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This book addresses a broad range of issues concerning microplastic pollution, including microplastic pollution in various environments (freshwater, marine, air and soil); the sources, fate and effects of microplastics; detection systems for microplastic pollution monitoring; green approaches for the synthesis of environmentally friendly polymers; recovery and recycling of marine plastics; wastewater treatment plants as a microplastic entrance route; nanoplastics as emerging pollutants; degradation of plastics in the marine environment; impacts of microplastics on marine life; microplastics: from marine pollution to the human food chain; mitigation of microplastic impacts and innovative solutions; sampling, extraction, purification and identification approaches for microplastics; adsorption and transport of pollutants on and in microplastics; and lastly, the socio-economic and environmental impacts: assessment and risk analysis. In addition to presenting cutting-edge information and highlighting current trends and issues, the book proposes concrete solutions to help face this significant environmental threat. It is chiefly intended for researchers and industry decision-makers; international, national and local institutions; and NGOs, providing them with comprehensive information on the origin of the problem; its effects on marine environments, with a particular focus on the Mediterranean Sea and coasts; and recent and ongoing research activities and projects aimed at finding technical solutions to mitigate the phenomenon.
This book focuses on different aspects of microplastic pollution, offering authors and readers the opportunity to share their knowledge, identify issues and propose solutions and actions to face this environmental threat. Although plastic pollution is a well-known global problem, the recent discovery of microplastics and nanoplastics in seas and oceans represents a very alarming new environmental challenge. The book offers comprehensive insights into the origins of the problem, its impact on marine environments, particularly the Mediterranean Sea and coasts, and the current research trends aimed at finding technical solutions to mitigate the phenomenon. It is primarily intended for scientists and decision makers from industry, international, national and local institutions and NGOs
Microplastic pollution is a global problem, and its severity only threatens to get worse. This book presents all of the most up-to-date research on microplastic pollution, identifies issues and proposes actions to be taken and solutions to be implemented in facing down this environmental threat. The book details a host of aspects related to microplastic pollution, including: causes and effects; the impact on different environments; the emerging threat of nanoplastics; detection systems for monitoring areas subject to pollution; the ramifications in regard to other types of pollutants; green approaches for the synthesis of environmentally-friendly polymers; and socio-economic and environmental impact assessment and risk analysis, including in regard to effects on the human food chain. The primary audience for the book are scientists and decision-makers from industries, international, national and local institutions, and NGOs. It offers comprehensive information on the origin of the problem, its impact on marine environments, with particular attention to the Mediterranean Sea and Coasts, and the current research activities and ongoing projects aimed at finding technical solutions to mitigate the phenomenon.
Discover the positive and helpful contributions made by microorganisms to various areas of human health, food preservation and production, biotechnology, industry, environmental clean up and sustainable agriculture. In Good Microbes in Medicine, Food Production, Biotechnology, Bioremediation and Agriculture, a team of distinguished researchers delivers a comprehensive and eye-opening look at the positive side of bacteria and other microbes. The book explores the important and positive roles played by microorganisms. Divided into five sections, Good Microbes examines the use of microorganisms and the microbiome in human health, food production, industrial use, bioremediation, and sustainable agriculture. Coverage spans from food allergies, skin disorders, microbial food preservation and fermentation of various beverages and food products, also from an ethnical point of view to beneficial use of microbes in biotechnology, industry, bioeconomy, environmental remediation such as resource recovery, microbial-based environmental clean-up, plant-microbe interactions in biorestauration, biological control of plant diseases, and biological nitrogen fixation. Provides basic knowledge on bacterial biology, biochemistry, genetics and genomics of beneficial microbes Includes practical discussions of microbial biotechnology, including the contribution of microbial biotechnology to sustainable development goals Features a comprehensive introduction and extensive index to facilitate the search for key terms. Perfect for scientists, researchers and anyone with an interest in beneficial microbes, Good Microbes in Medicine, Food Production, Biotechnology, Bioremediation and Agriculture is also an indispensable resource for microbiology graduate students, applied microbiologists and policy makers.
This book presents information on the origin and distribution of microplastics, evaluates the methods of their detection, documents their interactions with natural systems, and analyzes the current understanding of their management. Owing to the size, varied compositions, pathways of transport, accumulation and myriad processes of interactions with ecosystems, the microplastics pose severe threats to ecosystem services and natural environmental systems. Therefore, the environmental challenges that microplastics present and the strategies to mitigate their harmful impacts are of great importance to the scientific community, and only a few publications exist that collate this information in a single resource. The book aims to be a comprehensive resource for students, professionals and practitioners of environmental studies on microplastics and how to better understand the threats they pose and the practices to manage them.
This book offers a comprehensive review of how plastic pollution is affecting fresh and marine waters, and what the current challenges in plastic waste assessment and management in the aquatic environment are. Plastic waste comprises particles with heterogeneous physicochemical properties such as large size-range, different shapes and polymer types with various additives determining their environmental fate and risk. This complexity raises several open research questions which are explored in this book. Examples are the plastic uptake by aquatic organisms, degradation processes as well as sources and sinks in the environment. Readers will discover real case studies of plastic pollution detection and management in different parts of the world, including Asia, America and Europe, which provide an integrated overview of the global scope of this issue. This book and the companion volume Plastics in the Aquatic Environment - Part II: Stakeholders' Role Against Pollution are valuable resources to students, researchers, policymakers and environmental managers interested in plastic pollution and working towards its reduction.
This book includes the proceedings of the 3rd International Congress on Engineering and Sustainability in the XXI CEntury, INCREaSE 2023. INCREaSE is a congress with the aim to bring together valuable and novel scientific contributions that address the critical issues of renewable energy, sustainable building, sustainable manufacturing, sustainable food production and other sustainability science and engineering topics that have an impact in this diverse and fast-changing research area, both in academia and industry. This 3rd edition of INCREaSE was held during July 5-7, 2023, in Faro, Portugal, organized by the Institute of Engineering and hosted by University of Algarve. The areas to be covered were: • Big data and data analytics applied to sustainability; • Climate change and mitigation, carbon reduction; • Combined heat and power and district heating systems; • Control and optimization of renewable energy systems; • Energy and environmental assessment in buildings and cities; • Food loss and food waste solutions; • Food safety and quality engineering; • Information technology and artificial intelligence applied to sustainability; • Nanoelectronic, nanomachining, and new nanomaterials; • Smart buildings, smart cities, smart districts, smart countryside; • Sustainability in water management; • Sustainable building technologies; • Sustainable development and circular economy; • Sustainable energy generation and management; • Sustainable food processing and packaging; • Sustainable manufacturing and maintenance processes and technology; • Sustainable technologies for risk mitigations; • Sustainable transport, smart vehicles and smart roads; and • Thermo fluids modelling and experiments for sustainability. High quality and unpublished content is an essential feature for all included papers. Moreover, the Organizing Committee of the conference guarantees that contributions were subjected to an appropriate level of reviewing process.
Microbial systems have a strong potential to develop green and sustainable technologies, including sources of renewable energy, alternative fuels, and biosynthetic materials for sustainable applications. Advances in these technologies are evolving to meet growing demand and industries are adapting to green technologies such as solar panels, bioethanol, hydroponics, and more. With the aid of sophisticated technology and integration strategies, these industries are moving toward being more environmentally friendly and sustainable. This book serves as a guide to the newest technologies that will enable the implementation of microbial technologies in fostering an eco-friendly industrial and environmental landscape, which will have widely positive impacts for generations to come. Provides recent insights on diverse technologies involved in green technologies Explains the application of microbes via fungi to remediate pollutants and examines the latest treatment technologies in bioleaching and electronic waste treatment Provides updated information on bioenergy and flexible fungal materials as alternatives to plastics Discusses the application of IOT and communication electronics in the development of green technologies
Phycoremediation is an alternative method of water and wastewater remediation, which includes the use of algae for treatment, and is an environmentally friendly and sustainable technology. More conventional methods of wastewater treatment have been successful in the removal of conventional contaminants from the water; however, these techniques typically require more time and energy than phycoremediation. Phycoremediation of Wastewater: Practical Applications for Sustainability focuses on the latest developments in water remediation as well as the major challenges faced by municipalities implementing large-scale phycoremediation operations. It addresses the latest advancements in the field as well as the future applications and techniques to make water remediation processes more environmentally sustainable. It focuses on the latest developments in phycoremediation and outlines the major challenges in large-scale operation and implementation. It explores the future scope of the remediation techniques to make processes more sustainable going forward.
Microplastics and nanoplastics have been recently found in most environmental media and in living organisms, thus representing a serious health concern of yet poorly known adverse consequences. This book summarizes recent findings on the sources, behavior, transformation, toxicity and remediation of microplastics, with focus on soils, water, wastewater, air, soils, plants and corals. Advanced methods for sampling, characterization, removal and degradation of microplastics.