05549oam 2200649I 450 991095791450332120251117110920.00-429-16206-51-4822-6379-310.1201/b18464 (CKB)2670000000560100(EBL)1711406(SSID)ssj0001481448(PQKBManifestationID)12570132(PQKBTitleCode)TC0001481448(PQKBWorkID)11501611(PQKB)10720245(MiAaPQ)EBC1711406(OCoLC)911127966(EXLCZ)99267000000056010020180331h20152015 uy 0engur|n|---|||||txtccrBiological systems, biodiversity, and stability of plant communities /edited by Larissa I. Weisfeld, PhD, Anatoly I. Opalko, PhD, Nina A. Bome, DSc, and Sarra A. Bekuzarova, DSc1st ed.Oakville, Ontario :Apple Academic Press,[2015]©20151 online resource (547 p.)Description based upon print version of record.1-77188-064-3 Includes bibliographical references at the end of each chapters.Cover; About the Editors; Contents; List of Contributors; List of Abbreviations; List of Symbols; Preface; Introduction; Part I: Interaction of Anthropogenic Pressure on the Environment: Global Warming and Biological Stability; Chapter 1: Anthropo-Adaptability of Plants as a Basis Component of a New Wave of the "Green Revolution"; Chapter 2: Optimization of the Structurally Functional Changes in the Cultured Phytocoenoses in the Areas with Extreme Edaphic-Climatic Conditions; Part II: Directions of Selection and Evaluation Methods of Breeding of Galega Eastern and Red Clover in BelarusChapter 3: Source Material for Breeding Varieties of Red Clover for Different Ways to UseChapter 4: Results of Electrophoretic Analysis of Seed Storage Proteins of Variety Samples of Red Clover and Galega Orientalis; Chapter 5: Use of Genotypic Variability of Galega Orientalis for Identification of Varieties; Part III: Problems of Grain Crops Growing on Acid Soils of the European North; Chapter 6: Problems of Grain Crops Growing on Acid Soils of the European North; Chapter 7: Dynamics of Acidity and the Aluminum Content in Podzolic SoilChapter 8: Role of the Paternal and Maternal Components of Crossing on Resistance of Oats Hybrids to Aluminum IonsChapter 9: Experience of Studying of Genetic Control of Barley Aluminum Resistance; Chapter 10: Action of Some Genetic Systems of Plants of Oats and Barley Differing on Resistance to Environmental Abiotic Stressors; Part IV: Scientifically Substantiated Soil and Climatical Regions for the Industrial Cultivation of Crops; Chapter 11: Scientifically Substantiated Soil and Climatical Regions for the Industrial Cultivation of Fruit Crops in UkraineChapter 12: Sugar Beet Productivity Formation Depending on Foliar Application of MicroelementsChapter 13: Market Development Trends of Crop Produce in Ukraine; Chapter 14: Effect of Nutrient Media Containing Natural and Chemically Modified Starches on Haploid Production in Spring Barley Anther Culture in vitro; Part V: Bio-Organic Farming; Chapter 15: Efficient Strain of Slowgrowing Nodulating Bacteria Bradyrhizobium Japonicum 84KL as a Basis of Biofertilizer Soyarhiz; Chapter 16: Selection of Competitive and Efficient Strains of Rhizobium GalegaeChapter 17: Degradation of Triethylamine by Strain Rhodococcus Qingshengii B-823DChapter 18: Strawberry Pollen Breeding for Cold Resistance; Part VI: Innovative Technologies of Cultivation of Agricultural Crops; Chapter 19: Application of Natural Springs of Mountain Zone of North Kaukazus for Increase of Selenium Content in Garlic; Chapter 20: Stimulators of Increase of Lucerne Seeds Germination; Chapter 21: Oil Flax in the Foothills of Northern Caucasus; Chapter 22: Improvement of Cultivation and Harvesting of Festulolium Seed in the Forest-Steppe of Central Chernnozem Zone of RussiaChapter 23: Elements Cultivation Technology Optimization of Melilotus Albus Medik. In the Middle Volga RegionThis book discusses theoretical approaches to the taxonomy of biological systems and theory and mathematical approaches to the problem of plant diversity, cultivation, and the environment. Particular attention is given to theoretical and practical problems of soil and the environmental sustainability of phytocoenosis, with the goal to enhance the productivity of agricultural crops: cereals, legumes, vegetables, and fruit.Providing valuable information on the distribution of chemical elements in the soil-plant system and on the migration of chemical elements in the food chain, this book looks aAgricultural ecologyFormer Soviet republicsAgricultureEnvironmental aspectsFormer Soviet republicsCropsGeneticsAgricultureFormer Soviet republicsAgricultural ecologyAgricultureEnvironmental aspectsCropsGenetics.Agriculture577.4Weisfeld Larissa I.FlBoTFGFlBoTFGBOOK9910957914503321Biological systems, biodiversity, and stability of plant communities4495625UNINA05309nam 2200697Ia 450 991101896530332120251116152150.09786611758578978128175857612817585749783527615179352761517297835276151623527615164(CKB)1000000000376621(EBL)482005(SSID)ssj0000096914(PQKBManifestationID)11116484(PQKBTitleCode)TC0000096914(PQKBWorkID)10113124(PQKB)10421445(MiAaPQ)EBC482005(OCoLC)184983902(Perlego)2750320(EXLCZ)99100000000037662119951010d1996 uy 0engur|n|---|||||txtccrActive metals preparation, characterization, applications /edited by Alois FurstnerWeinheim ;New York VCHc19961 online resource (486 p.)Description based upon print version of record.9783527292073 3527292071 Includes bibliographical references and indexes.Active Metals; Preface; Contents; List of Contributors; 1 Rieke Metals : Highly Reactive Metal Powders Prepared by Alkali Metal Reduction of Metal Salts; 1.1 Introduction; 1.1.1 Physical Characteristics of Highly Reactive Metal Powders; 1.2 Rieke Magnesium, Calcium, Strontium, and Barium; 1.2.1 Formation of Rieke Magnesium; 1.2.2 Formation of Rieke Calcium. Strontium. and Barium; 1.2.3 Grignard Reactions Using Rieke Metals; 1.2.4 1,3-Dicne-Magnesium Reagents; 1.2.4.1 Preparation; 1.2. 4.2 Regioselcctivity1.2.4.3 Carbocyclization of (1.4-Diphenyl-2-butene-1,4-diyl)magnesium with Organic Dihalides1.2.4.4 1,2-Dimethylenecycloalkan e.Magnesium Reagents; 1.2.4.5 Synthesis of Fused Carbocycles, β, γ-Unsaturated Ketones and 3-Cyclopentenols from Conjugated Diene-Magnesium Reagents; 1.2.4.6 Synthesis of Spiro γ-Lactones and Spiro δ-Lactones from 1,3-Diene-Magnesium Reagents; 1.2.4.7 Synthesis of γ-Lactams from Conjugated Diene-Magnesium Reagents; 1.3 Rieke Zinc; 1.3.1 The Preparation of Rieke Zinc; 1.3.2 Direct Oxidative Addition of Functionalized Alkyl and Aryl Halides1.3.3 Reactions of Organozinc Reagents with Acid Chlorides1.3.4 Reactions of Organozinc Reagents with α, β-Unsaturated Ketones; 1.3.5 Reactions with Allylic and Alkynyl Halides; 1.3.6 Cross-Coupling of Vinyl and Aryl Organozinc Reagents Using a Palladium Catalyst; 1.3.7 Intramolecular Cyclizations and Conjugate Additions Mediated by Rieke Zinc; 1.3.8 Formation of Tertiary and Secondary Alkylzinc Bromides; 1.3.9 Cyanide-Based Rieke Zinc; 1.4 Organocopper Reagents Utilizing Rieke Copper; 1.4.1 Introduction; 1.4.2 Background to the Development of Rieke Copper; 1.4.3 Phosphine-Based Copper1.4.4 Lithium 2-Thienylcyanocuprate-Based Copper1.4.5 Copper Cyanide-Based Active Copper; 1.4.6 Two-Equivalent Reduction of Copper(I) Complexes : A Formal Copper Anion; 1.5 Rieke Aluminum, Indium, and Nickel; 1.5.1 Aluminum; 1.5.2 Indium; 1 5.3 Nickel; 1.6 Synthesis of Specialized Polymers and New Materials via Rieke Metals; 1.6.1 Formation of Polyarylenes Mediated by Rieke Zinc; 1.6.2 Regiocontrolled Synthesis of Poly(3-alkylthiophenes) and Related Polymers Mediated by Rieke Zinc; 1.6.3 Synthesis of Poly(phenylcarbyne) Mediated by Rieke Calcium, Strontium, or Barium1.6.4 Chemical Modification of Halogenated Polystyrenes Using Rieke Calcium or Copper1.6.5 Polymer Supported Rieke Metal Reagents and their Applications in Organic Synthesis; 2 Allylic Barium Reagents; 2.1 Introduction; 2.2 Preparation of Stereochemically Homogeneous Allylic Barium Reagents; 2.2.1 Direct Insertion Method Using Reactive Barium; 2.2.2 Stereochemical Stability; 2.2.3 Silylation of Stereochemically Homogeneous Allylic Barium Reagents; 2.2.3.1 Procedure for Generation of Reactive Barium (Ba*); 2.2.3.2 Procedure for Protonation of the Geranyl Barium Reagent2.2.3.3 Silylation of (E)-2-Decenylbarium ChlorideReactions with metals are ubiquitous in organic synthesis and, particularly in the last few years, a large repertoire of methods for the activation of metals and for their use in organic synthesis has been developed. In Active Metals, topics ranging from morphology of metal clusters and nanometallurgy to organometallic chemistry, catalysis and the use of activated metals in natural product synthesis are authoritatively discussed by leading experts in the field.Active Metals will allow you to fully benefit from the recent advances in the field by giving:* Detailed experimental pMetal activationActive metalsOrganometallic compoundsSynthesisMetal activation.Active metals.Organometallic compoundsSynthesis.546.3547.05Fürstner Alois945461MiAaPQMiAaPQMiAaPQBOOK9911018965303321Active metals2134486UNINA