[The behavior of male Danio rerio after exposure of fish embryos to a simulated geomagnetic storm].

Embryos of the zebrafish, Danio rerio, were exposed to a simulated geomagnetic storm during 24 hours. Fish, developed from these embryos, left a start chamber to an aquarium more readily in comparison to those reared in a normal geomagnetic field. On the other hand, general locomotor activity in fish was not essentially different between the two groups. We hypothesize that an exposure to a geomagnetic storm during embryonic period results in enhanced tolerance to stress caused by a novel environment. A low level stress is in turn a subject to further exploration.

[Magnetic fields and fish behavior].

In the review, contemporary data on the influence of natural and artificial magnetic fields on fish behavior are considered. In this regard, elasmobranchs and teleosts appear to be studied most exhaustively. Elasmobranchs and some teleosts are able to perceive magnetic fields via electroreceptors. A number of teleosts can sense magnetic fields via sensory cells containing crystals of biogenic magnetite. Laboratory experiments and field observations indicate the influence of magnetic fields on fish locomotor activity and spatial distribution. The geomagnetic field can be used by fish for navigation. Besides, artificial magnetic fields and natural fluctuations of the geomagnetic field can affect fish embryos leading to alterations in their development. It is suggested that, afterwards, these alterations can have an effect on fish behavior.

[Effect of Caryophyllaeus laticeps (Cestoda, Caryophyllidea) upon activity of digestive enzymes in bream].

The activities of the main digestive hydrolases were comparatively studied in bream infected and noninfected with cestodes Caryophyllaeus laticeps (Pallas, 1781). It was shown that enzyme activities are distributed in the fish intestine in an irregular manner; the gradient of protease and lipase activities along the gut is presented. Following the infection of bream by cestodes, the activities of the studied enzymes decreased and the percentages of activities of various proteinase subclasses changed. No relation between the distribution of worms along the intestine and the levels of activities of digestive hydrolases was revealed.

[Comparison of two kinds of functional asymmetry in the roach Rutilus rutilus (teleostei: cyprinidae)].

In the higher vertebrates, asymmetries of different functions of individual are poorly connected with each other. At present it is unknown whether this poor link is a secondary phenomenon or it is characteristic of different kinds of functional asymmetry already at early stages of vertebrate evolution. In connection with this problem, in the roach Rutilus rutilus we studied asymmetry of two behavioral reactions--movements in an annular corridor and of the C-shaped body bending at a sudden action of electrical stimulus. Different individuals prefer a certain direction of movement in the corridor (to the right or to the left). Comparison of these two kinds of asymmetry in the same individuals has shown the absence of significant association between asymmetries of different reactions. The obtained data indicate that already in the lower vertebrates, different kinds of functional asymmetry are controlled by different mechanisms and are poorly associated with each other.

[Laterality of the initial stage of escape response in roach (Rutilus rutilus) upon impact of alternating electric current].

The initial stage of the escape response (C-bend of the body) upon sudden impact of electric current on free-swimming fish was studied in young roach (Rutilus rutilus). More than half of the fish showed distinct behavioral laterality. i.e., a stabile tendency to bend either to the left or to the right, and retained it until the next test conducted 10 days later. The majority of fish bent to the left, but the difference between the proportions of individuals that showed opposite lateralities lacked statistical significance. This response and the type of laterality are stable and simple to record, which makes the C-bend a convenient experimental model for studying behavioral asymmetry in fishes.

[Symbiotic microflora in fishes of different ecological groups].

Published data on the taxonomic composition of the intestinal bacterial flora in fishes living under different conditions (marine and freshwater fishes) and differing in the type of feeding are reviewed. The results confirm the conclusion that the composition of intestinal microflora differs depending on fish ecology. A limited number of bacterial taxa found in the intestines of some fish species may be evidence not only for a low diversity of these bacteria but also for insufficient knowledge about them. Considerable differences in the composition of intestinal microflora in marine and freshwater fishes are described.