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Full Description
This book presents the impact of a wide array of xenobiotic compounds on the physio-biochemical and molecular parameters in an integrative format. It highlights recent advances in bioremediation strategies, including the use of novel microorganisms, rhizosphere engineering, microbial enzymes, and nanotechnology. By exploring the effects of xenobiotic exposure on plants and microbes holistically, this book aims to boost sustainable agriculture for the future.
Key concepts include the mechanisms and strategies plants employ for detoxifying xenobiotics, microbial mitigation of plant stress, and the role of nanobiosensors in environmental monitoring. Chapters delve into topics such as the ecological impacts of emerging pollutants, plant-microbe interactions under environmental stress, and innovative bioremediation techniques. This comprehensive analysis makes the book a must-read for understanding the challenges and solutions in managing xenobiotic impacts.
Researchers, scholars, and scientists in Plant Sciences, Agriculture, and related fields will find this book invaluable. With illustrative schemes and sketches, the book effectively communicates complex ideas, drawing attention to the critical challenges of future food production and environmental issues. It is particularly relevant for academics, practitioners, and policymakers seeking to understand and address the impacts of xenobiotics on ecosystems. By providing a detailed exploration of current research and innovative solutions, the book serves as a vital resource for those committed to fostering a sustainable future.
Contents
Chapter 1. Ecological Impacts of Emerging Pollutants in the Context of Climate Change: Challenges and Solutions.- Chapter 2. Ecological Impacts of Emerging Pollutants in The Event of Climate Change.- Chapter 3. Challenges of Emerging Pollutants for the Ecological Receptors in 21st Century.- Chapter 4. Effect of Xenobiotic exposure to the AMF community: A concern on their diversity, viability, and host physio biochemical impacts.- Chapter 5. Xenobiotics in the Hydrosphere: Natural Degradation Pathways and Future Concerns.- Chapter 6. Xenobiotic Interaction with Algal Community: Cutting-Edge Insights and Future Horizons.- Chapter 7. Impacts of Industrial Effluents on Plants and Their Effects on the Food Chain.- Chapter 8. Mechanistic Understanding of Xenobiotic Detoxification by Plants.- Chapter 9. Plant Defense System Against Xenobiotics: Molecular Mechanisms and Metabolic Responses.- Chapter 10. Microbe Mediated Xenobiotic Degradation: Recent Status and Prospects.- Chapter 11. Plant-Microbe Interaction under Environmental Extremities with Special Reference to Rhizospheric Engineering.- Chapter 12. Plant Defence System Against Heavy Metal Stress: From Genes to Proteins.- Chapter 13. A Critical Analysis of Spatio-Temporal Expression Regulation of Genes and Proteins upon Xenobiotic Exposure in Plants.- Chapter 14. Understanding the Mechanisms of Heavy Metal Detoxification in Land Plants.- Chapter 15. Plant Nutrition and Soil Fertility Management in Heavy Metals Contaminated Soils.- Chapter 16. Accumulation of Arsenic in the Food-chain through Groundwater Soil Environment System: Its Alleviation Strategies.- Chapter 17. Metal Detoxification in Land Plants: From Bryophytes to Vascular Plants.- Chapter 18. Pteridophytes: Potential Phytoremediator for a Sustainable Environment.- Chapter 19. Microbes in Tackling Recalcitrant Xenobiotics.- Chapter 20. Pesticide Bioremediation by Actinobacteria: Current Status and Future Perspectives.- Chapter 21. Myco-enzymes as a Potent Tool for the Degradation of Xenobiotics.- Chapter 22. Exploring the Role of Earthworm Gut Bacteria in Minimizing the Noxious Effects of Xenobiotic Compounds on Plant Growth.- Chapter 23. Nanobiosensors in the Prediction of Environmental Pollutants: Recent Advances and Challenges.- Chapter 24. Nanobiosensors in Environmental Pollution Control: Innovations and Future Prospects.- Chapter 25. Integration of Nanobiosensors with IoT for Real-Time Environmental Monitoring and Data Analytics.
