Scientific Journal of KubSAU

Polythematic online scientific journal
of Kuban State Agrarian University
ISSN 1990-4665
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№ 141(7), September, 2018

Date issued: 28.09.2018

Physical Sciences and Engineering
549 kb

CALCULATION OF THE VOLUME OF DE-LIVERED BIRD DUNG UNDER FERTILIZER IRRIGATIONS OF TOMATOES IN THE FIRST ROTATION AND CUCUMBERS IN THE SE-COND ROTATION

abstract 1411807001 issue 141 pp. 1 – 18 28.09.2018 ru 520
We have made calculations using the values of dung delivered after the analysis of laboratory research of the soil and irrigation water delivered with organic fertilizers. Based on the data on values of hydraulic resistance coefficients of mixer elements, mixing chamber and diffuser, we found diameters of pressure pipelines, reduced head of NGPR mixer, velocity of flow discharge from mixing nozzles and the mixing chamber. According to the design data of the pump head values, those of the mixer head, the head on inlet into the mixer and head in a reservoir of constant pressure a possibility was received to specify values of factors under studies on location of irrigation system and to test the design data with the help of the experimental value received. A low head system with hydraulic and geometric parameters of mixing is recommended for small farms
555 kb

PARAMETERS OF A DEVICE FOR MAINTAINING CONSTANT FLOW OF LIQUID IN A HYDRAULIC ROW SOWING MACHINE FOR SEEDLING PLANTS

abstract 1411807003 issue 141 pp. 19 – 29 28.09.2018 ru 581
We present results on proving parameters of the device for maintaining uniform flow of liquid in hydraulic row sowing machine for seedling plants. Main difference between row sowing in greenhouse and in field is 10 to 20 times less width between rows. Existing sowing machines (because of little width between rows) can only perform scattered sowing. A method and a scheme of the device for maintaining uniform flow of polydispersed system (working liquid – seeds of seedling plants) are theoretically proved. Parameters of the device for maintaining uniform flow of polydispersed system (working liquid – seeds of seedling plants) are experimentally proved. We have also defined the effect of pipe’s position in the tank on flow of polydispersed system out of it and the effect of polydispersed system parameters (working liquid – seeds of seedling plants) on peculiarities of hydraulic sowing technological process. Testing the experimental row sowing machine for seedling plants determined that this machine adequately performs sowing process and increases productivity 8.3 times compared to manual sowing
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STANDARD MANUFACTURING SCHEME ADAPTATION FOR A SMALL-SCALE INTRAECONOMIC MIXED FODDER PLANT

abstract 1411807004 issue 141 pp. 30 – 40 28.09.2018 ru 365
The research object are methods of standard manufacturing schemes adaptation for small-scale intraeconomic mixed fodder plants. The standard manufacturing scheme adapts for specific plant by process of elimination of unnecessary additional technological modules in this configuration, or in their changeover by other modules allowing to achieve the required quality level of processing of raw materials or compound feed by changeover of the available technological operations by more perfect and also in adding in the scheme of new modules. The adaptation algorithm of the standard manufacturing scheme for production the compound feeds is developed for the intraeconomic plant. The algorithm creates an opportunity as much as possible to consider specific conditions and needs of specific agricultural enterprise in case of design. Application of the adapted modular technological circuits on the designed small-scale formula-feed plants will allow to increase considerably nutritional value and biological safety of the produced compound feeds
Life Sciences
288 kb

MOLECULAR MARKERS OF THE EFFECT OF INTERACTION "GENOTYPE-ENVIRONMENT" IN PLANTS ON THE BASIS OF THE DECAY OF mRNA IN VIVO (RNAi) AND IN VITRO (OMMP-SYSTEM)

abstract 1411807012 issue 141 pp. 41 – 64 28.09.2018 ru 511
This overview and theoretical article deals with the consideration of hypothetical possibilities for the development of molecular-kinetic markers of agricultural plants allowing to quantify the effect of genotype-environment interaction on the basis of stability studies of mRNA. The development in view is based on the results of studies of the mRNA decay identity in vivo and in vitro (the ommp system), as well as the phenomenon of RNA interference (RNAi), widely studied in plants. The ommp system has allowed to establish the relationship of the cultivar-specific growth reaction to the effects of low positive temperatures, dehydration, salinity, illumination and biologically active substances with the stability of the total and a number of gene-specific mRNAs of green and etiolated seedlings of winter soft wheat (Triticum aestivum L.) and winter barley (Hordeum vulgare L.). Similar studies of mRNA stability have been conducted on ripening grains of maize (Zea mays L.), with a particular result of the in vivo and in vitro decay identity confirmed for major mRNAs of stored proteins, 19 and 22 kDa zeins, of normal maize and mutant according to the regulatory gene opaque-2, changing the amount and stability of zein mRNA in the maturing grain of high-lysine maize. Regulatory response of the organism through RNAi is also multiple and includes neutralization of viral and bacterial infections, reaction to pathogens and biologically active substances, circadian rhythms, water stress, hypoxia, mechanical stress, mineral nutrition, salt stress and temperature changes. Unfavorable environmental influences result in an increase or decrease in the expression of certain microRNAs (miRNAs). The change in mRNA stability is an important component of the gene expression regulation system in eukaryotic cells. The main determinants of mRNA stability are in the 3'-untranslated region. It is the It is the (U)nА sequence and the degree of polyadenylation of mRNA, i.e. length of its terminal homonucleotide chain. It is to this region that mRNA molecules are complementary to miRNA. The most important component, which largely determines the regularity of the genotype-environment interaction, is the polyadenyl sequence at the 3 'end of the mRNA. Its length depends both on the genotype and on the environmental conditions. There is evidence that polyadenylation degree of mRNA determines the secondary structure of the molecule. As is known, deadenylation of mRNA reduces its lifetime, and when the poly-A-tail reaches several dozens of nucleotides, an explosive disintegration of the mRNA molecule occurs. Consequently, in a living cell the following mRNA decomposition scheme appears to be logical: shortening the poly-A-tail of the mRNA opens the sites of miRNA interaction with the 3'-non-coding region of the mRNA molecule, which causes its degradation. Thus, it is safe to assume that the interaction of mRNA and miRNA in the ommp system is the underlying process for molecular-kinetic markers under development
629 kb

GIANT FRUITS OF PLANTS AS MODEL OBJECTS IN BREEDING RESEARCHES

abstract 1411807014 issue 141 pp. 65 – 76 28.09.2018 ru 359
The article considers phenomenon of the formation of giant fruits in higher plants. As regards the size of plants, several positions are distinguished such as giant fruit, in a common habit, i.e. the size of the whole plant; depending on the harvest. Examples of different types of gigantism in plants are given. It is shown that since the ancient times the phenomenon of gigantism has been widespread. Various reasons for the appearance of abnormally large plants and fruits are considered, growth genes regulating the process of cell division and formation are given. The study of the connections between plant organs that conduct and consume the assimilant, redistribute and use carbon is easy in the concept of donor-acceptor relationships. As a model object for studying the growth of giant fruits, we have examined varieties of pumpkin called Cucurbita maxima. Thus, in a short period, a paradigm shift occurred. From surprise and enthusiasm for the gigantism of plants, the issue of cellular growth regulation, the criteria for evaluating the reproduction process, the search for links with the size, number of cells and their properties is become. New model objects have appeared, the analysis of images of plant giants has shown a unique visual resource on various objects. New knowledge about the growth of plants and the ability to regulate the process formed the basis for selection programs for obtaining vegetables with specified fruit parameters, which makes them competitive in the market nowadays
236 kb

CROP PRODUCTIVITY IN IRRIGATED AGRICULTURAL LANDSCAPE DEPENDING ON THE SYSTEM OF PRIMARY TILLAGE AND FERTILIZERS

abstract 1411807019 issue 141 pp. 77 – 96 28.09.2018 ru 399
The article considers data obtained in long-term stationary experiment in Kuban state agrarian University, which was started in 1991 for old irrigated leached black soil of the central zone of the Krasnodar region. Studies were conducted in two rotations of seven-field grassy-grain-row crop rotation. The duration of irrigation - more than 30 years. It is established that long-term irrigation by sprinkling led to the soil over-compaction in both arable and subsurface layers. In the arable layer of 0-30 cm density of 0.14-0.17 g/cm3 exceeds the maximum allowable. We have noticed a sharp decrease in humus in the arable layer to 2.46-2.67 per cent. The weak acidification of the active root layer was noted, salt PH 5.0-5.3. In the soil-absorbing complex, the content of calcium decreases. It was found that the productivity of crops cultivated in the rotation of two rotations was greatly influenced by the system of basic soil treatment. In the first rotation, the decrease in productivity of cultivated crops against the background of the surface treatment system amounted to an average of 4.2% compared with deep: subsurface tillage and moldboard. In the second rotation after 14 years against the background of shallow surface treatment crop rotation productivity decreased by 11.2 %. The dependence of the fertilizer system and crop yield on the background of different main soil tillage is established. When using the mineral fertilizer system, the decrease in crop productivity, while minimizing the main tillage in the second rotation was 15.2%, and against the background of the organic fertilizer system by 12.7%. The deep sub-soil treatment provided an increase in the productivity of old irrigated leached black soil in the second rotation against organic fertilizers by 3.6%. Thus, the organic system of fertilizers on the background of deep main soil tillage allows to obtain crop yields in the framework of grassy-grain-row crop rotation on wetlands degraded old-irrigated lands is not lower than using high doses of mineral fertilizers
Life Sciences
351 kb

PLUMAGE COLOR GENE INTERACTION IN CHICKENS (REVIEW)

abstract 1411807021 issue 141 pp. 97 – 110 28.09.2018 ru 304
Coloring the plumage of chickens is a complex genetically determined sign. The study of the interactions of the main genes of chicken pigmentation was started by A.S. Serebrovsky. The most complete information on the genes of coloring plumage of chickens and down of chickens is given by Z.M. Kogan, indicating the clutch groups and the arrangement of these genes on the chromosome map. In the 1990s, the interaction of color genes, pen pattern and modifier genes affecting the intensity of the main color and pattern of the pen was described in detail. It was found that in pigs the pigmentation is regulated by the MC1-R melanocortin receptor associated with the locus E. Due to molecular studies, loci of dominant white color (I), recessive white color (c / c), striped pen pattern (B) adherent to the floor , and spotted spot locus (mo). The final phenotype depends not only on individual genes, but also on their interactions and the genetic environment as a whole. The same genes can produce different patterns and shades of the main plumage, and different genes determine the same phenotypes. Despite the fact that there was significant progress in determining the molecular causes of the appearance of a particular type of color in chickens, much remains to be learned
14474 kb

DEVELOPING A VETERINARY TEST FOR THE DIAGNOSIS OF GASTROINTESTINAL DISEASES IN HORSES BASED ON DATA FROM THE UCI REPOSITORY WITH THE USE OF ASC-ANALYSIS

abstract 1411807033 issue 141 pp. 111 – 175 28.09.2018 ru 279
This article briefly discusses a new innovation (brought to a level that ensures its practical use) method of artificial intelligence: automated system-cognitive analysis (ASC-analysis) and its programmatic toolkit which is called intellectual system "Eidos". A detailed numerical example of the solution demonstrating the technology of creating a veterinary diagnostic test of gastrointestinal diseases of horses is given. As the source data, we use data from the UCI repository, kindly given by Mary McLeish and Matt Cecile (Department of computer science of University of Guelph, Ontario, Canada N1G 2W1, with the support of a sponsor: Will Taylor. The developed test is used to solve the problems of diagnosis, decision support and examining the simulated subject area by studying its model. The results of the study can be used by anyone, due to the fact that Eidos the universal automated system, which is a tool of ask-analysis, is in full open free access on the author's website at: http://lc.kubagro.ru/aidos/_Aidos-X.htm, and numerical examples of solving veterinary problems with the use of artificial intelligence technologies are placed as a cloud Eidos-application 129
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