Rhizosphere Functioning And Structural Development As Complex Interplay Between Plants Microorganisms And Soil Minerals
Download Rhizosphere Functioning And Structural Development As Complex Interplay Between Plants Microorganisms And Soil Minerals PDF/ePub or read online books in Mobi eBooks. Click Download or Read Online button to get Rhizosphere Functioning And Structural Development As Complex Interplay Between Plants Microorganisms And Soil Minerals book now. This website allows unlimited access to, at the time of writing, more than 1.5 million titles, including hundreds of thousands of titles in various foreign languages.
Rhizosphere Functioning and Structural Development as Complex Interplay between Plants, Microorganisms and Soil Minerals
Author: Carsten W. Mueller
language: en
Publisher: Frontiers Media SA
Release Date: 2019-12-19
The rhizosphere, the soil volume, which is directly affected by root activity, is an important hot spot for a multitude of biotic and abiotic processes. Carbon transfer from plants to microorganisms and to soil takes place in these small volumes around living roots, creating chemical gradients and zones of microbial activity over distinct temporal and spatial scales. Hydraulic and biogeochemical properties of the rhizosphere and the formation of complex three-dimensional structures such as micro- and macroaggreates in turn, result from complex feedbacks between physical, chemical and biological processes. The aim of this Research Topic is to advance our understanding of rhizosphere interactions by collating 16 original contributions across disciplines, including original research, reviews and specific methods on the processes taking place in the rhizosphere, to shed new light on one of the most important interfaces for the diversity of life on earth.
Advanced Microbial Technology for Sustainable Agriculture and Environment
Advanced Microbial Technology for Sustainable Agriculture and Environment focuses on plant-microbe interactions in respect to bioremediation and plant growth promotion, providing insights on diverse approaches such as genomics, metagenomics, proteomics, bioinformatics and other high-throughput analyses of environmentally relevant microorganisms. The impact of frequent applications of potentially toxic chemicals (pesticides and fertilizers) and increased industrialization processes on microbial diversity emphasizes the potential threat to microbial biodiversity in ecosystems. This is an ideal resource on current trends and the future of PGPR developments with bioremediation potential.Moreover, it gives a deep understanding of the genetics of microbial biodegradation and different remediation mechanisms that help to re-establish the natural environment. - Helps readers find sustainable ways for environmental clean-up and increased agricultural productivity - Gives a systematic overview of the role of PGPR in bioremediation, selection and preparation of potential PGPR microbial inoculum for bioremediation, biodegradation and plant growth promotion - Illustrates the importance of PGPR in the bioremediation of potentially hazardous and relatively novel compounds with the maintenance of sustainable agricultural productivity - Addresses emerging novel approaches of PGPR-based biodegradation of toxic compounds and highlights key developments and challenges associated with the processes
Omics Science for Rhizosphere Biology
Author: Ramesh Namdeo Pudake
language: en
Publisher: Springer Nature
Release Date: 2021-05-08
This book presents a timely review of the latest advances in rhizosphere biology, which have been facilitated by the application of omics tools. It includes chapters on the use of various omics tools in rhizosphere biology, focusing on understanding plant and soil microbe interactions. The role of proteomics and metagenomics in research on symbiotic association is also discussed in detail. The book also includes chapters on the use of omics tools for the isolation of functional biomolecules from rhizospheric microorganisms. The book’s respective sections describe and provide detailed information on important omics tools, such as genomics, transcriptomics, proteomics, metabolomics and meta-epigenomics. In turn, the book promotes and describes the combined use of plant biology, microbial ecology, and soil sciences to design new research strategies and innovative methods in soil biology. Lastly, it highlights the considerable potential of the rhizosphere in terms of crop productivity, bioremediation, ecological engineering, plant nutrition and health, as well as plant adaptation to stress conditions. This book offers both a practical guide and reference source for all scientists working in soil biology, plant pathology, etc. It will also benefit students studying soil microbiology, and researchers studying rhizosphere structure.