of polymer films (LDPE) manufactured for household use were collected in the waters of the Miass River and Lake Turgoyak in June 2023. Samples were selected that were exposed in natural reservoirs for at least several months. Analysis of the composition, structure and spatial organization of microplastonic communities was carried out using light and SEM microscopy. Results . The microplaston in the early stages of growth varied significantly among the habitats studied. On LDPE films from the Miass River they were dominated by sessile armored amoebae (Granofilosea: Microgromiidae), attached diatoms (Bacillariophyta: Achnanthaceae, Cocconeidaceae) developed as a mass and encrusting green microalgae (Chlorophyta, Charophyta) were also found. In Lake Turgoyak cortical green microalgae clearly dominated, together with other diatoms (Bacillariophyta: Rhopalodiaceae, Cocconeidaceae). Trichome and coccoid forms of cyanoprokaryotes (Cyanobacteria: Pseudanabaenaceae, Rivulariaceae, Chamaesiphonaceae, Microcystaceae) were also abundant. The colonisation of films by individual species varied among habitats and also depended on the surface microrelief. Conclusion . Analysis of the microplaston of LDPE films in hydrologically different habitats demonstrated the features of early colonisation of these substrates, the biotope‐specificity of the species and spatial structure of communities, as well as the organisation of colonial settlements of a number of species.

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在殖民的早期阶段，米斯河和Turgoyak湖(俄罗斯南部乌拉尔)中的微质体人工聚合物

的目标。在Miass河和Turgoyak湖(乌拉尔南部)的自然栖息地中，人工聚合物膜(LDPE)表面定殖的早期阶段，确定微污染(微浆体)的组成和空间结构特征。聚合物微污染的早期阶段为其空间马赛克的进一步复杂性创造了基础，考虑到表面微景观及其为社区组成部分的位置创造的可能性。材料与方法。2023年6月在米斯河和Turgoyak湖的水域中收集了家用聚合物薄膜(LDPE)碎片。所选样本在天然水库中暴露至少几个月。利用光镜和扫描电镜对微质体群落的组成、结构和空间组织进行了分析。结果。生长早期微质体在不同生境间差异显著。在米斯河的LDPE薄膜上，以无柄铠装变形虫(Granofilosea: Microgromiidae)为主，附着硅藻(Bacillariophyta: Achnanthaceae, Cocconeidaceae)簇生，包覆绿色微藻(绿藻门，绿藻门)。土尔戈亚克湖表层绿色微藻明显占主导地位，并与其他硅藻(硅藻门:龙舌兰科、球藻科)共生。蓝藻原核生物(蓝藻门:Pseudanabaenaceae, Rivulariaceae, Chamaesiphonaceae, Microcystaceae)的毛状和球体形式也很丰富。不同生境的个体物种对膜的定殖也不同，并且取决于地表微地形。结论。通过对不同水文生境中LDPE膜微质体的分析，揭示了这些基质的早期定殖特征、物种的生物群落特异性和群落的空间结构，以及许多物种的殖民聚落组织。

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