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Hormonal Cross-Talk, Plant Defense and Development: Plant Biology, Sustainability and Climate Change focuses specifically on plants and their interaction to auxins, gibberellins, cytokinins, ethylene, abscisic acid, jasmonates, brassinosteroids, strigolactones, and the potential those interactions offer for improved plant health and production. Plant hormones (auxins, gibberellins, cytokinins, ethylene, abscisic acid, jasmonates, brassinosteroids, salicylic acid, strigolactones etc.) regulate numerous aspects of plant growth and developmental processes. Each hormone initiates a specific molecular pathway, with each pathway integrated in a complex network of synergistic, antagonistic and additive interactions. This is a valuable reference for those seeking to understand and improve plant health using natural processes. The cross-talks of auxins - abscisic acid, auxins - brassinosteroids, brassinosteroids- abscisic acid, ethylene - abscisic acid, brassinosteroids - ethylene, cytokinins - abscisic acid, brassinosteroids - jasmonates, brassinosteroids - salicylic acid, and gibberellins - jasmonates - strigolactones have been shown to regulate a number of biological processes in plant system. The cross-talk provides robustness to the plant immune system but also drives specificity of induced defense responses against the plethora of biotic and abiotic interactions.
Genomics, Transcriptomics, Proteomics and Metabolomics of Crop Plants presents current operational methods applied to model crop plants. Including subcellular organelles, DNA fingerprinting and barcoding, sRNA, gene expression, rhizosphere engineering, marker assisted and 5G breeding, plant-microorganism interactions, stress signaling and responses, the book highlights important factors that are often overlooked and explores the latest research. The book also explores cutting-edge approaches for immediate application in new research such as OMICS, genome-wide transcriptome profiling, bioinformatics and database, DNA fingerprinting and barcoding, sRNA, gene expression, genome editing, diagnostics, rhizosphere engineering, marker assisted and 5G breeding, crop plant-microorganism interactions, stress signaling and responses. Additionally, the book describes opportunities to manipulate crop plants genetic and metabolic systems, while also exploring the related bioethical and biosafety issues. These topics are chosen and covered in detail to fill the gap in this understanding of crop molecular biology.
Biostimulants in Plant Protection and Performance provides the latest research on biostimulants, a diverse class of compounds that includes substances or microorganisms that are helpful in sustainable plant growth and development. These substances accelerate plant growth, yield, and chemical composition even under unfavorable conditions, and include nitrogen-containing compounds, humic materials, some specific compounds released by microbes, plants, and animals, various seaweed extracts, bio-based nanomaterials, phosphite, silicon, and more. Additionally, the book discusses new generation products and bioproducts that are being developed for sustainable plant growth and protection, including research updates in biotechnology, nanobiotechnology, and the protective role of biostimulants. As the use of new generation biostimulants can enhance plant production systems through a significant reduction of synthetic chemicals, such as pesticides and fertilizers, and even elicit plant tolerance to various climate change-related stresses, this book is a welcomed edition to many fields of study.
Plant Function Traits: Linking Climate and Ecosystem Functioning, part of the Plant Biology, Sustainability and Climate Change series, presents a wholistic understanding of Plant Functional Traits. As global climate change advances, natural resources are facing increasing survival challenges, hence this book directly addresses that need, exploring the morphological, physiological, and phenological properties of a plant that can be used as a proxy to understand plant environment interactions. Users will find great illustrations throughout individual chapters, along with case studies that demonstrate applications of functional traits in classifying vegetation of a region into distinct type groups as Plant Functional Types (PFTs). Additional information includes applications in the development of new generation of Dynamic Global Vegetation Model (DGVM) and an understanding of the response of vegetation to changing environments.
Essential Minerals in Plant-Soil Systems: Coordination, Signaling, and Interaction under Adverse Situations is the first book to encompass these key aspects of plant science, biochemistry, soil science and fertilizer development in a single volume. Describing the micro- and macronutrients in the plant-soil system with the help of suitable illustrations, the book connects all the pieces enabling comprehensive and connected understanding. Sections cover recent advances in the understanding of how plants coordinate the acquisition, transport, signaling, and interaction, and cross-talks between macro- and micro-nutrients in adverse environmental situations. This book is a valuable reference for those putting research into practice in addressing stress situations, as well as providing important foundational insights for further research.
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