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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.
Environmental Microbiology: Advanced Research and Multidisciplinary Applications focus on the current research on microorganisms in the environment. Contributions in the volume cover several aspects of applied microbial research, basic research on microbial ecology and molecular genetics. The reader will find a collection of topics with theoretical and practical value, allowing them to connect environmental microbiology to a variety of subjects in life sciences, ecology, and environmental science topics. Advanced topics including biogeochemical cycling, microbial biosensors, bioremediation, application of microbial biofilms in bioremediation, application of microbial surfactants, microbes for mining and metallurgical operations, valorization of waste, and biodegradation of aromatic waste, microbial communication, nutrient cycling and biotransformation are also covered. The content is designed for advanced undergraduate students, graduate students, and environmental professionals, with a comprehensive and up-to-date discussion of environmental microbiology as a discipline that has greatly expanded in scope and interest over the past several decades.
Food waste is a global phenomenon that impacts the environment and society in four ways: the energy used to produce food, the food disposed of by retailers, the food wasted in the household and the energy used to dispose of food waste. The waste generated by fruits processing are primarily solid in the form of peels, stems, pits, culls and organic matter in suspension. Food waste is a bigger problem in developed countries than in developing countries. The basic principle of food waste management is ¿Reduce, Reuse, Recycle¿ which has been used to describe waste control options rather than straight disposal. There is a potential for food processing waste such as fruits and vegetables waste to be used as raw material, or can be used for the conversion by microbes into useful and higher value added products.
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