Decoding Plant–Environment–Microbiome Interactions in Stress-Resilient Agriculture delivers both foundational understanding and forward-looking perspectives on the rapidly advancing field of phytomicrobiome research. Showcasing the unique advantages of microbial partnerships in stressed soils, the book explores how optimizing plant–microbiome interactions can transform crop productivity and sustainability.
Focusing on the phytomicrobiome’s diverse components―including root-associated microbiota, plant growth-promoting rhizobacteria, endophytes, phosphate-solubilizing microorganisms, arbuscular mycorrhizal fungi, and actinomycetes―the volume reveals how these microbial networks enhance plant stress tolerance, rehabilitate degraded or contaminated soils, and sustain yields under adverse conditions.
Harnessing these natural bioresources effectively requires an integrated understanding of the complex crosstalk between plants and their associated microbes, from molecular signaling to ecological mechanisms. Drawing on insights from internationally recognized scientists and leading academicians, this book consolidates cutting-edge research and emerging innovations, providing readers with the knowledge needed to advance stress-resilient and environmentally sustainable agriculture.
- Offers actionable insights and solutions that can be applied in real-world agricultural settings
- Bridges multiple disciplines, including microbiology, plant biology, soil science, and environmental science
- Explores cost-effective and sustainable solutions to stress-related soil complications
Asfa Rizvi specializes in environmental microbiology and bioremediation, with a PhD in Agricultural Microbiology from Aligarh Muslim University, India. She has received two gold medals at the postgraduate level and has extensive experience in biotic/abiotic stress, heavy metals–microbes–plants interactions, and environmental microbiology. She has completed a prestigious national postdoctoral fellowship, as a principal investigator, awarded by the Science and Engineering Research Board (SERB), India, where she investigated rhizobacteria-mediated disease management in cereal crops using high-throughput proteomics. Dr. Rizvi is a prolific author and also a reviewer and editorial contributor for journals like
Chemosphere and
Frontiers in Plant Science. With expertise in microbe–plant interactions, nanotoxicology, and biofertilizers, she brings a strong scientific and editorial vision to the field of microbial and environmental sciences.
Currently serving as a professor,
Mohammad Saghir Khan has approximately 30 years of teaching and research experience in environmental microbiology, nanotechnology, biofertilizer technology, soil pollution, bioremediation technology, immunology, soil microbiology, and food crop production. A prolific book author and editor for reputed publishers worldwide, he also serves as an associate editor for different international journals and has served in the past as an associate guest editor for
Frontiers in Microbiology and Molecules. Dr. Khan has also completed numerous national and international projects.
Eloisa Pajuelo, professor of microbiology at the University of Seville, Spain, has 26 years of experience in plant–microbe interactions and abiotic stresses like salinity, drought, and low/high temperature. Designing biofertilizers for application under stressed environments is the focus of her research, specializing in soil bacteria dynamics, endophytes, PGPR, phytoremediation, etc. A prolific researcher and author, Dr. Pajuelo has served as a guest editor in Frontiers in Microbiology on a special issue titled “Rhizospheric Microbiota–Plant Interactions: A Bioremediation Strategy for Inorganic Pollutants.”
Khalid Oufdou is a full Professor (grade C) at the Cadi Ayyad University, Faculty of Sciences Semlalia, Morocco. He has developed more than 20 research projects in collaboration with Spain, France, Germany, Tunisia, Portugal, Sweden, and the European Union. He was awarded a DAAD fellowship and has accrued significant research experience in plant–microbe interactions, stress management of contaminated environments, plant biotechnology, microbial ecology, and antibacterials, which has resulted in numerous research publications. He is also a reviewer for several international journals:
Journal of Advanced Research,
Journal of Environmental Management,
Applied Soil Ecology,
Archives of Agronomy and Soil Science,
Pedosphere, and
Frontiers in Microbiology.
Bilal Ahmed is a multidisciplinary researcher and academic currently serving as a research scientist at Purdue University, United States. He holds a PhD in microbiology with a focus on environmental nanotoxicology from Aligarh Muslim University, India. His research bridges microbiology, nanotechnology, and molecular diagnostics, with a particular emphasis on sustainable agriculture and biosensor development. He has received three gold medals at the postgraduate level. Dr. Ahmed has teaching experience as a foreign faculty member and research experience in the School of Chemical Engineering, Yeungnam University, South Korea, where he also won a research grant from the National Research Foundation (NRF) of Korea. He also worked as a research assistant for 3 years on a project funded by CST, U.P., Lucknow, Uttar Pradesh, India. His scholarly achievements have earned him recognition among the World's Top 2% Scientists by Stanford University and Elsevier. Dr. Ahmed has also served as a guest editor for two special issues in
Molecules. Recently, he has edited a book titled “Nano-Biofortification for Human and Environmental Health” published by Springer, Switzerland. Currently, he serves as a reviewer and member of the editorial board for different journals.
