Nanomaterials And Nano Biochar In Reducing Soil Stress
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Nanomaterials and Nano-Biochar in Reducing Soil Stress
Soil deterioration, loss of productivity, and increases in toxic elements in soil induced by rapid industrial development and intensive cultivation are posing a serious threat to global food security and environmental sustainability. Nanotechnology has the capacity to expand current cultivation practices in a sustainable way. This new book details the potential this novel technology has to reduce soil pollution, enhance crop production, promote sustainable agriculture, and ultimately ensure food security. The book emphasizes how nano-biochar technology can be implemented to enhance microbial activities and other soil organism functionalities by applying or combining agricultural practices and soil health-improving amendments. Exploring the most promising carbon-rich material, that is, biochar, and more effectively, nano-biochar, this book covers the characteristics, production and benefits of nano-enhanced biochar. The role of nanobiochar in metal stress reduction, for soil health improvement, as a soil conditioner, in reducing soil stress using integrated approaches, for improving nutrient use efficiency, in salinity stress management, for sustainable crop production, and for arsenic remediation are all considered in detail. Starting with an introduction to nano-biochar, the book goes on to detail its benefits, its conditioner-like effect on soil, its role in improving soil health and reducing soil stress, how it improves nutrient use capacity in soil and its ability to alleviate salinity, heavy metal stress, and arsenic remediation in crops. With its comprehensive coverage of the important topic of biochar and nano-biochar, the book will prove useful to companies, students, professors, researchers, and scientists who are interested in the topic of soil stress management and sustainable agriculture as well as policymakers who can recommend novel agriculture amendments.
Nano-Biochar and Nanoparticles for Soil Health Improvement
Crop loss and insufficient yield are two important issues faced by farmers. A major cause of both of these issues is unhealthy soil. Various technological means have been tested and used for purifying soil and making it healthy. However, they are expensive and often unfriendly to the environment. This new book explores sustainable means of soil improvement through the promising use of nano-biochar and nanoparticles for improving soil quality as well as for reducing waste. The book discusses how nano-biochar can improve soil quality and sustainability and explores the various types of nanoparticles and approaches for improving soil health. Chapters present research on how nanoparticles and nano-biochar can reduce salinity stress, improve soil physiochemical properties, and improve intrinsic soil characteristics.
Nanotechnology for Abiotic Stress Tolerance and Management in Crop Plants
Nanotechnology for Abiotic Stress Tolerance and Management in Crop Plants reviews the most recent literature on the role of nanomaterials in achieving sustainability in crop production in stressful environments. This book explores the adverse conditions caused by abiotic stress to crop plants, and the methods by which these conditions can be potentially overcome through developments in nanoscience and nanotechnology. Abiotic stresses such as drought, salinity, temperature stress, excessive water, heavy metal stress, UV stress etc. are major factors which may adversely affect the growth, development, and yield of crops. While recent research for ways of overcoming the physiological and biochemical changes brought on by these stresses has focused on genetic engineering of plants, additional research continues into alternative strategies to develop stress tolerant crops, including the use of nanoscience and nanotechnology. Providing an in-depth summary of research on nanomaterials and nano-based devices for field monitoring of crops, this book will serve as an ideal reference for academics, professionals, researchers, and students working in the field of agriculture, nanotechnology, plant science, material science, and crop production. - Presents advancements in our understanding of molecular and physiological interactions between nanoparticles and crop plants - Includes figures and illustrations to help readers visualize and easily understand the role of nanomaterials - Serves as an ideal reference for those studying smart nanomaterials, biosensors, and nanodevices for real-time plant stress measurement