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Nanotechnology Applications and Innovations for Improved Soil Health
Traditional agricultural practices face escalating environmental challenges and struggle to meet global food demands while ensuring soil health and sustainability. Soil degradation, exacerbated by factors like industrialization and urbanization, significantly threatens crop productivity and food security. Conventional remediation methods often need to be revised, requiring innovative approaches to restore soil health and fertility. Nanotechnology Applications and Innovations for Improved Soil Health presents a groundbreaking solution to this pressing issue, offering a comprehensive guide to leveraging nanotechnology for sustainable agriculture. This pioneering book explores the transformativ...
Microbial Applications for Environmental Sustainability
This book focuses on the various applications of microorganisms for sustainable environment and the reduction of hazardous pollutants released in various forms, including xenobiotics, e-waste, pesticides, insecticides, plastic, heavy metals, paper waste, medical waste, textile dyes, and their impact on environmental and human health. The book involves a series of research reports that explain the application of microbes used to solve real-life issues raised due to changes happening in environment, including pollution, by covering applications, including the use of bacteria, fungi, microalgae and biofilm in the detection and degradation of crude oil, pesticides, dyes, e-waste, heavy metals and other pollutants. It also focuses on integrative strategies in the application of microbial nanomaterials for remediation of pollutant. This material will help environmental scientists and microbiologists to learn about existing environmental problems and suggest novel ways to control or contain their effects by employing various treatment approaches.
Plant Stress Tolerance
Plant Stress Tolerance: Molecular Mechanisms and Breeding Strategies, Volume One provides effective ways for organizing precision and sustainable agriculture. The methods include the use of advanced molecular techniques covering multiple omics, high-throughput technology, computational biology, epigenetic manipulation, and CRISPR genome editing. These methods can advance the development of high-yield, high-quality, and stress-resilient crops that meet the requirements for supporting global food and nutrition security. The book proposes strategies for omics-assisted and speed breeding techniques, exploring molecular mechanisms of plant abiotic stress caused by temperature, drought, salinity, ...
Geoinformatics
Geoinformatics is a cutting-edge tool that develops and uses information science technology that can have far-reaching implications that include boosting agricultural output, increasing food supply, and reducing hunger-related problems in poor and developing countries. This new book, Geoinformatics: An Emerging Approach for Sustainable Crop Production and Food Security, highlights the many applications of geoinformatics in agriculture, mainly its potential to improve agricultural systems and environmental issues through innovative, eco-friendly approaches. The book is divided into seven sections. Part I contains foundational material on the field of geoinformatics. Part II discusses the role...
Crop Nutrition
In the face of global challenges such as climate change, population growth, and food security, understanding and optimizing crop nutrition has never been more critical. Crop Nutrition addresses these urgent issues by providing an in-depth exploration of how effective nutrient management can enhance soil health, boost food production, and contribute to the achievement of Sustainable Development Goals (SDGs). The book delves into key aspects of crop nutrition, covering the essentials of nutrient management, the role of primary, secondary, and micronutrients, and innovative practices for sustainable agriculture. Each chapter provides comprehensive insights into various nutrients, their function...
Sustainable Agriculture under Drought Stress
Sustainable Agriculture under Drought Stress: Integrated Soil, Water and Nutrient Management seamlessly blends cutting-edge research with practical applications, offering a unique perspective on tackling this urgent challenge. Through a multidisciplinary lens, this book provides a cohesive and comprehensive understanding of both the current landscape and future prospects. Readers will find this book equips them with the knowledge and strategies required to manage soil nutrients and water effectively, ensuring the health of both soil and plants, especially in arid and semi-arid regions, where solutions are urgently needed.This book offers actionable insights into mitigating the impacts of climate change on agricultural systems, making it essential reading for anyone invested in sustainable land management and food security. - Clarifies mechanisms and proposes solutions for enhancing soil health and fertility, irrigation management, and crop production in drought-stressed environments - Presents a diverse array of options for responding to drought stress, optimizing plant health and furthering sustainability - Explores emerging cropping systems and opportunities
Harnessing NanoOmics and Nanozymes for Sustainable Agriculture
In an era overshadowed by pressing global challenges such as climate change, burgeoning populations, and the depletion of natural resources, the agricultural landscape is at a critical juncture. The need for sustainable practices has never been more urgent, with conventional methods struggling to meet the demands of a growing population while grappling with environmental degradation. Harnessing NanoOmics and Nanozymes for Sustainable Agriculture delves into the heart of the problem, navigating the intricate web of challenges facing agriculture today. From dwindling crop yields to the environmental repercussions of conventional farming practices, the urgency to find innovative, sustainable solutions is paramount. Harnessing NanoOmics and Nanozymes for Sustainable Agriculture offers a comprehensive exploration of nanotechnology's potential to revolutionize agriculture, presenting a promising pathway toward enhanced productivity, minimizing environmental impact, and optimal resource utilization.
