Nanopriming Approach to Sustainable Agriculture


Book Description

The challenges posed by climate change have had a significant impact on global food security, with crop yields negatively affected by abiotic and biotic stresses. The book Nanopriming Approach to Sustainable Agriculture offers a promising solution to this problem, providing a sustainable technology that ensures the growth and development of healthy plants in adverse conditions. By using nanoparticles to enhance seed germination and growth, nanopriming establishes pre-resistance against diseases and stresses, thereby reducing the need for pesticides and fertilizers. This reduction in the use of harmful chemicals not only benefits the environment but also helps increase the income of farmers worldwide. This edited book offers a comprehensive overview of the latest research and development in nanotechnology for agriculture, covering topics such as crop production, protection, soil fertility improvement, and crop improvement. With each chapter focusing on a specific topic, the book is a valuable resource for students, researchers, and professors seeking to stay up to date with the latest advances in nanotechnology. The book is especially relevant for those interested in precision farming, and it highlights the potential of nanopriming as an effective tool for sustainable agriculture. Topics covered include seed priming with zinc oxide and silver nanoparticles, myco-synthesized nanoparticles as seed priming agents, and nanopriming for alleviating heavy metal toxicity in plants. Co-edited by leading researchers in the field, this book is designed to be a valuable asset for university courses and provides updated knowledge and applications in agriculture sciences. Overall, this book offers a comprehensive overview of the latest research in nanotechnology for agriculture and its potential to revolutionize sustainable agriculture practices worldwide.




Sustainable Agriculture


Book Description

The agricultural food system needs to provide access to enough healthy and affordable food for the growing population and mitigate its impact on the planet for future generations. Emerging technologies can help farmers increase yields.The book presents theoretical and applied aspects of nanotechnology, biotechnology, plant breeding and smart farming to increase plant productivity, crop yield, soil fertility and crop soil monitoring.




Harnessing NanoOmics and Nanozymes for Sustainable Agriculture


Book Description

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.




Sustainable Agriculture under Drought Stress


Book Description

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




Microbiome and Nano-Cross-Talk


Book Description

Microbiome Nano-Cross-Talk presents a comprehensive overview of the functional aspects of multiphasic microbial and nanotechnological interactions within and between plants and their ecosystem. Recognizing that beneficial microbes are involved in plant growth promotion, this book highlights their mechanism and regulation to enhance plant's yield and development even under stressed conditions. The merging of nanotechnology with microbiology is an essential aspect of this book. Various nanomaterials, their synthesis approaches as well as applications in agriculture have been studied extensively in past years. However, there is still a lack of information available on the synergism between nanomaterials and microbes towards increased plant growth as well as reducing stress. Microbiome Nano-Cross-Talk, provides detailed insights into these environmental and agricultural perspectives of plant-microbe-nano interaction. With a focus on focus the morphological, anatomical, biochemical, molecular and gene expression levels of plant growth promotion, the book is the first of its kind to enable scientists to unravel the different pathways and signaling cascades involved in response to this interaction and to understanding how nanomaterials regulate the plant-microbe associations. It critically examines the role of beneficial microbes in conjunction with nanoparticles in plants and the mechanisms adopted by the plants at the biochemical and molecular levels to enhance plant growth and mitigate various stresses. - Presents a logistic approach to nanotechnology and microbiology in the plant sciences - Explores multiple nanomaterials and their interactions for improved plant health and yield - Enables the reader to devise strategies for engineering stress-tolerant plants and increased plant productivity




Nanotechnology Applications and Innovations for Improved Soil Health


Book Description

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 transformative potential of nanomaterials in enhancing soil quality and crop production. By harnessing the unique properties of nanomaterials, such as their high surface area and reactivity, researchers and practitioners can develop novel strategies to address soil degradation and improve nutrient availability. By systematically examining nanotechnology's role in soil health, this book equips readers with the knowledge and tools needed to revolutionize agricultural practices and ensure food security for future generations.




Advanced Computational Methods for Agri-Business Sustainability


Book Description

Globalization has transformed agri-food markets, creating a single global market with reduced trade barriers. In theory, this should bring increased food security, yet challenges persist. Small farmers often need help integrating into global sourcing networks and meeting stringent food safety regulations. Additionally, there is increasing pressure on businesses and governments to address the environmental and resource consequences of agri-food production. Advanced Computational Methods for Agri-Business Sustainability offers a comprehensive analysis of agricultural sector challenges and provides practical solutions. It identifies potential issues in agri-food management and supply chains, offers mitigation strategies, and highlights opportunities for sustainable development. The book aims to bridge the gap between theory and practice, providing insights for academics, policymakers, and industry professionals.




Bioinoculants with Nano-compounds to Improve Soil Health: A Step Toward Sustainable Agriculture


Book Description

In recent decades, agrochemicals have enhanced crop productivity to meet increasing global food requirements. However, prolonged and extensive use of agrochemicals has resulted in contamination that persists in the soil system which can be biomagnified in the food chain. Furthermore, toxic chemicals adversely affect important soil microbial biota, the key drivers of biogeochemical cycles. This concern has raised the need to develop environmentally friendly and cost-effective nano- and micro-biotechnology strategies to minimize the adverse impact of agrochemicals and pesticide residues on soil microbiota, soil fertility, and their biomagnification in food crops. Nano-bioinoculants - the combination of nano-compounds and bioinoculants - have been increasingly used as soil amendments. They can improve agri-potential and soil health by maintaining soil physico- and biological properties, microbial diversity, and the nutrient-solubilizing microbial population. They also aid in improving crop yields and reducing agrochemical and pesticide residues. Nano-bioinoculants are more efficient than other methods for removing contaminants due to their small size, high reactivity, and catalytic activities. Several types of nano-compounds (chitosan, zeolite, gypsum, and silicon dioxide) have been used in conjunction with beneficial microbes (bacteria fungi, actinomycetes & endophytic bacteria) as nano-bioinoculants.




Nano-enabled Agrochemicals in Agriculture


Book Description

Nano-Enabled Agrochemicals in Agriculture presents a targeted overview of the safe implementation of nanotechnologies within agricultural and horticultural settings, with the purpose of achieving enhanced production while maintaining ecological integrity. The growing global request for agricultural crops and products requires high standards of quality and safety, which has stimulated the search for new technologies that preserve their quality and delay their decomposition. Nanotechnology may boost plant production by improving nutrient uptake/use efficiency with nanoformulations of fertilizers and agrochemicals for plant enhancement, detection and treatment of diseases, and host-parasite interactions at the molecular level using nanosensors. It also may improve plant disease diagnostics, removal of contaminants from soil and water, postharvest management of vegetables and flowers, and reclamation of salt-affected soils. Although the markets for nanoproducts and nanoformulations continue to increase, there are also growing concerns regarding the fate and behavior of nanomaterials in environmental systems. Exploring important topics related to nanotechnology and nanomaterials, the book includes the use of nanochemicals in insect pest management, as nanofungicides, nanoherbicides, micronutrient supply, and nanosensors to monitor crop and soil health conditions, from detection of agrochemicals to their slow release of agrochemicals, and their impact on related environs. This book will serve as an excellent resource for a wide range of plant scientists who have concerns about nanomaterial interactions with terrestrial and aquatic plants. - Focuses on emerging important topics related to nanotechnology and nanomaterials on agricultural systems - Emphasizes new applications of nanomaterials in the agricultural sciences, from fertilizers to irrigation systems - Addresses concerns about nanomaterial interactions with terrestrial and aquatic plants




Handbook of Research on AI-Equipped IoT Applications in High-Tech Agriculture


Book Description

The agriculture industry is facing significant challenges in meeting the increasing demand for food while also ensuring sustainable development. Traditional agricultural methods are not equipped to meet the demands of the modern world. To overcome these challenges, Advanced Technologies and AI-Equipped IoT Applications in High-Tech Agriculture provides an in-depth analysis of the opportunities and challenges for AI-powered management tools and IoT-equipped techniques for the high-tech agricultural ecosystem. The Handbook of Research on AI-Equipped IoT Applications in High-Tech Agriculture explores advanced methodologies, models, techniques, technologies, and applications along with the concepts of real-time supporting systems to help agricultural producers adjust plans or schedules for taking care of their farms. Additionally, it discusses the role of IoT technologies and AI applications in agricultural ecosystems and their potential to improve product quality and market competitiveness. The book includes discussions on the application of blockchain, biotechnology, drones, robotics, data analytics, and visualization in high-tech agriculture. It is an essential reference for anyone interested in the future of high-tech agriculture, including agricultural analysts, investment analysts, scholars, researchers, academics, professionals, engineers, and students.