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Author: Corné M. J. Pieterse
Publisher: Frontiers E-books
ISBN: 2889191907
Category :
Languages : en
Pages : 358
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Book Description
Plants are members of complex communities and interact both with antagonists and beneficial organisms. An important question in plant defense-signaling research is how plants integrate signals induced by pathogens, insect herbivores and beneficial microbes into the most appropriate adaptive response. Molecular and genomic tools are now being used to uncover the complexity of the induced defense signaling networks that have evolved during the arms races between plants and the other organisms with which they intimately interact. To understand the functioning of the complex defense signaling network in nature, molecular biologists and ecologists have joined forces to place molecular mechanisms of induced plant defenses in an ecological perspective. In this Research Topic, we aim to provide an on-line, open-access snapshot of the current state of the art of the field of induced plant responses to microbes and insects, with a special focus on the translation of molecular mechanisms to ecology and vice versa.
Author: Corné M. J. Pieterse
Publisher: Frontiers E-books
ISBN: 2889191907
Category :
Languages : en
Pages : 358
Get Book Here
Book Description
Plants are members of complex communities and interact both with antagonists and beneficial organisms. An important question in plant defense-signaling research is how plants integrate signals induced by pathogens, insect herbivores and beneficial microbes into the most appropriate adaptive response. Molecular and genomic tools are now being used to uncover the complexity of the induced defense signaling networks that have evolved during the arms races between plants and the other organisms with which they intimately interact. To understand the functioning of the complex defense signaling network in nature, molecular biologists and ecologists have joined forces to place molecular mechanisms of induced plant defenses in an ecological perspective. In this Research Topic, we aim to provide an on-line, open-access snapshot of the current state of the art of the field of induced plant responses to microbes and insects, with a special focus on the translation of molecular mechanisms to ecology and vice versa.
Author: Richard Karban
Publisher: University of Chicago Press
ISBN: 0226424979
Category : Science
Languages : en
Pages : 332
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Book Description
Plants face a daunting array of creatures that eat them, bore into them, and otherwise use virtually every plant part for food, shelter, or both. But although plants cannot flee from their attackers, they are far from defenseless. In addition to adaptations like thorns, which may be produced in response to attack, plants actively alter their chemistry and physiology in response to damage. For instance, young potato plant leaves being eaten by potato beetles respond by producing chemicals that inhibit beetle digestive enzymes. Over the past fifteen years, research on these induced responses to herbivory has flourished, and here Richard Karban and Ian T. Baldwin present the first comprehensive evaluation and synthesis of this rapidly developing field. They provide state-of-the-discipline reviews and highlight areas where new research will be most productive. Their comprehensive overview will be welcomed by a wide variety of theoretical and applied researchers in ecology, evolutionary biology, plant biology, entomology, and agriculture.
Author: Andreas Schaller
Publisher: Springer Science & Business Media
ISBN: 1402081820
Category : Science
Languages : en
Pages : 450
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Book Description
This timely book provides an overview of the anatomical, chemical, and developmental features contributing to plant defense, with an emphasis on plant responses that are induced by wounding or herbivore attack. The book first introduces general concepts of direct and indirect defenses, followed by a focused review of the different resistance traits. Finally, signal perception and transduction mechanism for the activation of plant defense responses are discussed.
Author: Kerry F. Harris
Publisher: Academic Press
ISBN: 1483273326
Category : Science
Languages : en
Pages : 482
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Book Description
Vectors of Plant Pathogens is a collection of papers that discusses the interrelationship of plant pathogens with their vectors. This collection deals with the numerous vector groups associated with plant pathogens. One paper describes the biology, feeding behavior and distribution of aphids, leafhoppers, plant hoppers, mealy bugs, whiteflies, psyllids, membracids. Another paper addresses the virus transmission characteristics of the mealy bugs during preliminary fasting or feeding, acquisition access time, post-acquisition fasting or feeding, and the inoculation access time. Other papers also discuss the involvement of insects in transmitting bacterial and fungal pathogens; the authors list unresolved issues such as the role of insects in overwintering of bacterial pathogens or the association of the fungus with a particular vector. One author describes some suspected fungi transmission such as the pea stem necrosis virus, red clover necrotic mosaic virus, and the tomato bushy stunt virus. Another paper examines the fate of plant viruses in mite vectors and convectors particularly the viruses found in wheat, barley, or brome grass. Agriculturists, botanists, and researchers in the field of botany, conservation, and plant genealogy will find this book useful.
Author: Derek J. Chadwick
Publisher: John Wiley & Sons
ISBN: 0470515686
Category : Science
Languages : en
Pages : 290
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Book Description
Insect-Plant Interactions and Induced Plant Defence Chair: John A. Pickett, 1999 This book examines the sophisticated mechanisms that plants use to defend themselves against attack by insects and pathogens, focusing on the networks of plant signalling pathways that underlie these defences. In response to herbivory, plants release a complex blend of as many as 100 volatile chemicals, known as semiochemicals ('sign chemicals'). These act as an airborne SOS signal, revealing the presence of the herbivore to the predators and parasitoids that are its natural enemies. Plants also have endogenous defence mechanisms that can be induced in response to pathogens, and separate chapters deal with systemic acquired resistance, phytoalexins, and the interacting pathways in pathogen and pest resistance. The book discusses underlying biochemical mechanisms by which plant stress leads to the biosynthesis of chemical signals from pools of secondary metabolite precursors, or even from the primary metabolism source. Finally, consideration is given to the possibilities for exploiting these signalling pathways by plant molecular genetics. The use of plant signals and their analogues to switch on defence pathways in crop plants is covered in depth. Bringing together contributions from entomologists, chemical ecologists, molecular biologists and plant physiologists this book is truly interdisciplinary, and will be essential reading for anyone with an interest in agricultural pest control.
Author: B.B. Biswas
Publisher: Springer Science & Business Media
ISBN: 1489917071
Category : Science
Languages : en
Pages : 455
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Book Description
Recent years have seen tremendous progress in unraveling the molecular basis of different plant-microbe interactions. Knowledge has accumulated on the mecha nisms of the microbial infection of plants, which can lead to either disease or resistance. The mechanisms developed by plants to interact with microbes, whether viruses, bacteria, or fungi, involve events that can lead to symbiotic association or to disease or tumor formation. Cell death caused by pathogen infection has been of great interest for many years because of its association with plant resistance. There appear to be two types of plant cell death associated with pathogen infection, a rapid hypersensitive cell death localized at the site of infection during an incompatible interaction between a resistant plant and an avirulent pathogen, and a slow, normosensitive plant cell death that spreads beyond the site of infection during some compatible interactions involving a susceptible plant and a virulent, necrogenic pathogen. Plants possess a number of defense mechanisms against infection, such as (i) production of phytoalexin, (ii) formation of hydrolases, (iii) accumulation of hydroxyproline-rich glycoprotein and lignin deposition, (iv) production of pathogen-related proteins, (v) produc tion of oligosaccharides, jasmonic acid, and various other phenolic substances, and (vi) production of toxin-metabolizing enzymes. Based on these observations, insertion of a single suitable gene in a particular plant has yielded promising results in imparting resistance against specific infection or disease. It appears that a signal received after microbe infection triggers different signal transduction pathways.
Author: P. Gopalakrishnakone
Publisher:
ISBN: 9789400767287
Category : Plant toxins
Languages : en
Pages :
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Book Description
Author: Louis M. Schoonhoven
Publisher: Oxford University Press
ISBN: 019852594X
Category : Science
Languages : en
Pages : 441
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Book Description
"Half of all insect species are dependent on living plant tissues, consuming about 10% of plant annual production in natural habitats and an even greater percentage in agricultural systems, despite sophisticated control measures. Plants are generally remarkably well-protected against insect attack, with the result that most insects are highly specialized feeders. The mechanisms underlying plant resistance to invading herbivores on the one side, and insect food specialization on the other, are the main subjects of this book. For insects these include food-plant selection and the complex sensory processes involved, with their implications for learning and nutritional physiology, as well as the endocrinological aspects of life cycle synchronization with host plant phenology. In the case of plants exposed to insect herbivores, they include the activation of defence systems in order to minimize damage, as well as the emission of chemical signals that may attract natural enemies of the invading herbivores and may be exploited by neighbouring plants that mount defences as well." "Insect-Plant Biology discusses the operation of these mechanisms at the molecular and organismal levels, in the context of both ecological interactions and evolutionary relationships. In doing so, it uncovers the highly intricate antagonistic and mutualistic interactions that have evolved between plants and insects. The book concludes with a chapter on the application of our knowledge of insect-plant interactions to agricultural production." "This multidisciplinary approach will appeal to students in agricultural entomology, plant sciences, ecology, and indeed anyone interested in the principles underlying the relationships between the two largest groups of organisms on earth: plants and insects."--BOOK JACKET.Title Summary field provided by Blackwell North America, Inc. All Rights Reserved
Author: National Research Council
Publisher: National Academies Press
ISBN: 0309035422
Category : Technology & Engineering
Languages : en
Pages : 136
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Book Description
Authored by an integrated committee of plant and animal scientists, this review of newer molecular genetic techniques and traditional research methods is presented as a compilation of high-reward opportunities for agricultural research. Directed to the Agricultural Research Service and the agricultural research community at large, the volume discusses biosciences research in genetic engineering, animal science, plant science, and plant diseases and insect pests. An optimal climate for productive research is discussed.
Author: Po An Lin
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Drought and herbivory are two stresses that threaten productivity and survival of plants. While plant responses to either drought or herbivory are well studied, the responses of plants to concurrent drought and herbivory are unclear. This dissertation investigates the impact of water availability on plant-insect interactions using chemical ecology, plant physiology, molecular biology, and ecology approaches. We discovered that drought stress enhances plant resistance against insect herbivores and reduces plant tolerance against defoliation. In addition to its negative impact on plant tolerance, drought stress also reduces the number of insect natural enemies and other arthropods on plants. The reduction in arthropod number was found to benefit certain insect herbivores by reducing negative species interactions such as competition and predation. We hypothesized that the reduction in arthropod number on drought-stressed plants are partly associated with changes in plant volatile emission and found that the detrimental effects of drought on natural enemy attraction was associated with changes in herbivore-induced plant volatile (HIPV) emissions. Using current knowledge on ecology of drought-plant-insect interactions, we discussed the implications of water availability on plant anti-herbivore defenses and the integration of water and pest management in crop production around the world. Furthermore, we discover the ability of insect herbivores to induce drought-like response for their own benefit. We identify a hydrogen peroxide-producing salivary protein (glucose oxidase, GOX) in caterpillar Helicoverpa zea that triggers stomatal closure in plants. Stomatal closures were further linked to inhibition of important defense related HIPVs, such as (Z)-3-hexenyl acetate and (Z)-3-hexenol, which is similar to HIPV changes caused by drought. The findings discover an herbivore adaptation that utilize drought-like responses of plants for their own benefits and show the links between stomatal behavior and HIPV emission. This is the first study that utilizes CRISPR-Cas9 mutagenesis to study salivary protein function of insect herbivores and showed that organisms other than microbes can modulate behavior of stomata. As changes in water availability and pest continue to threaten plants in both natural and agricultural systems under climate changes, this dissertation contributes to a better understanding of the impacts of drought stress on plant-insect interactions from molecular, organismal, to populational levels. Additionally, we highlight the ability of insect herbivores to induce drought-like responses of plants, such as stomatal closure, for their own benefit, which is a novel strategy that have not been reported to date. We further demonstrate that stomata are important parts of plant responses to herbivores, in addition to its roles in responses to abiotic stresses and pathogen attack. However, significant knowledge gap exists in stomatal functions in plant-insect interactions, we are certain that the findings in this dissertation will incite further research and lead to a better understanding of stomatal functions in plant responses to their environment.
