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This book shows how the use of biodegradable plastics in agriculture can have a profound positive impact on plasticulture. Starting with an organic chemistry approach to biodegradable and compostable plastics, both natural and synthetic, it then analyzes the technological and agronomic aspects of existing bioplastics for protected cultivation (mulching, direct cover, low tunnels). It describes the new sprayable biodegradable mulching method, which is based on the use of waterborne polysaccharides and cellulosic fibers. A further chapter describes the research and technology of biodegradable plastics for different agricultural practices. It also includes chapters on life cycle assessment (LCA) of biodegradable plastics for agriculture, and existing and developing standards in the field. It is a valuable resource for agronomists, chemical and materials engineers, polymer technologists and scientists, as well as for a more general readership interested in the application of green chemistry principles to the vast world of crop production. Mario Malinconico is Research Director at the Institute of Polymers, Composites and Biomaterials, National Research Council, Italy. /p
The book reports progress on the development of new biodegradable polymers, composites and nanocomposites for use in such areas as drug delivery, packaging, food and agricultural technology. The world has become increasingly worried about non-degradable polymers used in our daily activities. Hence, biodegradable polymers and composites are of growing demand to replace petroleum based polymers and products. Keywords: Biopolymers, Biodegradable Polymers, Biodegradable Composites, Biodegradable Nanocomposites, Green Composites, Biodegradable Packaging, Bioplastics, Biodegradation Test Methods, Polyhydroxybutyrate, Lipids, Liposomes, Lipid Composites, Natural Fiber, Drug Delivery, Dunnage, Electronics Packaging, Horticulture, Plantable Pots.
The urgent need for sustainability within the food producing industries and agriculture has turned the interest of research to investigate new non-thermal technologies, nanotechnologies and other practices in postharvest treatment of crops and fruits. Subsequently, there is a need for a new guide covering the latest developments in this particular direction. Food Losses, Sustainable Postharvest and Food Technology provides solutions to postharvest treatment technologies. It explores modern non-thermal technologies, focusing on postharvest losses and quality of fresh-cut products. In addition, it discusses the implications for postharvest technology research, policies and practices. It also focuses on the most recent advances in the field, while it explores the potentiality and sustainability of already commercialized processes and products. Aimed at professionals working in the food industry and agriculture, it could also be utilized as a handbook for anyone dealing with sustainability issues of food production in spite of postharvest treatment. - Thoroughly explores modern non-thermal technologies in postharvest treatment - Discusses the implications for postharvest technology research, policies and practices - Analyzes the potentiality and sustainability of already commercialized processes and products
Applied Technologies for Clean Up of Environmental Contaminants covers the features of remediation and biocontrol technology, a multidisciplinary field combining environmental and industrial microbiology with biotechnology to improve environmental management. Studying the advanced microbial processes involved in geomicrobiology, aeromicrobiology, microbial loop and nutrient availability, as well as microbial energetics in the contaminated environment with an emphasis on innovative methodologies, the book provides readers with a better understanding of basic microbiology, allowing them to comprehend the mechanism and behavior of various biochemical processes that are used in bioremediation and biocontrol technologies.Including coverage of key subjects such as management of waste, energy generation, restoration processes, water treatment processes, co-metabolism, and nutrient recycling as well as emerging advances in environmental microbial biotechnology, green nanotechnology, metagenomic and proteomic strategies, DNA microarray, and biosensor-based technologies, this book provides potential implications for environmental management. - Includes microbially driven sequestration of environmental contaminants such as xenobiotics, heavy metals, petroleum-based pollutants, and other micropollutants - Overviews recent discoveries in geomicrobiology, aeromicrobiology, biocontrol, complex plant-microbe relationship, and microbial process energetics - Reviews promising ecologically benign technologies, such as waste valorization, biomining, the use of biosolids and microbial metabolites
BIODEGRADABLE MATERIALS AND THEIR APPLICATIONS Biodegradable materials have ascended in importance in recent years and this book comprehensively discusses all facets and applications in 29 chapters making it a one-stop shop. Biodegradable materials have today become more compulsory because of increased environmental concerns and the growing demand for polymeric and plastic materials. Despite our sincere efforts to recycle used plastic materials, they ultimately tend to enter the oceans, which has led to grave pollution. It is necessary, therefore, to ensure that these wastes do not produce any hazards in the future. This has made an urgency to replace the synthetic material with green material in almost all possible areas of application. Biodegradable Materials and Their Applications covers a wide range of subjects and approaches, starting with an introduction to biodegradable material applications. Chapters focus on the development of various types of biodegradable materials with their applications in electronics, medicine, packaging, thermoelectric generations, protective equipment, films/coatings, 3D printing, disposable bioplastics, agriculture, and other commercial sectors. In biomedical applications, their use in the advancement of therapeutic devices like temporary implants, tissue engineering, and drug delivery vehicles are summarized. Audience Materials scientists, environmental and sustainability engineers, and any other researchers and graduate students associated with biodegradable materials.
Microplastics: Origins, Risks, and Mitigation discusses the sources, origin, and health risk assessment of microplastics in the environment. The various contamination indices, like contamination factor, atmospheric behavior, enrichment factor, and marine pollution are also included to provide further context on the state of microplastics in the environment and environmental impacts. The book present reviews on microplastics toxicology research, health hazards, and green remedial solutions for pollution control in terrestrial and aquatic environments, aiming to provide scientists and researchers with the knowledge to combat microplastic pollutants through sustainable means. Covering a variety of approaches, techniques, and scenarios, this book is a key resource for environmental scientists working to address microplastic environmental pollutants. It presents reviews on microplastics toxicology research, health hazards, and green remedial solutions for pollution control in terrestrial and aquatic environments. - Covers microplastics contamination in the environment such as soil, water, and air - Analyzes microplastics effects on the environment, health, and environmental risk - Provides analysis on environmental treatment technology
This book promotes the development of sustainability for the assessment of biobased products, which are fundamental to the establishment of a cutting-edge sustainable bioeconomy.
This book presents the latest research on the uses of polyhydroxyalkanoates (PHA), introducing readers to these natural, biodegradable polyesters produced by microorganisms, their functions and applications. The individual chapters discuss the various potentials of these bioplastics, which offer an attractive alternative to non-biodegradable plastics. The book also describes the diverse medical and biomedical applications of PHAs, including their use as drug carriers, memory enhancers, and biocontrol agents, and examines their role in creating a more sustainable economy – which is the need of the hour.