This book embodies twenty four chapters. The methodology of tools and techniques has been given due place in these chapters. Figures, illustrations and examples are presented to elucidate the topics making the subject more interesting and knowledge-rich. The book covers a wide range of topics like phyto and microbial diversity; medical microbiology; application of plant tissue culture techniques, bioinfor-matics, bioprospecting and synthetic seed technology, etc in the study of biodiversity and its management. Further, topics such as transgenics, bioremediation, waste utilization and role of single cell proteins, biopesticides, organic farming, scope of genetically modified organisms (GMOs), biotechnological approach of curbing air pollutants, air pollution biomonitoring, sericulture, pharmacognosy, characterization of biodiversity through molecular approach, etc have also been covered in this book. Biodiversity and its management have roots in cultural practices and diversity, besides traditional knowledge.
The book includes current and emerging concepts in the areas of environmental biotechnology such as pollution sources, control and measurement, solid waste management, bioremediation, biofuels, biosensors, bioleaching, conservation biotechnology and more. The book also includes recent innovations made in this field and incorporates case studies to help in understanding the concepts. This book applies principles from multidisciplinary sciences of environmental engineering, metabolic engineering, rDNA technology and omics to study the role of microbes and plants in tackling environmental issues. It also includes content related to risk assessment and environmental management systems. Each chapter provides problems and solutions of different topics with diagrammatic illustrations and tables for students, researchers and other professionals in environmental biotechnology. Explores cutting-edge technologies, including nanotechnology-based bioremediation, value-added products from waste and emerging techniques related to environmental risk assessment and monitoring Reviews the current methods being applied in the environment field for pollution control, waste management, biodegradation of organic and inorganic pollutants and so on Provides in-depth knowledge of the latest advancements in the field of environmental biotechnology such as bioleaching, biomining and advances in biotechnology-based conservation of biodiversity Introduces undergraduate and post-graduate students to basic concepts of environmental biotechnology and allied fields Discusses different products such as biofuels, biopolymers and biosensors that are being produced using biotechnological methods, thus contributing towards the goal of sustainable development Dr. Neetu Sharma is Assistant Professor in the Department of Biotechnology, GGDSD College, Chandigarh, India. The main thrust of her research centers on biotechnology, bioremediation and nanotechnology. Abhinashi Singh Sodhi is Assistant Professor in the Department of Biotechnology, GGDSD College, Chandigarh, India. His current research focuses on waste reduction, valorization and bioproduct formation. Dr. Navneet Batra is Associate Professor and Head, Department of Biotechnology, GGDSD College, Chandigarh, India. He has extensive academic and research experience of over 20 years with specialization in biotechnology and biochemical engineering.
This book provides the information on the application of nanotechnology in cleaning wastewater and the impact of microbial ecosystem to solve environmental problems has been critically reviewed in the chapters. It also gives detailed reviews about the conversion of wastewater nutrients into a biofertilizer using microalgae, as well as the applications of Biochar for heavy metal remediation from water. Most importantly, this book contains critical review on microbial fuel cells and highlights the emerging risks of bioplastics on the aquatic ecosystem.
The application of biologically-engineered solutions toenvironmental problems has become far more readily acceptable andwidely understood. However there remains some uncertainty amongstpractitioners regarding how and where the microscopic, functionallevel fits into the macroscopic, practical applications. It isprecisely this gap which the book sets out to fill. Dividing the topic into logical strands covering pollution,waste and manufacturing, the book examines the potential forbiotechnological interventions and current industrial practice,with the underpinning microbial techniques and methods described,in context, against this background. Each chapter is supported by located case studies from a rangeof industries and countries to provide readers with an overview ofthe range of applications for biotechnology. Essential reading for undergraduates and Masters studentstaking modules in Biotechnology or Pollution Control as part ofEnvironmental Science, Environmental Management or EnvironmentalBiology programmes. It is also suitable for professionals involvedwith water, waste management and pollution control.
The book aims to provide a comprehensive view of advanced environmental approaches for wastewater treatment, heavy metal removal, pesticide degradation, dye removal, waste management, microbial transformation of environmental contaminants etc. With advancements in the area of Environmental Biotechnology, researchers are looking for the new opportunities to improve quality standards and environment. Recent technologies have given impetus to the possibility of using renewable raw materials as a potential source of energy. Cost intensive and eco-friendly technology for producing high quality products and efficient ways to recycle waste to minimize environmental pollution is the need of hour. The use of bioremediation technologies through microbial communities is another viable option to remediate environmental pollutants, such as heavy metals, pesticides and dyes etc. Since physico-chemical technologies employed in the past have many potential drawbacks including higher cost, and lower sustainability. So there is need of efficient biotechnological alternatives to overcome increasing environmental pollution. Hence, there is a need for environmental friendly technologies that can reduce the pollutants causing adverse hazards on humans and surrounding environment.
Cold adaptation includes a complex range of structural and functional adaptations at the level of all cellular constituents, and these adaptations render cold-adapted organisms particularly useful for biotechnological applications. This book presents the most recent knowledge of (i) boundary conditions for microbial life in the cold, (ii) microbial diversity in various cold ecosystems, (iii) molecular cold adaptation mechanisms and (iv) the resulting biotechnological perspectives.
A deeper insight into the complex processes involved in this field, covering the biological, chemical and engineering fundamentals needed to further develop effective methodologies. The book devotes detailed chapters to each of the four main areas of environmental biotechnology -- wastewater treatment, soil treatment, solid waste treatment, and waste gas treatment -- dealing with both the microbiological and process engineering aspects. The result is the combined knowledge contained in the extremely successful volumes 11a through 11c of the "Biotechnology" series in a handy and compact form.
The present book has been designed to bind prime knowledge of climate change-induced impacts on various aspects of our environment and its biological diversity. The book also contains updated information, methods and tools for the monitoring and conservation of impacted biological diversity.
Guide to post-industrial site restoration and re-establishment of rich communities of plant species for the provision of key ecosystem services In line with the UN sustainable development goals, Biodiversity and Ecosystem Services on Post-Industrial Land is an expert guide to ecological restoration of post-industrial lands, explaining how to re-introduce biodiversity and ecosystem services by implementing natural processes in the rehabilitation of disturbed sites. It covers both the initial stages associated with the improvement of physicochemical and biological substrate characteristics as a precondition for continuous vegetation, as well as the subsequent re-establishment of rich communities of plant species and how these communities may be optimized for their biodiversity and ecosystem services such as pedogenesis, nutrient cycling, habitation for other organisms, food plants for herbivores, carbon sequestration, and aesthetic value. Case studies of successful restoration of industrial sites from Asia, Africa, North and South America, and Europe, which include coal and mineral mining sites, oil drilling sites, and dumpsites, complement the conceptual part of the text and demonstrate how to put the theory into practice. Written by an experienced researcher in the field, Biodiversity and Ecosystem Services on Post-Industrial Land includes information on: Mining sustainability in arid zones, aromatic plants for phytoremediation, and spontaneous flora growth on metalliferous sites Resilience of plant diversity, ecosystem services from rehabilitated waste dumpsites, and plantation forestry for eco-restoration Soil biodiversity and plant-microbe interactions, afforestation of former asbestos mines, and bauxite mine restoration and management Role of the local government in re-use of sites, restoration of wetlands in oil and gas exploration areas, and carbon sequestration in revegetated coal mine soil Biodiversity and Ecosystem Services on Post-Industrial Land is an essential guide for environmental managers, scientists, ecologists, and engineers tasked with restoring post-industrial sites, managers in mining, oil, gas, and other heavy industries, and NGOs involved in sustainable land use.
