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Elsevier

Optimizing the Plant Endosphere for Stress Management

Enhancing Sustainable Agriculture

  • 1st Edition - November 1, 2026
  • Latest edition
  • Editors: Sankalp Misra, Manish Kumar, Diby Paul
  • Language: English

Optimizing the Plant Endosphere for Stress Management: Enhancing Sustainable Agriculture presents the latest insights on how plants manage various abiotic and biotic stress… Read more

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Description

Optimizing the Plant Endosphere for Stress Management: Enhancing Sustainable Agriculture presents the latest insights on how plants manage various abiotic and biotic stresses by the interaction between plants and endophytes. The book explores the molecular and physiological mechanisms underlying plant-endophyte interactions, the contribution to stress mitigation, the identification of key traits that improve plant resilience, and the potential for using these beneficial endophytes to reduce the need for chemical fertilizers and pesticides. By deepening our understanding of these relationships, this book can help bring about innovative strategies that contribute to sustainable agriculture and food security while also confronting environmental challenges.

These complex and multifaceted interactions influence plant health, growth, and resilience. Endophytes, primarily bacteria and fungi, inhabit the internal tissues of plants without causing harm. They play vital roles in enhancing plant growth and stress tolerance through various mechanisms including nutrient acquisition, pathogen resistance, and the production of bioactive compounds. As environmental stresses such as drought, salinity, and disease become increasingly prevalent due to climate change and agricultural intensification, understanding these interactions is crucial for developing effective stress management strategies.

Key features

  • Explores cell signaling and gene expression during endophyte-plant interaction and stress tolerance
  • Covers endophytic bacterial and fungal nanotechnology
  • Highlights the functional diversity of endophytes across different plant species

Readership

Academics, Researchers and Advanced Students in agriculture, agronomy, and crop sciences

Table of contents

Part I: Introduction to Plant-Endophyte Interactions

1. Outlook of Plant-Endophyte Interaction for Sustainable Agriculture

2. Significance of Endophytes in Plant Stress Management

Part II: Colonization of Endophytes in Plants

3. Mechanisms of Endophyte Entry and Transmission

4. Factors Influencing Endophyte Colonization Success

Part III: Molecular Aspects of Plant-Endophyte Interactions

5. Signaling Pathways and Gene Expression Changes

6. Recognition of Endophytes by Plants and Evasion of Plant Defenses

Part IV: Endophyte-Mediated Alleviation of Abiotic Stresses

7. Enhancing Tolerance to Drought, Salinity, and Heavy Metals

8. Modulation of Antioxidant Systems and Osmolyte Biosynthesis

Part V: Endophyte-Mediated Mitigation of Biotic Stresses

9. Induction of Systemic Resistance against Pathogens and Pests

10. Production of Antimicrobial Compounds and Enzymes

Part VI: Endophyte-Mediated Improvement of Nutrient Acquisition

11. Nutrient Acquisition by Endophytes

12. Enhancing Nutrient Uptake under Limiting Conditions

Part VII: Screening and Selection of Stress-Tolerant Endophytes

13. Identification of Beneficial Traits and Functional Genes

14. Compatibility Assessment with Target Plant Species

Part VIII: Manipulation of Endophyte Communities for Stress Management

15. Strategies for Modifying Endophyte Composition and Diversity

16. Challenges in Plant Endosphere Community Engineering

Part IX: Endophytic Nanotechnology

17. Endophytic Fungi Mediated Nano-solutions for Biotic or Abiotic Plant Stress

18. Endophytic Bacteria Mediated Nano-solutions for Biotic or Abiotic Plant Stress

Part X: Challenges and Future Perspectives

19. Addressing the Complexity of Plant-Endophyte-Environment Interactions

20. Integrating Omics Technologies and Synthetic Biology Approaches

21. Harnessing Omics Technologies for Plant-Endophyte Association

22. Synthetic Biology Approaches for Plant Endosphere Engineering

23. Recent Advances in Endophyte-Mediated Techniques in Agriculture

24. Bridging Research and Practice: Engaging Stakeholders in Agricultural Innovation

25. Leaf Phyllosphere Endophytes Contributing in the Nano-Dye Synthesis: A Case Study

Product details

  • Edition: 1
  • Latest edition
  • Published: November 1, 2026
  • Language: English

About the editors

SM

Sankalp Misra

Sankalp Misra is an Assistant Professor at Shri Ramswaroop Memorial University (SRMU), Uttar Pradesh, India. He completed his Ph.D. in Biological Sciences from CSIR-National Botanical Research Institute (NBRI), Lucknow, and was awarded by the Academy of Scientific and Innovative Research (AcSIR). He has qualified for CSIR-UGC NET and has been awarded a Senior Research Fellowship (SRF) and Research Associateship (RA) from ICMR (Indian Council of Medical Research), New Delhi, India. He has been felicitated with the Young Researcher Award from the Institute of Scholars and SRMU. Dr. Misra has also received Best Poster Awards at international and national conferences. He holds a Life membership of “The Association of Microbiologists of India (AMI)”. He has published over 20 SCI research articles, authored over 20 book chapters, and edited one book. He has received research grants from different funding agencies including ICMR, UPCST, and SRMU. His research interests include sustainable agriculture, abiotic stress-resilient agriculture, and biofertilizer-based technologies for improving soil fertility and crop productivity.
Affiliations and expertise
Assistant Professor, Institute of Biosciences & Technology, Faculty of Biosciences, Shri Ramswaroop Memorial University, Lucknow, Uttar Pradesh, India

MK

Manish Kumar

Dr. Manish Kumar is a Distinguished Professor in Water Science at Tecnológico de Monterrey, with expertise in sustainability, contaminant remediation, and environmental engineering. He has contributed significantly to wastewater surveillance and water supply strategies in the context of climate change. Prof. Kumar's research, recognized globally, spans over 200 international journal articles and numerous projects. He is a Fellow of the Royal Society of Chemistry and has been listed among the top 2% researchers worldwide by Stanford University.

Affiliations and expertise
Distinguished Professor at Tecnológico de Monterrey

DP

Diby Paul

Diby Paul is a professor of biology at the College of Life and Health Sciences at Truett McConnell University in Georgia, USA. He has published numerous research articles on topics such as plant growth-promoting rhizobacteria, rhizosphere microbial ecology, bacterial salt-stress tolerance, quorum sensing, and quorum quenching. His postdoctoral research involved characterizing bacterial proteins associated with salt stress tolerance. He is a recipient of the Endeavour Executive Research Fellowship and conducted advanced research on the molecular characterization of the rhizosphere microbiome at Murdoch University in Perth, Australia. His research at the Sociomicrobiology & Microbial Interactions Laboratory (SMIL) focuses on using quorum-quenching phytomolecules to inhibit harmful bacterial biofilm formation.
Affiliations and expertise
Professor, Sociomicrobiology & Microbial Interactions Laboratory, School of STEM, Truett McConnell University, Cleveland, GA, United States