Mozambique Tilapia (Oreochromis mossambicus) bacterial-algae mats in the cooling pool of Novovoronezh NPP nutrition

Ivan A. Mukhin, Nataliya L. Bolotova, M. Y. Voronin, O. Lopicheva, Mariya D. Petukhova, Ivan S. Podol’skiy
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Abstract

The formation of stable periphyton communities is undesirable for all types of hydrotechnical systems, especially functioning watercooling systems. To combat the development of biological fouling in the cooling ponds of nuclear power plants bioreclamation species are widely used, which include Mozambican tilapia. It was unintentionally brought into the cooling reservoir of the Novovoronezh nuclear power plant; however, it formed a stable and numerous population there. The food base for the fish population in the cooling pond is depleted due to difficult (sometimes extreme) environmental conditions, which can lead to competition for food items. Under these conditions, tilapia switches to feeding on bacterial-algal mats, which develop abundantly in the warm-water part of the reservoir. In areas eaten by tilapia, the biomass of fouling is reduced by one and a half times and the content of mineral substances decreases. The study of the contents of the intestines of tilapia made it possible to confirm these observations, since representatives of the phytoperiphyton were found in the food bolus: cyanoprokaryotes, diatoms and green algae, for which even a taxonomic affiliation was established. The results of the research made it possible to clarify the mechanism o f integration of this southern species into the ichthyocenosis of the reservoir and its positive role in reducing biofouling.
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新沃罗涅日核电站营养品冷却池中的莫桑比克罗非鱼(Oreochromis mossambicus)细菌-藻类垫
对于所有类型的水工系统,特别是正常运行的水冷却系统,稳定的水生植物群落的形成是不可取的。为了防止核电站冷却池中生物污染的发展,人们广泛使用生物防治物种,其中包括莫桑比克罗非鱼。它无意中进入了新沃罗涅日核电站的冷却池;然而,它在那里形成了一个稳定而众多的种群。由于困难(有时是极端)的环境条件,冷却池中鱼类种群的食物基础已经耗尽,这可能导致对食物的竞争。在这些条件下,罗非鱼转而以细菌-藻类垫为食,这些细菌-藻类垫在水库的温水部分大量生长。在罗非鱼食用的区域,污垢的生物量减少了1.5倍,矿物质含量减少。对罗非鱼肠道内容物的研究使这些观察结果得以证实,因为在罗非鱼的食物中发现了植物附生植物的代表:蓝藻原核生物、硅藻和绿藻,它们甚至在分类上也建立了联系。研究结果为阐明该南方物种融入水库鱼鳞病的机制及其在减少生物污染中的积极作用提供了可能。
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