Exploring the effect on marine fish of electric fields of a fish‐protection

IF 0.3 Q4 ECOLOGY

South of Russia-Ecology Development Pub Date : 2022-12-30 DOI:10.18470/1992-1098-2022-4-218-232

I. Stolbunov, S. N. Salienko, E. Zabotkina, E. I. Izvekov, E. Skuratovskaya, T. Sigacheva, M. Kirin, P. Podrezova

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Abstract

Aim. Experimental assessment of the impact of electric fields generated by the Electronic Programmable Complex Fish‐protecting Facility on the Electric Principle (EP EPRCFF) on the most common fish species of the Black Sea.Material and Methods. Experimental studies were conducted at the marine test site in the Quarantine Bay of the Black Sea (May‐September, 2021). The following were investigated on larvae, juvenile and adult fish of common species: behavioral responses to electrical fields, survival during and after exposure to the electric field of the fish barrier and the effects of electricity on the reproductive system and biochemical parameters of fish.Results. The features of behavior and distribution of larvae, juvenile and adult fish in the electric field of a fish barrier in modes of different intensity have been analysed. Survival estimation of fish during and after electric influence of the fish barrier has been carried out. The data on the influence of the electric screen on the reproductive system of fish and the biochemical characteristics of their internal organs were analysed.Conclusion. The larvae of fish exhibit a clear “first reaction” to the impact of the electric fish screen. However, there is no avoidance effect (i.e. escape of fish larvae from the area of the working electrode system). The juveniles actively move from the operation zone of the fish‐protective device, avoiding the influence of the electric field. The maximum distance from the electrode system EPRCFF was recorded in adult fish. Significant differences were not revealed in the direct assessment of the survival rate of control and experimental groups of individuals of different species of marine fish after exposure to the electric fish barrier. Some differences on the reproductive system of the fish species studied in the structure of gonads and reactivity of cells were noted under the influence of the electric barrier. The biochemical status of the internal organs under electrical action differed in various species of marine fish.

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探讨一种保护鱼类的电场对海鱼的影响

的目标。基于电原理的电子可编程复杂鱼类保护设施(EP EPRCFF)产生的电场对黑海最常见鱼类的影响的实验评估。材料和方法。实验研究在黑海检疫湾的海洋试验场进行(2021年5月至9月)。研究了常见鱼种的幼鱼、幼鱼和成鱼对电场的行为反应、鱼屏障电场作用前后的存活率以及电对鱼生殖系统和生化参数的影响。分析了不同强度模式下鱼屏障电场对幼鱼、幼鱼和成鱼的行为和分布特点。进行了鱼障电作用期间和电作用后鱼的生存估计。分析了电屏对鱼类生殖系统及内脏生化特性的影响。鱼的幼虫对电子鱼屏的冲击表现出明显的“第一反应”。然而，没有回避效应(即鱼苗从工作电极系统的区域逃脱)。幼鱼主动离开鱼保护装置的操作区域，避免电场的影响。在成鱼身上记录了与电极系统EPRCFF的最大距离。不同种类海鱼个体接触电鱼屏障后，对照组和实验组的直接存活率无显著差异。在电屏障的影响下，所研究的鱼类生殖系统在性腺结构和细胞反应性方面存在一些差异。不同种类的海鱼在电作用下内脏的生化状态不同。

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