The results of the macro-micromorphological structure of the digestive system of the waders and comparative analysis with the migrants of the Aves are presented. It was revealed that the digestive system of waders at the anatomical level has a universal structure typical for representatives of class Aves. As a result of histological studies of the structure of the digestive tract, it was found that the feature of the wall of the waders small intestine is the dense location of the crypt in its own plate of the mucous membrane throughout its length. High proliferative capacity of cambial crypt cells and their multilayered location provide high secretory and regenerative activity of enterocytes, which helps to restore the mucous membrane and intensify the digestive processes, especially during the active feeding of the waders at the migration stopover points. At this time, the length and mass of the intestine, the mass of the stomach and the liver increase, what is considered as a reaction to a large number of feeds in the intensive feeding of birds and indicates the plasticity of their digestive system. It is shown that the change in the morphometric parameters of the waders digestive system organs depending on the migration situation is an integral part of the adaptive mechanism of the migratory birds, which provides the basic need of the organism - fat accumulation. Th e content of general liver lipids, abdominal fat and thoracic muscles in 6 species of tundra warblers with varying degrees of fat accumulation at the migration stopover points in the Azov-Black Sea region was studied.
In total, 168 beetle species from 25 families of the suborder Polyphaga have been recorded on winter wheat crops. 116 species (about 20 families) are registered as stratobionts: 14 were dominants, 32 – subdominants and about 70 species were very rare. The main representatives of stratobios were Staphylinidae, Silphidae, Dermestidae, Histeridae, some Elateridae and Scarabaeidae and most Tenebrionidae. Most staphylinids are more numerous in spring (late April – first half of May) and sometimes in summer (especially dominant Tachyporus hypnorum). A high number of Silphidae was noted by mid-May, but decreased in the summer months. Two peaks of abundance are characteristic of Anthicidae, Latridiidae and Cryptophagidae: the smaller in spring (the first half of May) and the maximum in summer (the second half of June – early July). The number of Dermestidae increases gradually from mid-May and reaches maximum from late May to early or mid-June. Among Tenebrionidae, the species of genera Opatrum and Gonocepalum are more numerous in spring than in summer. Crypticus quisquilius were numerous by mid-summer. Among Elateridae, high number of Agriotes sputator was recorded from May to mid-June, and the appearance of Aelosomus rossi was recorded from mid-April, with a peak in the first half of summer. In spring, some Scarabaeidae (some species of Geotrupinae and Pentodon idiota), Histeridae and some species of weevils were more numerous in summer. In years with different meteorological conditions, significant discrepancies were noted in the timing of the rise and fall in the number of many beetles. But smaller differences in the number of specimens are noted between different years in comparision with individual phases of wheat vegetation. Some features of the sex index of beetles (higher during egg laying) and the development of dominant species are briefly considered.
Morphometric parameters of waders' intestines (Charadrii) at migratory stopovers in the Azov-Black Sea region.-I. O. Lykova, L. P. Kharchenko. Kharkiv National Pedagogical University named after G. S. Skovoroda, Faculty of Natural Sciences. The features of the morphofunctional organization of the digestive system of waders (Charadrii) during migratory stopovers in the Azov-Black Sea region were investigated. The rich trophic base of the region contributes to the active feeding of waders and the rapid accumulation of fat. It has been established that the absorption of a large number of forages contributes to the plasticity of the digestive system of migrants. At migratory stopovers, the digestive system of waders quickly adapts to intensive nutrition and digestion, as evidenced by an increase in the total mass of the digestive system, which is due to an increase in the morphometric parameters of the stomach, liver and intestines. The complex analysis of the morphometric parameters of the intestines of 16 species of waders using the trophic base of the Azov-Black Sea region was carried out. Analysis of the forage base of waders during migratory stopovers showed that all studied species of waders did not differ in the range of forages and the type of feeding. The results of morphometric studies of the intestines of waders confirm that they, as for most birds, are characterized by a shortened intestine. The length of the intestine exceeds the length of the trunk of the body
The plasticity of the digestive system (DS) of birds allows them to use a wide range of feeds, which is especially important for migratory birds. Some fatty acids (FAs) included in the spectrum of polyunsaturated FAs (PUFAs) are not synthesized in the bird organism, and are supplied only with food. They determine the level of unsaturation of lipids, and are essential for the organism. Among other important functions of these FAs are energy: they affect the energy metabolism of muscle cells. This is what determines the demands of migratory birds to the fodder base of migration stops. The largest number of general lipids among investigated species of invertebrates living in the Azov-Black Sea region ponds is found in the organisms N. zonata, A. salina, H. diversicolor, I. baltica (4.6–4.0%). The highest content of PUFAs was revealed to be present in the lipids of mollusks H. acuta and Th. astrachanicus: 32.87–35.73 % of the total amount of FAs. The content of PUFAs in the organism of Chironomis depends on the degree of water salinity. The unsaturation coefficient of FAs (K1) is revealed to be the highest in Mollusk lipids (H. acuta — 1.361; Th. astrachanicus — 1.610) and some Polychaeta. These types of invertebrates are the main source of intake of essential PUFAs by the organism of the waders at migratory stops in the Azov-Black Sea region.
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