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Author: Anita Behari Publisher: ISBN: Category : Languages : en Pages :
Book Description
Fusarium head blight (FHB) is a fungal disease of wheat and other cereals caused by species of Fusarium, namely Fusarium graminearum. This disease is sporadic and highly weather dependent, and affects wheat production globally resulting in reduced grain quality and contamination with mycotoxins. The mycotoxin most commonly associated with FHB is deoxynivalenol (DON). DON is a virulence factor in disease, as well as toxic to plants, humans, and animals. Ultimately, reducing DON contamination in grain depends on preventing infection and subsequent disease. Current mitigation strategies for FHB include the use of moderately resistant cultivars and fungicides; however, when conditions are conducive to disease development even a combination of mitigation strategies offers limited control. Improving mitigation of FHB depends on an improved understanding of disease development, especially the effects of weather variables on facilitating infection, disease, and DON accumulation in cultivars with varying levels of resistance. Additionally, given that global wheat production is threatened by rust and wheat blast, identifying other mitigation strategies for FHB will support flexibility with disease control. The purpose of this dissertation was to examine the effects of temperature on disease development and DON accumulation in cultivars varying in resistance to FHB, and to explore biological control (biocontrol) as an additional tool for FHB mitigation. The first objective was to examine the effects of cultivar (moderately resistant: Alsen and susceptible: Wheaton) and temperature (15C and 22C) on fungal spread, ergosterol accumulation, and DON accumulation in Fusarium head blight diseased wheat. Using the point inoculation technique, the florets of the central spikelet of wheat heads were inoculated with a macroconidia suspension. Wheat heads were harvested every two days over a period of thirty days, with one floret per spikelet used to collect data on incidence of F. graminearum, while the other floret was used for extraction of DON and ergosterol. The moderately resistant cultivar Alsen was found to have the least fungal spread, DON, and ergosterol, while 15C also reduced fungal spread, DON, and ergosterol. The combination of Alsen 15C had the lowest F. graminearum incidence, and the least DON and ergosterol. The second objective was to isolate, identify, and characterize microbes from environmental sources in Pennsylvania, with the abilities to inhibit F. graminearum and remove DON from liquid culture. Additionally, the third objective was to screen Bacillus isolates isolated from quinoa in Bolivia and Ecuador for the same abilities. Microbes (mostly bacteria) were isolated from soil and plant material using various media and selected based on morphology for co-culturing with F. graminearum, while samples of soil and plant material were incubated in mineral salt media with DON and tested individually using GC-ECD to monitor DON removal from liquid culture. A total of 151 microbes were screened for inhibition, 59 of which were isolated from mineral salt media containing DON. Of the 151 microbes, 12 were found to inhibit F. graminearum, of which 4 were also able to reduce DON levels in culture. Five other microbes from the mineral salt media incubations were found to significantly decrease DON in culture, but did not inhibit F. graminearum. The fourth objective was to field test spray treatments of two microbes, one able to inhibit F. graminearum and the other able to remove DON, separately and combined, for their effects on FHB disease incidence, head severity, Fusarium damaged kernels (FDK), and DON accumulation in a FHB moderately resistant and a FHB susceptible cultivar of wheat. Using non-parametric two-way ANOVA analyses between medians, we found that treatment, cultivar, and treatment*cultivar were significant for all measured variables. Additionally, for some of the measured variables, microbe treatments were found to exacerbate disease and DON accumulation. Future research can further elucidate the effects of weather variables on affecting disease and DON accumulation in cultivars with varying degrees and types of resistance. Biocontrol research can focus on supporting the establishment and antagonistic activities of biocontrol agents in field environments. This dissertation contributes to furthering the understanding of factors influencing disease and DON levels, as well as the use of F. graminearum inhibition and DON removal for FHB biocontrol.
Author: Anita Behari Publisher: ISBN: Category : Languages : en Pages :
Book Description
Fusarium head blight (FHB) is a fungal disease of wheat and other cereals caused by species of Fusarium, namely Fusarium graminearum. This disease is sporadic and highly weather dependent, and affects wheat production globally resulting in reduced grain quality and contamination with mycotoxins. The mycotoxin most commonly associated with FHB is deoxynivalenol (DON). DON is a virulence factor in disease, as well as toxic to plants, humans, and animals. Ultimately, reducing DON contamination in grain depends on preventing infection and subsequent disease. Current mitigation strategies for FHB include the use of moderately resistant cultivars and fungicides; however, when conditions are conducive to disease development even a combination of mitigation strategies offers limited control. Improving mitigation of FHB depends on an improved understanding of disease development, especially the effects of weather variables on facilitating infection, disease, and DON accumulation in cultivars with varying levels of resistance. Additionally, given that global wheat production is threatened by rust and wheat blast, identifying other mitigation strategies for FHB will support flexibility with disease control. The purpose of this dissertation was to examine the effects of temperature on disease development and DON accumulation in cultivars varying in resistance to FHB, and to explore biological control (biocontrol) as an additional tool for FHB mitigation. The first objective was to examine the effects of cultivar (moderately resistant: Alsen and susceptible: Wheaton) and temperature (15C and 22C) on fungal spread, ergosterol accumulation, and DON accumulation in Fusarium head blight diseased wheat. Using the point inoculation technique, the florets of the central spikelet of wheat heads were inoculated with a macroconidia suspension. Wheat heads were harvested every two days over a period of thirty days, with one floret per spikelet used to collect data on incidence of F. graminearum, while the other floret was used for extraction of DON and ergosterol. The moderately resistant cultivar Alsen was found to have the least fungal spread, DON, and ergosterol, while 15C also reduced fungal spread, DON, and ergosterol. The combination of Alsen 15C had the lowest F. graminearum incidence, and the least DON and ergosterol. The second objective was to isolate, identify, and characterize microbes from environmental sources in Pennsylvania, with the abilities to inhibit F. graminearum and remove DON from liquid culture. Additionally, the third objective was to screen Bacillus isolates isolated from quinoa in Bolivia and Ecuador for the same abilities. Microbes (mostly bacteria) were isolated from soil and plant material using various media and selected based on morphology for co-culturing with F. graminearum, while samples of soil and plant material were incubated in mineral salt media with DON and tested individually using GC-ECD to monitor DON removal from liquid culture. A total of 151 microbes were screened for inhibition, 59 of which were isolated from mineral salt media containing DON. Of the 151 microbes, 12 were found to inhibit F. graminearum, of which 4 were also able to reduce DON levels in culture. Five other microbes from the mineral salt media incubations were found to significantly decrease DON in culture, but did not inhibit F. graminearum. The fourth objective was to field test spray treatments of two microbes, one able to inhibit F. graminearum and the other able to remove DON, separately and combined, for their effects on FHB disease incidence, head severity, Fusarium damaged kernels (FDK), and DON accumulation in a FHB moderately resistant and a FHB susceptible cultivar of wheat. Using non-parametric two-way ANOVA analyses between medians, we found that treatment, cultivar, and treatment*cultivar were significant for all measured variables. Additionally, for some of the measured variables, microbe treatments were found to exacerbate disease and DON accumulation. Future research can further elucidate the effects of weather variables on affecting disease and DON accumulation in cultivars with varying degrees and types of resistance. Biocontrol research can focus on supporting the establishment and antagonistic activities of biocontrol agents in field environments. This dissertation contributes to furthering the understanding of factors influencing disease and DON levels, as well as the use of F. graminearum inhibition and DON removal for FHB biocontrol.
Author: Teresa M. Alconada Magliano Publisher: Springer Science & Business Media ISBN: 940077091X Category : Science Languages : en Pages : 311
Book Description
Fusarium head blight (FHB) on small-grain cereals is one of the most devastating diseases. Several species can cause head blight, though Fusarium graminearum is the predominant pathogen in most regions. F. graminearum is one of the most intensively studied fungal plant pathogens. This book presents the current state of knowledge regarding mycological aspects that make wheat-Fusarium interaction, such as hyphal growth, morphogenesis in germinating spores, visualization of enzymatic hydrolysis, production of mycotoxins, inhibition of the hyphal growth by antagonist microorganisms, use of natural substances or by modification of the host resistance, as well as genetic analysis and expression of genes that regulate the infection. Fungal ecology and epidemiology will also be discussed. Just as the analysis of environmental requirements for the establishment of the disease, the use of forecasts of disease risk with meteorological base and integrated management and control. This book includes the study of disease in Latin America, therefore will be of interest to researchers who are working on the issue, as for those who are interested in knowing about the disease.
Author: Kurt J. Leonard Publisher: American Phytopathological Society ISBN: Category : Barley Languages : en Pages : 544
Book Description
The book provides a comprehensive record of current knowledge on the nature of Fusarium head blight, the damage it causes, and current research on how to control it. The book begins with a historical account of Fusarium head blight epidemics that gives context to recent attempts to control epidemics in wheat and barley. A review of pathogen taxonomy and population biology helps scientists to see relationships among head blight pathogens and other Fusarium species. The information on epidemiology included in this review also provides an understanding of the weather conditions and cultural practices that promote explosive epidemics. New information on infection processes will lead the reader to a better understanding of how to breed for resistance in wheat and barley.
Author: Tony Ferarri Rios Publisher: ISBN: 9781619425392 Category : Fusarium diseases of plants Languages : en Pages : 0
Book Description
Fusarium is commonly associated with higher plants and are among the most ubiquitous fungi in terrestrial ecosystems. Many fusarium species are serious plant pathogens, causing symptoms such as necrotic lesions, rot, and wilt. In this book, the authors present current research in the study of the epidemiology, environmental sources and prevention of fusarium. Topics include the development of natural products from fusarium including chemotherapeutic agents for human diseases and agricultural applications; the molecular basis of fusarium wilt in tomatoes and disease management; lectin preparations for the biocontrol of fusarium species and fusarium head blight and DON contamination management in soft and durum wheat cultivation.
Author: K.F. Baker Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
Biological balance; What is biological control?; Biological control in plant pathology; Examples of biological control; Approaches to biological control with antagonistic microorganisms; Role of the pathogen in biological control; Role of the antagonist in biological control; Role of the host in biological control; Role of the physical environment in biological control; Biological control of pathogens of aerial parts; Whither biological control?; Why biological control?.
Author: Antonio Moretti Publisher: Humana ISBN: 9781493967056 Category : Science Languages : en Pages : 0
Book Description
This thorough volume explores the possibility of detecting and identifying toxigenic fungi, able to produce secondary metabolites known as mycotoxins, which cause severe health problems in humans and animals after exposure to contaminated food and feed, having a broad range of toxic effects, including carcinogenicity, neurotoxicity, and reproductive and developmental toxicity. Beginning with a section on fungal genera and species of major significance along with their associated mycotoxins, the book continues with sections on Polymerase Chain Reaction (PCR)-based methods for the detection and identification of mycotoxigenic fungi, PCR-based methods for multiplex detection of mycotoxigenic fungi, as well as sections on combined approaches and new methodologies. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Mycotoxigenic Fungi: Methods and Protocols will aid researchers working in this vital field to provide insight into possible actions to reduce mycotoxin contamination of crop plants and the food/feed byproducts.
Author: Randy C. Ploetz Publisher: American Phytopathological Society ISBN: Category : Science Languages : en Pages : 156
Book Description
Fusarium wilt of banana: some history and current status of the disease; Importante of fusarium wilt in different banana-growing regions; Taxonomy of fungi in the genus fusarium with emphasis on fusarium oxysporum; Genetic exchange within sexual and asexual populations of the genus fusarium; Molecular genetics of plant pathogenic fusarium oxysporum; Using karyotype variability to investigate the origins and relatednes of isolates of fusarium oxysporum f. sp. cubense; Population biology of fusarium oxysporum f. sp. cubense; Biological control of diseases caused by fusarium oxysporum; Influence of mineral nutrition on fusarium wilt: a proposed mechanism involving cell water relations; Host responses to the pathogen; Banana breeding and fusarium wilt; Breeding bananas and plantains for resistance to fusariu m wilt: the track record; Somaclonal resistance in cavendish banana to fusarium wilt; Baseline tissue and cell culture studies for use in banana improvement schemes.
Author: Trevor R. Hodkinson Publisher: Cambridge University Press ISBN: 1108471765 Category : Business & Economics Languages : en Pages : 445
Book Description
Discusses the role of endophytes in food security, forestry and health. It outlines their general biology, spanning theory to practice.
Author: James B. Sinclair Publisher: CRC Press ISBN: 9780873716383 Category : Science Languages : en Pages : 452
Book Description
The Second Edition of this bestseller brings together basic plant pathology methods published in diverse and often abstract publications. The Second Edition is updated and expanded with numerous new figures, new culture media, and additional methods for working with a greater number of organisms. Methods are easy to use and eliminate the need to seek out original articles. This reference allows for easy identification of methods appropriate for specific problems and facilities. Scientific names of pathogens and some of their hosts are updated in this edition. The book also acts as a research source providing more than 1,800 literature citations. The Second Edition includes chapters on the following: Sterilization of culture apparatus and culture media Culture of pathogens with detailed techniques for 61 fungi and selected bacteria Long-term storage of plant pathogens Detection and estimation of inoculum for 28 soilborne fungal pathogens and 5 bacterial genera-15 methods for airborne inoculum and 13 methods for seedborne pathogens Establishment of disease and testing for disease resistance Work with soil microorganisms Fungicide evaluation Biological control Bright-field microscopy
Author: Anita Behari
Author: Anita Behari
Author: Teresa M. Alconada Magliano
Author: Kurt J. Leonard
Author: Sharon Anne Inch
Author: Tony Ferarri Rios
Author: K.F. Baker
Author: Antonio Moretti
Author: Randy C. Ploetz
Author: Trevor R. Hodkinson
Author: James B. Sinclair