Model of methods of forming biological picture of the world of secondary school pupils

Introduction: the problem of development of a model of methods of forming the biological picture of the world of pupils as a multicomponent and integrative expression of the complete educational process is considered in the article. It is stated that the results of the study have theoretical and practical importance for effective subject preparation of senior pupils based on acquiring of systematic and generalized knowledge about wildlife. The correspondence of the main idea of the article to the scientific profile of the journal "Integration of Education" determines the choice of the periodical for publication. Materials and methods: the results of the analysis of materials on modeling of the educational process, on specific models of the formation of a complete comprehension of the scientific picture of the world and its biological component make it possible to suggest a lack of elaboration of the aspect of pedagogical research under study. Therefore, the search for methods to overcome these gaps and to substantiate a particular model, relevant for its practical application by a teacher, is important. The study was based on the use of methods of theoretical level, including the analysis of pedagogical and methodological literature, modeling and generalized expression of the model of forming the biological picture of the world of secondary school senior pupils, which were of higher priority. Results: the use of models of organization of subject preparation of secondary school pupils takes a priority position, as they help to achieve the desired results of training, education and development. The model of methods of forming a biological picture of the world is represented as a theoretical construct in the unity of objective, substantive, procedural, diagnostic and effective blocks. Discussion and conclusions: in a generalized form the article expresses the model of methods of forming the biological picture of the world of secondary school pupils and gives a teacher the opportunity to use it in practice of subject preparation of pupils.Peer reviewe

URBOECOLOGICAL ZONING OF THE KRASNOYARSK CITY

Proceedings of the XXV ISUF International Conference “Urban Form and Social Context: from Traditions to Newest Demands” (Krasnoyarsk, July 5–9, 2018)As an urban area, Krasnoyarsk is a multi-component system with environmental, social, economic and architectural planning problems like other industrial centres. Analyzing the principles of ecological zoning of the urban environment, the authors took into account several aspects, the main of which was to consider a city as a system of social and functional settlement. The paper highlights the main critical factors of development and proposes easures to improve the quality and comfort of the living environment in the city on t he basis of the regression model of panel data with deterministic effects

Fig. 1 in Eudiaptomus transylvanicus and E. vulgaris (Copepoda: Calanoida: Diaptomidae): comparative morphology, distribution and ecology

Fig. 1. Eudiaptomus transylvanicus (Daday, 1891), female. a – habitus, lateral view; b – genital compound somite; c, c′ – mandible; d – rostrum; e – endopod of leg 2, with Schmeilsche lobus; f – leg 5; g – exopods 2 and 3 of leg 5; h – endopod of leg 5. Scale bars: 0.5 mm (a), 200 µm (b), 50 µm (c, e), 40 µm (d, g), 10 µm (c′, f, h).Published as part of <i>Podshivalina, V.N., Sheveleva, N.G., Semenova, A.S. & Mirabdullayev, I.M., 2022, Eudiaptomus transylvanicus and E. vulgaris (Copepoda: Calanoida: Diaptomidae): comparative morphology, distribution and ecology, pp. 42-54 in Zoosystematica Rossica 31 (1)</i> on page 45, DOI: 10.31610/zsr/2022.31.1.42, <a href="http://zenodo.org/record/10124251">http://zenodo.org/record/10124251</a&gt

Fig. 2 in Eudiaptomus transylvanicus and E. vulgaris (Copepoda: Calanoida: Diaptomidae): comparative morphology, distribution and ecology

Fig. 2. Eudiaptomus transylvanicus (Daday, 1891), male. a – habitus, ventral view; b, b′ – right antennule; c – rostrum; d – leg 5; e – basis of right leg 5; f – exopod 2 of right leg 5; g – endopod of right leg 5; h – exopod 2 of left leg 5. Scale bars: 500 µm (a), 200 µm (b), 100 µm (b′, c, d), 40 µm (e), 30 µm (f), 20 µm (g, h).Published as part of <i>Podshivalina, V.N., Sheveleva, N.G., Semenova, A.S. & Mirabdullayev, I.M., 2022, Eudiaptomus transylvanicus and E. vulgaris (Copepoda: Calanoida: Diaptomidae): comparative morphology, distribution and ecology, pp. 42-54 in Zoosystematica Rossica 31 (1)</i> on page 46, DOI: 10.31610/zsr/2022.31.1.42, <a href="http://zenodo.org/record/10124251">http://zenodo.org/record/10124251</a&gt

Fig. 4 in Eudiaptomus transylvanicus and E. vulgaris (Copepoda: Calanoida: Diaptomidae): comparative morphology, distribution and ecology

Fig. 4. Eudiaptomus vulgaris (Schmeil, 1898), male. a – habitus, lateral view; b – ultimate segments of right antennule; c – leg 5; d – right leg 5 (coxa and basis) and left leg 5; e – rostrum. Scale bars: 0.5 mm (a), 200 µm (c), 300 µm (b), 50 µm (d, e).Published as part of <i>Podshivalina, V.N., Sheveleva, N.G., Semenova, A.S. & Mirabdullayev, I.M., 2022, Eudiaptomus transylvanicus and E. vulgaris (Copepoda: Calanoida: Diaptomidae): comparative morphology, distribution and ecology, pp. 42-54 in Zoosystematica Rossica 31 (1)</i> on page 50, DOI: 10.31610/zsr/2022.31.1.42, <a href="http://zenodo.org/record/10124251">http://zenodo.org/record/10124251</a&gt

Fig. 3 in Eudiaptomus transylvanicus and E. vulgaris (Copepoda: Calanoida: Diaptomidae): comparative morphology, distribution and ecology

Fig. 3. Eudiaptomus vulgaris (Schmeil, 1898), female. a – habitus, ventral view; b – genital compound somite; c – rostrum; d – mandible; e – coxa of leg 5; f – exopod 1 and endopod of leg 5; g – leg 5; h – exopods 2 and 3 of leg 5; i – endopod of leg 2, with Schmeilsche lobus. Scale bars: 0.5 mm (a), 100 µm (b), 50 µm (c, e, f, g, h, i), 20 µm (d).Published as part of <i>Podshivalina, V.N., Sheveleva, N.G., Semenova, A.S. & Mirabdullayev, I.M., 2022, Eudiaptomus transylvanicus and E. vulgaris (Copepoda: Calanoida: Diaptomidae): comparative morphology, distribution and ecology, pp. 42-54 in Zoosystematica Rossica 31 (1)</i> on page 48, DOI: 10.31610/zsr/2022.31.1.42, <a href="http://zenodo.org/record/10124251">http://zenodo.org/record/10124251</a&gt

OPPORTUNITIES OF RUSSIAN ADOPTED MILK FORMULA WITH PARTIALLY HYDROLYZED PROTEIN IN NUTRITION OF INFANTS

The article presents modern data on the formula of breast milk and principles of adaptation of children’s milk mixtures. Authors show the reasonability of inclusion of some ingredients in the mixtures. The proper experience of nutrition with children’s milk formula «Agusha Gold 1» is presented, its influence on physical development of infants first 6 months old is analyzed. The product is welltolerated with children without allergic family history and with infants from risk groups of atopy and ones with minimal allergic symptoms (not related to cow milk proteins). Most children with mild and changeable allergic symptoms showed total absence of dry skin on cheeks and rash.Key words: breast milk, breast feeding, children’s milk formulas, bifidobacteria, oligosaccharides, allergy prophylaxis.(Voprosy sovremennoi pediatrii — Current Pediatrics. 2011; 10 (4): 93–99)</span