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Cauliflower. --- Brassica acephala botrytis --- Brassica botrytis --- Brassica cauliflora --- Brassica oleracea botrytis --- Cole crops --- Broccoli
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Broccoli --- Broccoli. --- Brassica acephala botrytis --- Brassica botrytis --- Brassica oleracea botrytis --- Brocoli --- Common broccoli --- Heading broccoli --- Cole crops --- Calabrese (Vegetable) --- Cauliflower --- Health aspects. --- Nutrition.
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Botrytis cinerea and other Botrytis species are important pathogens of nursery plants, vegetables, ornamental, field and orchard crops and stored and transported agricultural products. Over the last 125 years, Botrytis spp. have been investigated by an increasing number of specialists in diverse fields including chemistry, biochemistry, molecular and cell biology, genetics, morphology and histology, taxonomy, host-parasite interaction, ecology and epidemiology and they have been the subject of an immense number of published studies. Considerable effort is invested in protecting the agricultural produce against Botrytis before and after harvest. The market size for anti-Botrytis products is currently estimated at US$ 15-25 million in recent years. The intensity of anti-Botrytis measures taken by farmers continued unabated throughout the last 20 years but our understanding of the processes that govern Botrytis life cycles, pathogenicity and epidemiology have become comprehensive. During the compilation of this book the aim was to create a most comprehensive treatise on the rapidly developing science of Botrytis and to serve as a stimulus to future research for the benefit of agriculture and horticulture and all those who serve these industries; i.e. researchers and students, farm advisers and agriculture specialists. The book is the result of intensive work of 43 authors, all of whom are leading scientists in the Botrytis sciences. Each chapter describes a particular aspect of fungal biology and its impact on disease processes and host response. New technologies have arisen that when applied to long-standing problems or to test new hypotheses have been most rewarding and many of these are covered in this book. The chapters are cross linked so that readers can follow associated material to better understand the practical implications of the advances made in fundamental science. The twenty inter-connected chapters of the book are grouped according to three major themes: the fungus and its pathogenicity factors; plant reactions to infection; and epidemiology and management of important Botrytis-incited diseases. This book adopts a multidisciplinary approach to integrate the state-of-the-art knowledge in all key areas of common interest in the fungi and their plant interactions. The book includes detailed reviews of Botrytis spp. and the diseases they cause in plant systems and provides a comprehensive description of these fungal necrotrophs, including their diversity of response to the environment, their speciation and relatedness, sources of variation for evolution and molecular genetics and genomics. Aspects of Botrytis-host interactions, pathogenicity factors, the plant's reactions to infection, morphology and cellular organization, signaling, key enzymes, reactive oxygen species and oxidative processes in disease on-set, secondary metabolites as plant defense substances and the role of phytohormones in such reactions are emphasized in the book. Several innovative approaches for disease management of this group of destructive pathogens and methods of detection, epidemiological studies and chemical and biological control are also discussed.
Botrytis. --- Botrytis cinerea. --- Noble rot --- Life sciences. --- Agriculture. --- Plant pathology. --- Mycology. --- Life Sciences. --- Plant Pathology. --- Botrytis --- Moniliaceae --- Botryotinia --- Plant diseases. --- Entomology. --- Farming --- Husbandry --- Industrial arts --- Life sciences --- Food supply --- Land use, Rural --- Insects --- Zoology --- Botany --- Communicable diseases in plants --- Crop diseases --- Crops --- Diseases of plants --- Microbial diseases in plants --- Pathological botany --- Pathology, Vegetable --- Phytopathology --- Plant pathology --- Plants --- Vegetable pathology --- Agricultural pests --- Crop losses --- Diseased plants --- Phytopathogenic microorganisms --- Plant pathologists --- Plant quarantine --- Pathology --- Diseases and pests --- Diseases --- Wounds and injuries --- Fungi --- Microbiology --- Fungal biology --- Fungology --- Fungus biology
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Behind genetics and Markov chains, there is an intrinsic algebraic structure. It is defined as a type of new algebra: as evolution algebra. This concept lies between algebras and dynamical systems. Algebraically, evolution algebras are non-associative Banach algebras; dynamically, they represent discrete dynamical systems. Evolution algebras have many connections with other mathematical fields including graph theory, group theory, stochastic processes, dynamical systems, knot theory, 3-manifolds, and the study of the Ihara-Selberg zeta function. In this volume the foundation of evolution algebra theory and applications in non-Mendelian genetics and Markov chains is developed, with pointers to some further research topics.
Banach algebras --- Genetic algebras --- Nonassociative algebras --- Markov processes --- Phytophthora infestans --- Stochastic processes --- Algebra --- Calculus --- Mathematics --- Physical Sciences & Mathematics --- Genetics --- Banach algebras. --- Genetic algebras. --- Nonassociative algebras. --- Markov processes. --- Stochastic processes. --- Algebra. --- Genetics. --- Random processes --- Botrytis fallax --- Botrytis infestanus --- Botrytis solani --- Peronospora fintelmannii --- Peronospora infestans --- Peronospora trifurcata --- Phytophthora thalictri --- Potato late blight agent --- Potato late blight fungus --- Analysis, Markov --- Chains, Markov --- Markoff processes --- Markov analysis --- Markov chains --- Markov models --- Models, Markov --- Processes, Markov --- Algebras, Non-associative --- Algebras, Nonassociative --- Non-associative algebras --- Algebras, Genetic --- Algebras, Banach --- Banach rings --- Metric rings --- Normed rings --- Mathematics. --- Nonassociative rings. --- Rings (Algebra). --- Probabilities. --- Biomathematics. --- General Algebraic Systems. --- Non-associative Rings and Algebras. --- Probability Theory and Stochastic Processes. --- Mathematical and Computational Biology. --- Mathematical analysis --- Probability --- Statistical inference --- Combinations --- Chance --- Least squares --- Mathematical statistics --- Risk --- Biology --- Algebraic rings --- Ring theory --- Algebraic fields --- Rings (Algebra) --- Math --- Science --- Probabilities --- Phytophthora --- Algebra, Abstract --- Algebras, Linear --- Biomathematics --- Banach spaces --- Topological algebras --- Distribution (Probability theory. --- Distribution functions --- Frequency distribution --- Characteristic functions
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Botrytis, a genus of fungal plant pathogens, is the focus of intensive scientific research worldwide. The complex interactions between these pathogens and the plants they infect (referred to collectively as the pathosystem) and the economic importance of the diseases caused by Botrytis on more than 1400 species of cultivated plants, many of which are important agricultural crops, render this pathogen of particular interest to farmers, agriculture experts, advisers, extension staff, students and researchers worldwide. This book is the product of intensive work by 41 authors, all of whom are leading scientists from various scientific disciplines studying Botrytis as a fungus and as a pathogen. The authors of this book have amassed state-of-the art knowledge on diverse topics, including Botrytis epidemiology, disease management, biological and chemical control and aspects of the plant-pathogen interactome, including virulence factors and defense processes, signaling cascades, the oxidative burst and general biological aspects, such as vegetative incompatibility, mycoviruses, and the revised Botrytis species concept. This book also provides reviews of the genetic and post-genomic analyses, such as transcriptomics and proteomics, used to study Botrytis biology and pathogenicity. This 20-chapter book is a comprehensive treatise covering the rapidly developing science of Botrytis and reflecting the major developments in studies of this fungus. It will serve as a source of general information for specialists in agriculture and horticulture, but also for students and scientists interested in the biology of this fascinating, multifaceted phytopathogenic fungal species.
Plant Sciences --- Agriculture --- Earth & Environmental Sciences --- Botrytis cinerea. --- Tulips --- Diseases and pests. --- Noble rot --- Botrytis --- Plant diseases. --- Entomology. --- Agriculture. --- Plant Pathology. --- Mycology. --- Farming --- Husbandry --- Industrial arts --- Life sciences --- Food supply --- Land use, Rural --- Insects --- Zoology --- Botany --- Communicable diseases in plants --- Crop diseases --- Crops --- Diseases of plants --- Microbial diseases in plants --- Pathological botany --- Pathology, Vegetable --- Phytopathology --- Plant pathology --- Plants --- Vegetable pathology --- Agricultural pests --- Crop losses --- Diseased plants --- Phytopathogenic microorganisms --- Plant pathologists --- Plant quarantine --- Pathology --- Diseases and pests --- Diseases --- Wounds and injuries --- Plant pathology. --- Fungi --- Microbiology --- Fungal biology --- Fungology --- Fungus biology
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This reprint is focused on recent novel research related to the role of plant cell walls under biotic and abiotic stresses, which was published in the Special Issue “Plant Cell Wall Plasticity under Stress Situations” of the Plants journal. Considering the importance of this plant cell structure in a plethora of plant development processes, this book focused on unraveling the roles of different cell wall components and their turnover in plant defense against pathogens and adaptative responses, in cell wall hydration ability, and in the development of primitive water transport systems in non-vascular plants.
Research & information: general --- Biology, life sciences --- plant cell wall composition --- expansins --- water stress --- salt stress --- Physcomitrella --- hydroxycinnamyl alcohols --- plant evolution --- peroxidase --- abiotic stress --- bean --- Pseudomonas --- cell wall --- plant defense --- disease resistance --- 2,6-dichloroisonicotinic acid --- INA --- pectin --- calcium --- boron --- homogalacturonan --- rhamnogalacturonan II --- Botrytis cinerea --- Colletotrichum higginsianum --- dehydration --- Allium and X-ray microscopy --- β-glucanases --- β-glucans --- cell wall polysaccharides --- plant development --- environmental stress --- n/a
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Postharvest losses of fresh produce have always been an obstacle in agriculture. About one third of global fresh fruits and vegetables are lost because their quality has dropped below an acceptance limit. The postharvest quality and shelf life of fresh produce are also determined before harvest. However, postharvest quality is also affected by many practices during and after harvest such as temperature management, controlled and modified atmosphere, coatings, physical treatments, biocontrol, and more. This Special Issue on “Postharvest Disease Development: Pre and/or Postharvest Practices” gathers papers that deal with preharvest and postharvest factors that affect and maintain fresh produce quality after harvest.
Botrytis cinerea --- postharvest disease --- table grape --- grape quality --- quality --- postharvest --- prolonged storage --- shelf-life --- fungi --- ethylene --- plant diseases --- plant growth regulators --- ethephon --- abscisic acid --- methyl jasmonate --- postharvest fruit quality --- electron beam irradiation --- fruit texture --- postharvest rot --- Daucus carota L. --- wilting --- damages --- microscopy --- appearance --- fresh fruits --- fungicide-free control --- low-toxicity chemical control --- antifungal edible coatings --- stem-end rot --- Botryosphaeria --- fruit --- fungicide --- ripening --- microbiome --- biological control --- physical control --- pesticide residues --- degradation dynamic --- citrus --- LC-MS/MS
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The preservation of freshness of fruits and vegetables until their consumption is the aim of many research activities. The quality losses of fresh fruit and vegetables during cold chain are frequently attributable to an inappropriate use of postharvest technologies. Moreover, especially when fresh produce is transported to distant markets, it is necessary to adopt proper storage solutions in order to preserve the initial quality.Nowadays, for each step of the supply chain (packing house, cold storage rooms, precooling center, refrigerate transport, and distribution), innovative preservation technologies are available that, alone or in combination, could preserve the fresh products in order to maintain the principal quality and nutritional characteristics. In this Special Issue, these preservation technologies will be described, highlighting their effect on quality maintenance.
sweet potatoes --- cutting styles --- quality --- antioxidant activity --- peach --- chilling injury --- internal circulation system --- low fluctuation of temperature --- TiO2 photocatalytic --- storage quality --- β-cyclodextrin --- inclusion complex --- carvacrol --- essential oils --- active packaging --- citrus --- shelf life --- decay incidence --- Lactuca sativa L. --- minimally processed lettuce --- modified atmosphere packaging --- oxalic acid --- table grapes --- Botrytis cinerea --- grey mould --- spoilage microbes --- post-harvest --- modified atmosphere packaging (MAP) --- ozone (O3) --- antimicrobial compounds --- preservatives --- biocontrol --- cold atmospheric plasma --- microbes --- disinfection --- non-hazardous --- inactivation --- foodborne pathogen --- kinetic model --- Peleg constant --- papaya --- respiration rate --- nanoparticles coating --- active cardboard box --- plasma-activated water
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A virus (from the Latin word ‘v?rus’ meaning ‘venom’ or ‘poison’) is a microorganism invisible to the naked eye. Viruses can multiply exclusively by entering a cell and using the cell’s resources to create copies of themselves. As the origin of their name suggests, viruses are generally considered dangerous, harmful and often deadly. Some of the most well-studied and widely known viruses, such as HIV and influenza, infect humans. However, viruses can also infect animals, plants and microorganisms, including fungi. Many fungi are medically, ecologically and economically significant, for example, causing diseases to humans, plants and insects or being used in industry to produce bread, cheese, beer and wine. Viruses that infect fungi are called mycoviruses (from the Greek work ‘myco’, meaning ‘fungus’). Mycoviruses do not cause harm to or kill the infected fungus; in contrast, they are ‘friendly’ viruses and we can utilize them to control the growth, pathogenicity and toxin production of fungi. This book describes a range of different mycoviruses and their geographical distribution, transmission and evolution, together with their effects on the fungal hosts and how these are brought about.
n/a --- recombination --- Brunchorstia pinea --- fungal viruses --- virus evolution --- isogenic --- fusarivirus --- Castanea sativa --- sequencing --- PsV-F --- conidiogenesis --- Narnaviridae --- Prunus --- virus discovery --- dicer --- totivirus --- killer toxin --- Saccharomyces paradoxus --- Aspergillus fumigatus tetramycovirus-1. --- Fusarium head blight --- dsRNA --- hypovirus --- killer system --- victorivirus --- Leptosphaeria biglobosa quadrivirus --- Entomophthora --- biological control --- RNA genome --- stone fruit --- hypervirulence --- Aspergillus fumigatus chrysovirus --- phylogeny --- A. fumigatus --- Mymonaviridae --- endornavirus --- mycovirus --- Aspergillus --- double-stranded RNA virus --- gemycircularvirus --- Alphapartitivirus --- Partitivirus --- capsid structure --- RnQV1 --- dsRNA virus --- RNA silencing --- capsid protein --- Rhizoctonia solani AG-1 IA --- multiplex PCR --- A. nidulans --- conifers --- Entomophthoromycotina --- Magnaporthe oryzae. chrysovirus 1 --- sclerogenesis --- Mitovirus --- chrysovirus --- A. niger --- selection pressure --- viral lineage --- A. thermomutatus --- transmission --- Tymovirales --- brown rot --- PcV --- Botrytis cinerea mymonavirus 1 --- Hymenoscyphus pseudoalbidus --- mitovirus --- populations study --- ssRNA --- mitochondrion --- partitivirus --- rice blast fungus --- database mining --- fungal virus --- horizontal virus transmission --- antiviral --- Aspergillus fumigatus partitivirus-1 --- hypovirulence --- Ethiopia --- chestnut blight --- Trichoderma atroviride --- Botrytis cinerea --- Cryphonectria parasitica --- Totiviridae --- small RNA --- infection cushion --- ash dieback --- Beauveria bassiana --- Rhizophagus --- Sclerotinia minor --- polymycovirus --- biocontrol --- genomic structure analysis --- Mycovirus --- dsRNA mycoviruses --- mycorrhizal fungi --- evolution --- invasive species --- transmissibility --- Chalara fraxinea --- tRFs --- ScV-L-A
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