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200 10$aTrajan $eoptimus princeps /$fJulian Bennett
205   $aSecond edition.
210  1$aBloomington :$cIndiana University Press,$d2001.
215   $a1 online resource (348 p.)
225 1 $aRoman Imperial Biographies
300   $aDescription based upon print version of record.
311   $a0-415-24150-2 
311   $a0-415-16524-5 
320   $aIncludes bibliographical references (p. 289-309) and indexes.
327   $aBOOK COVER; HALF-TITLE; TITLE; COPYRIGHT; CONTENTS; FIGURES AND MAPS; PLATES; OUTLINE OF SIGNIFICANT EVENTS; PREFACE AND ACKNOWLEDGEMENTS; PROLEGOMENON; I THE MAKING OF A NEW ARISTOCRACY; II THE RISE OF THE ULPII; III IMPERIAL EXPANSION AND CRISIS; IV DOMITIAN'S GENERAL, NERVA'S HEIR; V THE NEW RULER; VI A PUBLIC IDEOLOGY; VII THE INAUGURATION OF A NEW ERA; VIII DACICUS; IX OPTIMUS PRINCEPS; X LAW, FINANCE AND LITERATURE; XI PATER PATRIAE; XII 'REDACTA IN FORMAM PROVINCIAE...'; XIII PARTHICUS; XIV A PERFECT PRINCE?; APPENDIX  DIO'S ACCOUNT OF THE DACIAN WARS; ABBREVIATIONS; NOTES AND REFERENCES
327   $aBIBLIOGRAPHYINDEX OF PERSONAL NAMES; GENERAL INDEX
330   $aDid Trajan really deserve his reputation as the embodiment of all imperial virtues? Why did Dante, writing in the Middle Ages, place him in the sixth sphere of Heaven among the Just and Temperate rulers?In this, the only biography of Trajan available in English, Julian Bennett rigorously tests the substance of this glorious reputation. Surprisingly, for a Roman emperor, Trajan comes through the test with his reputation relatively intact.
410  0$aRoman Imperial Biographies
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200 00$aCellulosic energy cropping systems /$feditor, Douglas L. Karlen
210  1$aChichester, England :$cWiley,$d2014.
210  4$dİ2014
215   $a1 online resource (400 p.)
225 1 $aWiley Series in Renewable Resources
300   $aIncludes index.
311   $a1-119-99194-3 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aCellulosic Energy Cropping Systems; Contents; Foreword; Series Preface; Preface; List of Contributors; 1 Introduction to Cellulosic Energy Crops; 1.1 Cellulosic Biomass: Definition, Photosynthesis, and Composition; 1.2 Cellulosic Biomass Properties and Their Relevance to Downstream Processing; 1.2.1 Moisture Content; 1.2.2 Energy Density; 1.2.3 Fixed Carbon/Volatile Matter Ratio; 1.2.4 Ash Content; 1.2.5 Alkali Metal Content; 1.2.6 Carbohydrate/Lignin Ratio; 1.3 Desirable Traits and Potential Supply of Cellulosic Energy Crops; 1.4 The Case for Cellulosic Energy Crops; References
327   $a2 Conversion Technologies for the Production of Liquid Fuels and Biochemicals2.1 Introduction; 2.2 Biomass Conversion Technologies; 2.3 (Bio)Chemical Conversion Route; 2.3.1 Pretreatment; 2.3.2 Hydrolysis; 2.3.3 Fermentation; 2.3.4 Biocatalysis; 2.3.5 Catalysis; 2.4 Thermochemical Conversion Route; 2.4.1 Pyrolysis; 2.4.2 Gasification; 2.4.3 Liquefaction; 2.4.4 Hydrothermal Upgrading (HTU) Process; 2.5 Summary and Conclusions; Acknowledgement; References; 3 Technologies for Production of Heat and Electricity; 3.1 Introduction; 3.2 Combustion; 3.2.1 Direct-Fired Combustion
327   $a3.2.2 Co-Fired Combustion3.3 Repowering; 3.4 Gasification; 3.5 Pyrolysis; 3.6 Direct Hydrothermal Liquefaction; 3.7 Anaerobic Digestion; 3.8 Integrated Biorefineries; 3.9 Summary; References; 4 Miscanthus Genetics and Agronomy for Bioenergy Feedstock; 4.1 Introduction; 4.2 Phylogeny, Growth, Yield and Chemical Composition; 4.2.1 Phylogeny; 4.2.2 Growth; 4.2.3 Genetic Diversity for Biomass Production; 4.2.4 Genetic Diversity for Biomass Composition; 4.3 Cultural Practices; 4.3.1 Establishment; 4.3.2 Fertilization; 4.3.3 Disease, Pest Control; 4.3.4 Invasiveness; 4.3.5 Harvest Management
327   $a4.4 Genetic Improvement4.4.1 Past and Current Projects; 4.4.2 Genetic Resources; 4.4.3 Traits and Varieties of Interest; 4.4.4 Tools for Genetic Studies Breeding and Phenotyping; 4.5 Conclusion; References; 5 Switchgrass; 5.1 Overview; 5.2 Phylogeny, Growth, Yield and Chemical Composition; 5.3 Cultural Practices; 5.3.1 Establishment and Weed Management; 5.3.2 Fertilization; 5.3.3 Disease and Pest Management; 5.3.4 Harvest Management; 5.4 Genetic Improvement; 5.5 Summary; References; 6 Sugarcane, Energy Cane and Napier Grass; 6.1 Sugar and Energy Cane
327   $a6.1.1 Phylogeny, Growth, Yield, and Chemical Composition6.1.2 Cultural Practices; 6.1.3 Genetic Improvement; 6.2 Napier grass; 6.2.1 Phylogeny, Growth, Yield and Chemical Composition; 6.2.2 Cultural Practices; 6.2.3 Genetic Improvement; References; 7 Sorghum; 7.1 Introduction; 7.2 Sorghum Phenology, Genetic Structure and Types; 7.2.1 Types of Sorghum for Energy Production; 7.2.2 Basic Phenological Traits of Importance in Sorghum; 7.2.3 Sorghum Composition; 7.3 Cultural Practices; 7.3.1 Propagation Methods; 7.3.2 Establishment; 7.3.3 Fertilization; 7.3.4 Water Use
327   $a7.3.5 Disease and Pest Control
330   $aCellulosic Energy Cropping Systems presents a comprehensive overview of how cellulosic energy crops can be sustainably produced and converted to affordable energy through liquid fuels, heat and electricity.  The book begins with an introduction to cellulosic feedstocks, discussing their potential as a large-scale sustainable energy source, and technologies for the production of liquid fuels, heat and electricity. Subsequent chapters examine miscanthus, switchgrass, sugarcane and energy cane, sorghums and crop residues, reviewing their phylogeny, cultural practices, and opportuni
410  0$aWiley series in renewable resources.
606   $aEnergy crops
606   $aBiomass energy
606   $aCellulose$xBiotechnology
606   $aCellulose$xChemistry
615  0$aEnergy crops.
615  0$aBiomass energy.
615  0$aCellulose$xBiotechnology.
615  0$aCellulose$xChemistry.
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200 10$aVegetable brassicas and related crucifers /$fG.R. Dixon and M.H. Dickson
205   $a1st ed.
210   $aWallingford $cCABI$dc2007
215   $a1 online resource (339 p.)
225 1 $aCrop production science in horticulture series ;$v14
300   $aDescription based upon print version of record.
311   $a0-85199-395-8 
327   $aCONTENTS; PREFACE; ACKNOWLEDGEMENTS (COPYRIGHTS); 1 ORIGINS AND DIVERSITY OF BRASSICA AND ITS RELATIVES; 2 BREEDING, GENETICS AND MODELS; 3 SEED AND SEEDLING MANAGEMENT; 4 DEVELOPMENTAL PHYSIOLOGY; 5 CROP AGRONOMY; 6 COMPETITIVE ECOLOGY AND SUSTAINABLE PRODUCTION; 7 PESTS AND PATHOGENS; 8 POSTHARVEST QUALITY AND VALUE; REFERENCES; INDEX; A; B; C; D; E; F; G; H; I; J; K; L; M; N; O; P; Q; R; S; T; U; V; W; X; Y; Z
330   $aThe Brassica crops provide the greatest diversity of products derived from a single genus. As vegetables they deliver leaves, flowers, stems and roots that are used either fresh or in processed forms. This book covers the Occidental crops derived from B. oleracea (cole or cabbage group) and Oriental types from B. rapa (Chinese cabbage and its relatives). Both groups are of immense importance for human nutrition, containing vital vitamins and cancer preventing substances.
410  0$aCrop production science in horticulture ;$v14.
606   $aCole crops
606   $aChinese cabbage
615  0$aCole crops.
615  0$aChinese cabbage.
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