Вход в систему
Инструкция по поиску

Детальная информация

Название FUNGICIDES IN PRACTICE
Авторы Oliver Richard P. ; BECKERMAN JANNA L.
Выходные сведения [S.l.]: CABI PUBLISHING, 2022
Коллекция Электронные книги зарубежных издательств ; Общая коллекция
Тематика Fungicides. ; EBSCO eBooks
Тип документа Другой
Тип файла PDF
Язык Английский
Права доступа Доступ по паролю из сети Интернет (чтение, печать, копирование)
Ключ записи on1337971534
Дата создания записи 01.08.2022

Разрешенные действия

pdf/3344384.pdf
Действие 'Прочитать' будет доступно, если вы выполните вход в систему или будете работать с сайтом на компьютере в другой сети Действие 'Загрузить' будет доступно, если вы выполните вход в систему или будете работать с сайтом на компьютере в другой сети
epub/3344384.epub
Действие 'Загрузить' будет доступно, если вы выполните вход в систему или будете работать с сайтом на компьютере в другой сети
Группа Анонимные пользователи
Сеть Интернет
Место доступа Группа пользователей Действие
Локальная сеть ИБК СПбПУ Все
Прочитать Печать Загрузить
Интернет Авторизованные пользователи СПбПУ
Прочитать Печать Загрузить
Интернет Анонимные пользователи
  • Cover
  • Fungicides in Practice
  • Copyright
  • Contents
  • Preface
    • Acknowledgements
  • 1 Introduction
    • Population Growth and Food Production
      • The impact of disease on crop production
    • Agricultural Technology and the Impact of Fungicide Use
    • The History of Fungicide Use
    • The Growth of the Agrochemicals Industry
    • References
  • 2 Plant Pathology and Plant Pathogens
    • Key Points
    • Introduction
    • Characteristics of Plant Pathogens
      • Fungi
      • Oomycota
      • Plasmodiophora
      • Phytopathogenic lifestyles; biotrophs, necrotrophs and hemibiotrophs
      • Avirulence genes, PAMPs, MAMPs and effectors
      • Genomics and genetic variability in plant pathogens
    • The Impact of the New Paradigms on Fungicide Research
    • Nomenclature in the Literature and Practice
    • References
  • 3 The Fungicide Industry
    • Key Points
    • Introduction
    • The Global Fungicides Market
      • Fungicide sales by mode of action
      • Global fungicides market by crop
    • Leading Fungicide Manufacturers
    • References
    • Websites
  • 4 Fungicide Discovery
    • Key Points
    • Target Selection
      • Market size
      • New and re-emergent diseases
      • Fungicide resistance
      • New modes of action
    • Screening for Fungicide Leads
      • The design of fungicide screens
        • In vivo screens
        • High-throughput tests
        • Mode-of-action screens
        • In planta screens
        • Primary target organisms
        • Functional genomics
      • Sources of fungicide leads
        • Random screening
        • Combinatorial chemistry
        • Analogue synthesis
        • Biorational design
        • Biorational design of the SDHI fungicides
        • Heterocyclic compounds
        • Chemical classifications other than single heterocycles
        • Biorational design of fenpicoxamid, a new QiI active
        • Biorational design of metyltetraprole
      • Screening methodology
    • References
    • Website
  • 5 Fungicide Modes of Action and Spectrum
    • Key Points
    • Introduction
    • Modes of Action
      • A; Inhibition of RNA synthesis
        • A1; RNA polymerase 1; phenylamides; PA
        • A2; Adenosine deaminase; hydroxy- (2-amino)-pyrimidines
        • A3; DNA/RNA synthesis (proposed); heteroaromatics
      • B; Mitosis and cell division
        • B1; β-Tubulin assembly in mitosis; methyl benzimidazole carbamates; MBCs
        • B2; β-Tubulin assembly in mitosis; phenylcarbamates
        • B3; β-Tubulin assembly in mitosis; benzamides
        • B4; Cell division (unknown site); phenylureas
        • B5; Delocalization of spectrin-like proteins; pyridinylmethyl benzamides
        • B6; Actin/myosin/fimbrin function; aryl phenyl ketones
      • C; Respiration
        • C2; Complex II; succinate dehydrogenase inhibitors; SDHIs
        • C3; Complex III; cytochrome bc1 (ubiquinol oxidase) at Qo site (Cytb gene); QoI
        • C4; Complex III; cytochrome bc1 (ubiquinone reductase) at Qi site; QiI
        • C5; Uncouplers of oxidative phosphorylation
        • C7; ATP transport (proposed); thiophene carboxamides
        • C8; Inhibition of complex III; cytochrome bc1 (ubiquinone reductase) at Qo stigmatellin- binding subsite; QoSI
      • D; Amino acid and protein synthesis
        • D1; Methionine biosynthesis (proposed) (cgs gene); anilinopyrimidines; APs
      • E; Signal transduction
        • E1; Signal transduction (mechanism unknown); azanaphthalenes
        • E2; MAP/histidine kinase in osmotic signal transduction (os-2, HOG1); phenylpyrroles; PPs
        • E3; MAP/histidine kinase in osmotic signal transduction (os-1, Daf1); dicarboximides
      • F; Lipid synthesis or transport/membrane integrity or function
        • F3; Cell peroxidation (proposed); aromatic hydrocarbon (AH) fungicides (chlorophenyls, nitroanilines), 1,2,4-thiadiazoles
        • F4; Cell-membrane permeability, fatty acids (proposed); carbamates
        • F9; Lipid homeostasis and transfer/storage; OSBP1 oxysterol-binding protein homologue; piperidinyl thiazole isoxazolines
      • G; Sterol biosynthesis in membranes (SBIs)
        • G1; C14-demethylation inhibitors (erg11/cyp51); SBI Class I; DMIs
        • G2; Δ8→Δ7-isomerase and Δ14-reductase inhibitors (erg24, erg2); SBI Class II; amines (morpholines)
        • G3; 3-Keto reductase (erg27); KRI (keto reductase inhibitor) fungicides; SBI Class III
      • H5; Cell-wall biosynthesis; carboxylic acid amides; CAAs
      • I; Inhibition of melanin biosynthesis
      • Multi-site (M) and unknown (U) modes of action
        • M03; Dithiocarbamates and relatives (electrophiles)
        • M04; Phthalimides (electrophiles)
        • M05; Chloronitriles (unspecified mechanism)
        • M06; Sulfamides (electrophiles)
        • M07; Bis-guanidines (membrane disruptors, detergents)
        • U06; Phenyl acetamides
        • U12; Guanidines
        • U13; Cyanomethylene thiazolidine
        • U27; Cyanoacetamide-oxime
        • U35; Benzotriazines
    • References
    • Website
    • Further Reading
  • 6 Biological Fungicides – Botanicals and Biocontrol Agents – and Basic Substances
    • Key Points
    • Introduction
      • The market for biological fungicides
      • History
    • Discovery and Development of Biopesticides
      • Biocontrol agents
      • Botanicals
      • Basic Substances
        • Sulfur fungicides
        • Copper and other metals
    • Mode of Action of Biofungicides
      • Competition or exclusion
      • Antibiosis
      • Hyperparasitism
      • Defence induction
      • Biocidal activity
      • Miscellaneous modes of action
    • Using Biological Fungicides
      • Biocontrol agents
      • Copper formulations
        • Copper resistance
      • Sulfur formulations
    • Disease Control in Organic Agriculture
      • Comparing crop protection in conventional and Organic cropping
    • References
    • Websites
  • 7 Formulation
    • Key Points
    • Introduction
    • Formulation Types
    • Adjuvants
      • Surfactants
      • Emulsifiers
    • Nanotechnology
    • Formulation of Biologicals
    • References
  • 8 Fungicide Mobility
    • Key Points
    • Introduction
    • Contact Fungicides
    • Penetrant Fungicides
    • Chemical Characteristics of Commonly Used Fungicides
    • References
    • Website
  • 9 Application and Sprayer Technology
    • Key Points
    • Introduction
    • Application Types
      • Seed treatments
      • Granular application
      • Pre-planting dips
      • Postharvest dips
      • Fungicide injection
      • Drenches
      • Foliar treatments
    • Using Fungicides on Protected Crops
    • Sprayer Technology
      • Sprayer types
        • Backpack (or knapsack) sprayers
        • Air blower sprayers
        • Hydraulic sprayers
        • Compressed air sprayers
        • Spot sprayers
        • Skid-mounted sprayers
        • Boom sprayers
        • Electrostatic sprayers
        • Rotary disc sprayers
        • Thermal foggers
        • Cold (or mechanical) foggers
      • Nozzles
        • Fan nozzles
        • Cone nozzles
        • Other nozzle types
        • How to choose a nozzle
      • Drift prevention
        • Droplets
        • Spray pressure
        • Volume
    • References
  • 10 Fungicide Efficacy Evaluation
    • Key Points
    • Introduction
    • Factors to be Considered When Evaluating Fungicides
      • The target pathogen
      • The host
      • The environment
      • Economic benefits
      • Agronomic sustainability of product use
      • Efficacy trial components
    • Efficacy Trial Experimental Design
      • Variables
        • Categorical variables
        • Continuous variables
      • Plot layout
        • To block or not to block?
        • Randomized complete block design
        • Factorial design and split plots
      • Repeated measures
      • Power analysis
      • Samples and sampling
      • Fungicide application
      • Efficacy assessments
      • Statistical analysis
        • Plotting the data
        • Central tendencies (mean, median, mode)
        • Measures of dispersion (standard deviation, variance, range)
        • Analysis of variance
        • Replication and reproducibility
    • Efficacy Evaluation for Minor Use Applications
    • Reproducibility, Record Keeping and Reporting
    • Conclusion
    • Notes
    • References
    • Further Reading
  • 11 Fungicide Resistance
    • Key Points
    • Introduction
    • Fungicide Resistance Evolution
    • Definitions
      • Resistance, tolerance and sensitivity
      • Measuring resistance
      • Resistance factor
      • Field resistance
      • Cross-resistance
      • Multiple resistance; multi single-, oligo- and multi-drug resistance
      • Metabolic resistance
      • Fitness penalty
    • Resistance Risk
      • Pathogen risk factors; fecundity; latent period; sexual reproduction
      • Fungicide risk factors
      • Monitoring for field resistance
      • Phenotypic and genotypic monitoring
      • Determining the mode of resistance
    • Fungicide Resistance in Different Fungicide Classes
      • Multi-site fungicides
      • Single-site fungicides
        • B1/2; Methyl benzimidazole carbamates
        • C3; Quinone outside inhibitors
        • C2; Succinate dehydrogenase inhibitors
        • G3; Demethylation inhibitors
        • H5; Cellulose synthase
        • A1; Phenylamides
      • Multi-drug resistance
    • The Management of Resistance
      • Good agronomy hygiene
      • Integrated disease management
      • Dose rate
      • Mixtures and alternation
      • Multi-drug resistance and resistance management – fungicide refugia?
      • New fungicide groups and resistance – can we predict risk of resistance?
    • References
    • Websites
  • 12 Legislation and Regulation
    • Key Points
    • Introduction
    • Registration Requirements
      • Toxicology
      • Environment
      • Residues
      • Operator safety
      • Long-term risks
      • Resistance risk
    • The Label
    • References
  • 13 The Future of Disease Control
    • Key Points
    • Food Demand and Disease Threats
    • Loss of Existing Fungicides
    • The Discovery Process
      • RNA-based fungicides; spray-induced gene silencing
    • Genetic Disease Control
      • Mixtures of cultivars
      • Transgenic (GM) disease control
      • Genome editing
    • The Future
    • References
  • Appendix – EPPO Codes
  • Index
  • Back Cover
pdf/3344384.pdf

Количество обращений: 0 
За последние 30 дней: 0

Подробная статистика

epub/3344384.epub

Количество обращений: 0 
За последние 30 дней: 0

Подробная статистика