Ecological plasticity of nut crops of the collections of the federal scientific center for agroecology RAS

2019 ◽  
pp. 105-115
Author(s):  
А.Ш. Хужахметова
Keyword(s):  
Corylus Avellana ◽  
Taxonomic Composition ◽  
Morphological Features ◽  
Scientific Center ◽  
Significance Level ◽  
Ecological Plasticity ◽  
Protective Forest ◽  
Corylus Avellana L ◽  
Academy Of Sciences ◽  
Trees And Shrubs

Показана актуальность изучения экологической пластичности древесных растений в связи с необходимостью подбора адаптированного видового состава деревьев и кустарников для защитных лесных насаждений в условиях климатических изменений. Установлено, что экологическая пластичность и пределы толерантности растений связаны со свойством организмов адаптироваться к тому или иному диапазону факторов среды. В статье представлен таксономический состав орехоплодных культур коллекций ФНЦ агроэкологии РАН. Это шесть видов рода Juglans: J. regia, J. mandshurica, J. cinerea, J. rupestris, J. ailanthifolia, J. nigra и три вида рода Corylus: С. avellana L., С. аmericana W., сорта С. pontica C. Koch Президент, Футкурами, Черкесский2. Приведены сведения о положительном опыте культивирования Corylus avellana L. в плантационных насаждениях (1,6 га, посадка рядовая, схема размещения 55 м) в условиях южных черноземов. Цель исследований изучить экологическую пластичность орехоплодных кустарников коллекций ФНЦ агроэкологии РАН. На примере родового комплекса Corylus получены материалы по экологической пластичности орехоплодных кустарников в условиях каштановых (кадастр. 34:36:0000:14:0178), светлокаштановых почв (34:34:000000:122 34:34:060061:10). Установлены уровни изменчивости морфологических признаков ассимиляционного аппарата и плодов С. avellana L., сортов С. pontica C. Koch., которые согласуются с зимо и засухоустойчивостью. Кластерный анализ позволил выявить корреляцию признаков при 5 уровне значимости. Для целей защитного лесоразведения и озеленения засушливых районов рекомендованы Corylus avellana и Черкесский2 с выраженной вариабельностью морфологических признаков, которая указывает на их широкую экологическую валентность и адаптационные возможности в рассматриваемых условиях. The urgency of studying the ecological plasticity of woody plants in connection with the need to select an adapted species composition of trees and shrubs for protective forest plantations in the context of climate change is shown. It is established that the ecological plasticity and tolerance range of plants is associated with the ability of organisms to adapt to a particular range of environmental factors. The article presents the taxonomic composition of nut crops in the collections of FSC Agroecology RAS. Six species of Juglans: J. regia, J. mandshurica, J. cinerea, J. rupestris, J. ailanthifolia, J. nigra and three species of the genus Corylus: С. avellana L., С. аmericana W., varieties of C. pontica C. Koch the President, Futkurami, Circassian2. Data on positive experience of cultivation of Corylus avellana L. in plantation plantings (1,6 hectares, landing ordinary, the scheme of placement of 55 m) in the conditions of southern chernozems are given. The purpose of the research is to study the ecological plasticity of nutbearing shrubs of the collections of the Federal scientific center for Agroecology Russian Academy of Sciences. For example, a generic complex Corylus submissions received on the environmental plasticity of nut bushes in the conditions of brown (the cadaster nubmer 34:36:0000:14:0178), light chestnut soils (34:34:000000:122 34:34:060061:10). The levels of variability of morphological features of the assimilation apparatus and fruits of Corylus avellana L., С. pontica C. Koch varieties were established., which are consistent with winter and drought resistance. Cluster analysis revealed the correlation of features at 5 significance level. Corylus avellana and Circassian2 with a pronounced variability of morphological features, which indicates their broad ecological valence and adaptation capabilities in the conditions under consideration, are recommended for the purposes of protective afforestation and greening of dry areas.

scholarly journals Frost resistance of hazelnut varieties in the Central Black Earth Region of Russia

2021 ◽  
Vol 34 ◽  
pp. 01006
Author(s):  
Natalya Saveleva ◽  
Alexander Zemisov ◽  
Andrey Yushkov ◽  
Nadezhda Borzykh ◽  
Vladislav Chivilev
Keyword(s):  
Frost Resistance ◽  
Geographical Origin ◽  
Corylus Avellana ◽  
Comparative Assessment ◽  
Temperature Decrease ◽  
Scientific Center ◽  
Climate Conditions ◽  
Low Level ◽  
Breeding Work ◽  
Corylus Avellana L

The I. V. Michurin Federal Scientific Center has concentrated a hazelnut genotypes collection of various ecological and geographical origin. Based on existing collection contemporary breeding work pointed at creating of new adapted to the soil and climate conditions of the Central Black Earth Region varieties of nuts. In this paper, we analyzed the indicators of frost resistance of hazelnut varieties of the species Corylus avellana L. and Corylus pontica C. (Koch.). Based on a comparative assessment valuable genotypes identification for producing and further breeding was the main purpose of the study. The paper shows the results of studying of 37 hazelnut varieties by the reaction to temperature decrease up to −40°C after standard quenching. We have identified the sources of high frost resistance, among which a special place is occupied by a new Schelkunchik variety. This genotype has no damage of the bark and cambium tissues, reversible damage of wood and vegetative buds, and a low level of male inflorescences lethality (2%). We have identified the frost resistance potential of the varieties Moskovskiy rubin, Ivanteevskiy krasniy, Pushkinskiy krasniy, Moscovskiy ranniy, Academik Yablokov. It is sufficient for cultivation of those varieties at the conditions of the Central Black Earth Region of Russia.

Regulation of increase of biodiversity of woody plants in protective forest plantings of the Volga region

2018 ◽  
pp. 46-59
Author(s):  
А.В. СЕМЕНЮТИНА ◽  
И.П. СВИНЦОВ ◽  
А.Ш. ХУЖАХМЕТОВА ◽  
В.А. СЕМЕНЮТИНА
Keyword(s):  
Gene Pool ◽  
Woody Plants ◽  
Volga Region ◽  
Forest Plantations ◽  
Russian Academy Of Sciences ◽  
Arid Conditions ◽  
Protective Forest ◽  
Academy Of Sciences ◽  
Trees And Shrubs ◽  
Selection Of

Защитное лесоразведение в засушливых условиях Поволжья связано с использованием интродуцированных древесных растений. Несмотря на большой опыт защитного лесоразведения, состояние всех видов насаждений в регионе нельзя считать удовлетворительным. Причины: ошибки в подборе деревьев и кустарников, в оценке генофонда, в разработке ассортимента. Отсутствие научно обоснованного регламента повышения биоразнообразия древесных растений в защитных лесных насаждениях Поволжья приводит к инвазиям. На примере коллекционных дендрологических участков (Волгоградская, Самарская области) приведены материалы по выявлению потенциальных рисков последствий интродукции для повышения биоразнообразия защитных лесных насаждений. Цель – научное обоснование регламента подбора интродуцированных деревьев и кустарников для повышения биоразнообразия защитных лесных насаждений в засушливых условиях. Разработанный регламент обогащения дендрофлоры включает алгоритм количественного и качественного улучшения ассортимента и выбор лучшего варианта из возможных с использованием кластерного подхода, системы методов и критериев. Для выполнения поставленных задач научно-исследовательские работы были сконцентрированы на биоресурсах деревьев и кустарников объектов Федерального научного центра агроэкологии, комплексных мелиораций и защитного лесоразведения Российской академии наук (ранее ВНИАЛМИ) и его филиалов. Генофонд деревьев и кустарников представлен 700 таксонами. В статье обосновано использование в защитных лесных насаждениях Поволжья интродуцентов многоцелевого назначения (родовые комплексы семейств Rosaceae, Caprifoliaceae, Oleaceae, Fabaceae). Представлен реестр родов экономически важных семейств коллекционного фонда. Они обладают адаптивностью, включают экономически важные группы. Расширение биоразнообразия древесной растительности защитных лесных насаждений посредством введения кустарников различных форм роста (высоких, средних, низких) способствуют улучшению экологических условий и сохранению биологического разнообразия ландшафтов. Представлены материалы мониторинга дендрологических коллекций и экспериментальных популяций, образующих самосев. Установлено, что при конструировании защитных лесных насаждений различного целевого назначения необходимо использовать разнообразие перспективных и экономически важных деревьев и кустарников (лесомелиоративных, декоративных, плодово-ягодных, медоносных, лекарственных). Для лесомелиоративного обустройства деградированных экосистем рекомендовано 168 видов деревьев и кустарников. Для создания насаждений на малопродуктивных землях внедряется 90 видов интродуцированных кустарников многоцелевого назначения. Прогноз перспективности генофонда древесных растений для защитного лесоразведения базируется на многолетнем агроэкологическом мониторинге родовых комплексов дендрологических коллекций Федерального научного центра агроэкологии, комплексных мелиораций и защитного лесоразведения Российской академии наук и включает создание фонда посадочного материала древесных видов с учетом экологичности, хозяйственной пригодности и инновационной привлекательности. Protective afforestation in the arid conditions of the Volga region is associated with the use of introduced woody plants. Despite the great experience of protective afforestation, the condition of all types of plantings in the region cannot be considered satisfactory. Reasons: errors in the selection of trees and shrubs, in the evaluation of the gene pool, in the development of the assortment. The lack of scientifically sound regulations for increasing the biodiversity of woody plants in the protective forest plantations of the Volga region leads to invasions. On the example of collections dendrology plots (Volgograd and Samara regions), materials are provided to identify potential risks of the consequences of introductions to enhance the biodiversity of protective forest plantings. The goal is the scientific substantiation of the regulations for the selection of introduced trees and shrubs to enhance the biodiversity of protective forest plantations in arid conditions. The developed procedure for enriching dendroflora includes an algorithm for quantitative and qualitative improvement of the assortment and the choice of the best option possible with the use of a cluster approach, a system of methods and criteria. To carry out the tasks set, the research work was concentrated on the bioresources of trees and shrubs of the facilities of the Federal Scientific Centre of Agroecology, Complex Melioration and Protective Afforestation of Russian Academy of Sciences (formerly VNIALMI) and its branches. The genefond of trees and shrubs is represented by 700 taxa. The article substantiates the use of multi-purpose plants in protective forest plantations (Rosaceae, Caprifoliaceae, Oleaceae, Fabaceae) of the Volga region. The register of genera of economically important families of the collections fund is presented. They have adaptability, they include economically important groups. Expanding the biodiversity of tree vegetation of protective forest plantations through the introduction of shrubs of various forms of growth (high, medium, low) contribute to improving environmental conditions and preserving the biodiversity of landscapes. Materials of monitoring dendrological collections and experimental populations that form sowing of young plants are present. It is established that when designing protective forest plantings for various special purposes, it is necessary to use a variety of perspective and economically important trees and shrubs (forest meliorative, ornamental, fruit and berry, honey, medicinal). For forest reclamation of degraded ecosystems, 168 species of trees and shrubs are recommended. For the creation of plantings on unproductive land, 90 species of introduced shrubs of multi-purpose use are being introduced. The forecast of the perspective of the gene pool of woody plants for protective afforestation is based on long-term agroecological monitoring of the generic complexes of dendrological collections of the Federal Scientific Centre of Agroecology, Complex Melioration and Protective Afforestation of Russian Academy of Sciences, and includes the creation of a stock of planting material for tree species, taking into account environmental friendliness, economic suitability and innovative attractiveness.

Научное обоснование создания селекционно-семеноводческого центра древесных и сельскохозяйственных растений

2020 ◽  
pp. 3-17
Author(s):  
A.I. Belyaev ◽  
B.V. Repnikov ◽  
A.V. Semenyutina ◽  
A.V. Solonkin ◽  
A.Sh. Khuzhakhmetova
Keyword(s):  
Russian Federation ◽  
Tree Species ◽  
Scientific Center ◽  
Russian Academy Of Sciences ◽  
Nursery Production ◽  
The Russian Federation ◽  
The Creation ◽  
Academy Of Sciences ◽  
Trees And Shrubs ◽  
Selection Of

The Federal Scientific Center for Agroecology of the Russian Academy of Sciences (formerly the all-Russian research Institute of agroforestry) is one of the only scientific institutions in Russia that solves the problems of protecting soils from degradation and desertification and increasing their fertility by using the protective properties of adapted wood, shrub and herbaceous vegetation. Continuous use in research and obtaining ecological, economic and social benefits from the bioresources of economically valuable trees and shrubs of their own selection are key elements for developing a methodology for the innovative development of modern green technologies, including nursery production in the arid region of Russia. The Federal Scientific Center of Agroecology of the Russian Academy of Sciences has considerable experience in creating and implementing the results of scientific work aimed at achieving high and sustainable indicators in the forest and agro-industrial complex. It is shown that the creation of selection and seed centre has sufficient space dendrological collections, mother cells, of commercially valuable ornamental plantations, agroforestry, fruit, pasture trees, shrubs (Samara, Volgograd, Oryol, Astrakhan regions, Altai, Stavropol Krai), nursery and greenhouse complex (Nizhnevolzhsky station on selection of tree species), and land – more than 60 thousand hectares of land. Over the years, many years of ecological and experimental monitoring have been conducted on the introduction, selection, protection of plants from pests and diseases, varietal, seed and nursery production of economically important tree species in arid conditions. It is established that the unique capabilities of adaptive selection of a range of commercially valuable trees and shrubs (660 species, forms, hybrids and varieties) to meet changing conditions and requirements provide a collection funds of woody plants FSC of Agroecology Russian Academy of Sciences and its branches (West-Siberian agroforestry station, Povolzhsky agroforestry station, Nizhnevolzhsky station on selection of tree species, etc.). The region has established introduction resources, seed plantations of tree and shrub biodiversity (340 ha of forest-seed plantations, more than 150 ha of forest plantations). Complex resistant varieties were obtained, a valuable breeding gene pool was identified, and production nurseries were organized in the experimental network of the Federal Scientific Center of Agroecology of the Russian Academy of Sciences (Nizhnevolzhskaya station for selection of tree species) for rationalization of nature management, fight against drought and desertification in low-forest areas. A strategy for breeding stone crops has been developed to accelerate the creation of a new source material and varieties for cultivation using modern intensive technologies that ensure stable productivity with high fruit quality in the Lower Volga region. An extensive collection of field crops, theoretical base and practical developments has been accumulated. Including annually replenished collections of more than 2500 hybrids and varietals of winter and spring wheat, spring barley, seed millet, sorghum crops, trees, shrubs, perennial fruit crops, as well as a database of traits for more than 5000 samples of complex resistant to stress factors. The mission of the breeding and seed center is to accelerate the creation and introduction into mass production of adapted innovative varieties and hybrids of agricultural and forest crops that meet the most modern requirements of agroecological regulations for the production and processing of agricultural products. This will ensure the development of both the internal food security of the region and the Russian Federation as a whole, and increase the export potential. The key regions of the Russian Federation for the development of the Program are the following: Volgograd, Saratov, Orenburg, Samara, Oryol, Kursk, Astrakhan regions, Altai, Stavropol territory, Republic Kalmykia. Федеральный научный центр агроэкологии Российской академии наук имеет значительный опыт создания и внедрения результатов научной работы, направленной на достижение высоких и устойчивых показателей в лесном и агропромышленном комплексе. Для создания селекционно-семеноводческого центра имеются обширные дендрологические коллекции, маточники, ценные декоративные плантации деревьев и кустарников (Самарская, Волгоградская, Орловская, Астраханская области, Алтайский и Ставропольский край), питомники и тепличные комплексы (Нижневолжская станция по селекции древесных пород). В регионе созданы интродукционные ресурсы, семенные плантации, производственные питомники биоразнообразия деревьев и кустарников (340 га лесных посевных плантаций, архивы клонов, более 150 га лесных плантаций). Создана обширная коллекция полевых культур (2500 гибридов и сортов озимой и яровой пшеницы, ярового ячменя, семян проса, сорго, технических культур, деревьев, кустарников, многолетних плодовых культур), теоретическая база и практические разработки. Миссия селекционно-семенного центра - ускорить создание и внедрение в серийное производство адаптированных инновационных сортов и гибридов сельскохозяйственных и лесных культур, отвечающих самым современным требованиям агроэкологических нормативов для производства и переработки сельскохозяйственной продукции.

ПРЕРЫВИСТОЕ ОСВЕЩЕНИЕ ПОВЫШАЕТ ЭФФЕКТИВНОСТЬ ИСКУССТВЕННОГО ОСЕМЕНЕНИЯ КУР В КЛЕТКАХ

2019 ◽  
Keyword(s):  
Reproductive Performance ◽  
Artificial Insemination ◽  
Egg Production ◽  
Laying Hens ◽  
Electric Energy ◽  
Productive Performance ◽  
Feed Conversion ◽  
Scientific Center ◽  
Academy Of Sciences ◽  
Egg Fertility

Intermittent Lighting Improves the Efficiency of Artificial Insemination in Cage Housed Laying Hens Kavtarashvili A.Sh., Kolokolnikova T.N. Federal Scientific Center “All-Russian Research and Technological Poultry Institute” of Russian Academy of Sciences Omsk Agrarian Scientific Center Summary: The effects of different lighting regimes on the oviposition schedule, productive performance, and reproductive efficiency in cage housed laying hens of layer parental flock (Hisex White-R) were studied; the reasonable regime of artificial insemination (AI) under intermittent lighting is proposed. It was found that intermittent lighting regime 1L:4D:4L:1D:4L:10D compared to the constant lighting significantly alters oviposition schedule: under this regime 82.3% of all daily eggs were laid until 9 am (vs. 66.6% in control). This regime and AI at 10 am improved the productive and reproductive performance compared to control (constant lighting 16L:8D and AI at 12 am): mortality by 1.9%, egg production per initial hen by 3.8%, egg weight by 1.1%, percentage of eggs suitable for incubation by 1.9%, egg fertility by 0.9%, hatchability by 2.3%, hatch of chicks by 2.9%, feed conversion ratio (kg of feed per 10 eggs) by 5.3%, the expenses of electric energy for lighting (per 1000 eggs suitable for incubation) by 54.5%. Key words: INTERMITTENT LIGHTING, CAGE HOUSED LAYERS, ARTIFICIAL INSEMINATION (AI), OVIPOSITION SCHEDULE, AI TIMING, PRODUCTIVE PERFORMANCE, REPRODUCTIVE PERFORMANCE

THE USE OF GLYCEROL FOR THE CRYOPRESERVATION OF INCONNU’S SPERM

2017 ◽  
pp. 117-121
Author(s):  
Amina Kumarovna Karamuldaeva ◽  
Andrey Mikhailovich Tikhomirov
Keyword(s):  
Semen Quality ◽  
Life Time ◽  
Egg Yolk ◽  
Maximum Activity ◽  
Equilibration Time ◽  
Glycerol Concentration ◽  
Scientific Center ◽  
Spawning Period ◽  
Base Solution ◽  
Academy Of Sciences

The article studies the possibility to use glycerol as cryoprotectant, instead of dimethylsulfoxide for cryopreservation of sperm of inconnu ( Stenodus leucichthys Gueldenstaedtii, 1772). Investigations were carried out from 2015 to 2016 in the laboratory of the Southern Scientific Center, Russian Academy of Sciences, on the basis of the Astrakhan State Technical University. The material collected on the Alexander sturgeon hatcheries (the Astrakhan region) in the spawning period. Native sperm of 6 male inconnu species was used as a control means. The semen quality was determined in terms of moving activity (life time) of sperm after its activation by water. As the cryoprotectant there were used: base solution - 80%, sucrose - 1.71 g/l, mannite - 0.98 g/l, yolk - 10%, dimethylsulfoxide - 10% and base solution - 87%, sucrose - 1.71% g/l, mannite - 0.98 g/l, yolk - 10%, glycerol - 3 variants: 3; 5 and 10%. In order to provide the most complete penetration of cryoprotectants into the cells there were used electrostimulation of cell membranes. Equilibration time was 5 and 15 minutes. Thawing semen was performed in a water bath at a temperature of 38-40°C. For removing protectors from cells there was chosen a saline solution (0.7% NaCl) as isotonic solution. In tests using dimethylsulfoxide life activity of sex cells was 2 times lower than in tests with glycerol: 78 and 186.2 s at the end of equilibration and 52.3 and 128.9 s after thawing. Sperm showed maximum activity under 5% glycerol concentration during equilibration - 15 min. Concentration of 3% was insufficient, concentration of 10% was excessive, as it suppressed activity of sperm. Egg yolk which coagulated together with glycerol, making difficulty for observing, had to be excluded from the composition of cryoprotectant.

First Research Library in Dagestan

2009 ◽  
pp. 103-107
Author(s):  
Kurban A Ammaev
Keyword(s):  
Research Library ◽  
Scientific Center ◽  
Russian Academy Of Sciences ◽  
Academy Of Sciences

The author proves that the library which was opened in 1899 at the Statistics Committee of Dagestan region can be considered the first research library in the region, because it promoted the growth of research potential of the Committee and the development of own methods of conducting the various researches, and also the library was of great assistance to experts and scientists in studying the region. Its stocks formed the basis of Research library of the Dagestan Scientific Center, Russian Academy of Sciences.

Software including the functions of automated analysis of electric power consumption in pipeline oil transportation

2011 ◽  
Vol 8 (1) ◽  
pp. 233-238
Author(s):  
R.M. Bogdanov ◽  
S.V. Lukin
Keyword(s):  
Power Consumption ◽  
Electric Power ◽  
Data Model ◽  
Automated Analysis ◽  
Petroleum Products ◽  
Electric Power Consumption ◽  
Scientific Center ◽  
Relational Data Model ◽  
Oil Transportation ◽  
Academy Of Sciences

Oil and petroleum products transportation is characterized by a significant cost of electric power. Correct oil and petroleum products accounting and forecasting requires knowledge of many factors. The software for norms of electric power consumption analysis for the planned period was developed at the Ufa Scientific Center of the Russian Academy of Sciences. Based on the principles of the relational data model, a schematic diagram/arrangement for the main oil transportation objects was developed, which allows to hold the initial data and calculated parameters in a structured manner.

Nondormant mutants in a temperate tree species, Corylus avellana L.

1985 ◽  
Vol 70 (6) ◽  
pp. 687-692 ◽  
Author(s):  
M. M. Thompson ◽  
D. C. Smith ◽  
J. E. Burgess
Keyword(s):  
Tree Species ◽  
Corylus Avellana ◽  
Corylus Avellana L
Sign in / Sign up

Export Citation Format

Share Document