Rhizomicrobiome Dynamics in Bioremediation


Book Description

Intensified agrarian and industrial activity has led to earth's soil and groundwater resources becoming polluted with hazardous materials. Bioremediation delivers a green technology using dynamics of living organisms, typically bacteria, fungi, microalgae and also plants to eliminate contaminants from ecosystem. This biological know-how is not only cost-effective compared to conventional physico-chemical approaches, but also very successful and is being employed in the field. This book focuses on important issues for several critical and common environmental pollutants, resulting in a compilation having recent updates on the bioremediation applications towards green and clean environment. This volume also describes updates on various novel approaches of bioremediation including nanotechnology, rhizomicrobiome technology, composting, metagenomics, and biosurfactants-based bioremediation. This volume is a resource for researchers, environmentalists, professionals and policy makers.




Rhizomicrobiome Dynamics in Bioremediation


Book Description

Intensified agrarian and industrial activity has led to earth's soil and groundwater resources becoming polluted with hazardous materials. Bioremediation delivers a green technology using dynamics of living organisms, typically bacteria, fungi, microalgae and also plants to eliminate contaminants from ecosystem. This biological know-how is not only cost-effective compared to conventional physico-chemical approaches, but also very successful and is being employed in the field. This book focuses on important issues for several critical and common environmental pollutants, resulting in a compilation having recent updates on the bioremediation applications towards green and clean environment. This volume also describes updates on various novel approaches of bioremediation including nanotechnology, rhizomicrobiome technology, composting, metagenomics, and biosurfactants-based bioremediation. This volume is a resource for researchers, environmentalists, professionals and policy makers.







Genomics Approach to Bioremediation


Book Description

Genomics Approach to Bioremediation Provides insights into the various aspects of microbial genomics and biotechnology for environmental cleanup In recent years, the application of genomics to biodegradation and bioremediation research has led to a better understanding of the metabolic capabilities of microorganisms, their interactions with hazardous and toxic chemical compounds, and their adaptability to changing environmental conditions. Genomics Approach to Bioremediation: Principles, Tools, and Emerging Technologies provides compre­hensive and up-to-date information on cutting-edge technologies and approaches in bioremediation and biodegradation of environmental pollutants. Edited by prominent researchers in the field, this authoritative reference examines advanced genomics technologies, next-generation sequencing (NGS), and ­state-of-the-art bioinformatics tools while offering valuable insights into the unique functional attributes of different microbial communities and their impact on the removal of chemical contaminants. Each chapter includes numerous high-quality illustrations, detailed tables, extensive references, and step-by-step descriptions of various microbial metabolic pathways of degradation and biotransformation of environments containing various inorganic, metallic, organometallic, and organic hydrocarbon contaminants. Describes methodologies and underlying theory for the remediation, detoxification, and degradation of contaminated environments Covers new genomics technologies that address nutrient removal, resource recovery, and other major trends in environmental cleanup Highlights recent advances in microbial biotechnological approaches including the latest description of the relationship between microbes and the environment focusing on their impact on ecosystem services Offers perspectives on energy saving, production, sustainability, and community involvement Discusses current challenges and future directions in the field of bioremediation Genomics Approach to Bioremediation: Principles, Tools, and Emerging Technologies is an essential resource for biochemical and environmental engineers, environmental microbiologists, academic researchers, process and treatment plant managers, policymakers, and industry professionals working in the areas of microbial degradation, bioremediation, and phytoremediation.







Biotechnology in Environmental Remediation


Book Description

A timely overview of techniques for involving biological organisms in the remediation of polluted ecosystems As a result of worldwide industry, urbanization, and population growth, many harmful organic and inorganic pollutants have been introduced into the environment. With bioremediation, we can use fungi, bacteria, and plants—along with their secondary metabolites—to clean up areas that have been affected by industrial and commercial activities. Biotechnology in Environmental Remediation presents a thorough consideration of the most important biologically-based remediation methods in use today. Environmental biotechnology is a more sustainable alternative to chemical and mechanical remediation methods, which explains the rapidly growing popularity of these techniques. This edited volume summarizes our current understanding of bioremediation approaches and presents research outcomes from a diverse selection of geographies and ecosystems. Chapters cover remediation techniques for pollutants affecting soil, water, air, and sediments, as well as tools for addressing these issues, including tools for assessment and monitoring. Uniquely, Biotechnology in Environmental Remediation emphasizes the latest findings on the use of secondary metabolites in bioremediation. Other topics covered include chemical sustainability, nanotechnology, and biofuels. Readers will gain an understanding of issues including: How biological organisms and their secondary metabolites are currently being used in environmental remediation projects worldwide New applications for phytomolecules, lichens, nanoparticles, rhizobacteria, and other technologies, as well as future directions for bioremediation The steps in the process of biotechnology-driven remediation, including detection, investigation, assessment, cleanup, redevelopment, and monitoring Remediation of petroleum hydrocarbons, algal carbon sequestration, wastewater management, and the role of fatty acid and proteins in remediation The investigations in this book provide important knowledge for researchers in biotechnology, ecology, environmental science, and related disciplines. Additionally, policymakers and NGOs with an interest in remediating environmental contaminants will gain valuable context. Biotechnology in Environmental Remediation is a foundation for future research on biotechnological interventions for a clean planet.




Bio-organic Amendments for Heavy Metal Remediation


Book Description

Bio-organic Amendments for Heavy Metal Remediation: Water, soil and plant focuses on these core continuum media to explore remediation options using microbial, organic and combined approached. A volume in the Plant Biology, Sustainability and Climate Change series, this book offers a comprehensive view of techniques and approaches for addressing contamination by heavy metals.As anthropogenic activities increasingly negatively impact natural resources, there has been significant disturbance of water, soil, and plant continuum due to the accumulation of heavy metals. The bioaccumulation of heavy metals in the food chain could pose life-threatening effects on plants as well as humans, and there is need to find effective and sustainable remediation options. The application of bio-organic amendments could serve as a sustainable solution to this problem.Employing microbial, organic and combined approaches to reduce the accumulation of heavy metals in the food chain ultimately would lead to the production of safe food for humans.This book provides a comprehensive view of the challenge with a focus on the bioremediation of heavy metals contamination using ecotechnological approaches to protecting the soil, water and plant continuum. - Highlights remediation techniques/approaches for heavy metals under water, soil and plant continuums - Presents case-studies for real-world insights as well as current practices - Includes regulatory aspects for ensuring safe implementation




Phytoremediation


Book Description

The accumulation of large amounts of contaminants occurs in the environment due to industrialization and various other anthropogenic activities. Contaminants ultimately affect human health worldwide. Organic, inorganic, and radioactive substances are the prevalent forms of environmental contaminants and their complete remediation in soils and sediments is rather a difficult task. Concerns of their toxicities led to the emphasis on development of effective techniques to assess the presence and mobility of contaminants in air, water, and soil. Furthermore, the ever-increasing concentration of toxic pollutants in the environment is considered a serious threat to plant, animal, human, and environmental health. Many technologies are in use to clean and eliminate hazardous contaminants from the environment; however, these technologies can be costly, labor intensive, and often distressing to the general public. Phytoremediation is a simple, cost effective, environmentally friendly and fast-emerging new technology for eliminating toxic contaminants from different environments. Phytoremediation refers to the natural ability of certain plants and their associated microbiome (including hyper-accumulators or bio-accumulators) to remove, degrade, or render contaminants harmless. Through this technique, certain species of plants flourish by accumulating contaminants present in the environment. The unique and selective uptake capabilities of plant root and shoot systems, effective translocation, bioaccumulation, and contaminant degradation capabilities of the accumulator plants are utilized in phytoremediation techniques. Phytotechnologies involving the use of plants for contaminant removal gained importance during the last two decades and phytoremediation technology became an effective tool for environmental detoxification because of plants ability to accumulate the contaminants at very high concentrations. Phytoremediation strategies can remove, degrade, or stabilize inorganic and organic contaminants entering a multitude of ecosystems using green plants and their associated microbial communities. The development and use of phytotechnologies continues to move forward at a steady pace. Researchers recognize the potential of phytoremediation to offer a green, cost effective, eco-friendly and feasible application to address some of the world’s many environmental challenges. This book provides significant information to add to the previous volumes published on the topic and can serve as the foundation for the development of new applications that feature the integration of modern research discoveries into new methods to remediate contaminated ecosystems. Moreover, this volume brings recent and established knowledge on different aspects of phytoremediation and nano-phytoremediation, providing this information in a single source that offers a cutting-edge synthesis of scientific and experiential knowledge on polluted environments that is useful for policy makers, practitioners and scientists, and engineers. Phytoremediation: Management of Environmental Contaminants, Volume 7 highlights the various prospects that are involved in current global phytoremediation research. This book delivers a content-rich source to the reader and can act as a platform for further research studies. It should meet the needs of all researchers working in, or have an interest in this particular field.







Green Nanoremediation


Book Description

This book focuses on green nanoremediation addressing aspects related to the use of nanomaterials generated through green synthesis protocols to efficiently restore polluted environs. Nanomaterials’ characteristics such as large surface area, capacity to easily reach into contaminated sites, good reactivity, and possibility of being developed to present photocatalytic activity and/or to deal with targeted substances by chemical surface modification are useful specially to perform remediation. As an alternative to conventional physicochemical methods, the green-based synthesis protocols reject the use of harmful reagents, prevent waste production, apply renewable energy source and/or materials, and consider in first place offering the smallest negative impact possible to living beings and to the ecosystem. Green synthesis in nanotechnology field involves the use of seaweeds, bacteria, cyanobacteria, yeasts, fungi, plants (living ones, biomass, extracts) and/or bio-derived products to generate the nanomaterials. The introductory chapter will be dedicated to nanomaterials’ characteristics that enable them to be used in environmental remediation. The first part of the book will be dedicated to organic and inorganic pollution and the threats they pose to living forms; advantages, disadvantages and mechanisms of nanoremediation; comparison between conventional strategies of environmental pollution remediation and the green nanoremediation; carbon-based and non-carbon-based green nanomaterials capable of promoting environs’ remediation; cost/benefits of using nanomaterials and nanoinformatics to a safe nanotechnology. The second part will be dedicated to green nanoremediation of water and soil, microbe-based, algae-based and plant-based synthesis of nanomaterials to nanoremediation. This part will also contain chapters dedicated to relevant nanomaterials for green nanoremediation protocols, nano-phytoremediation strategies, strategies to evaluate the efficiency of protocols related to this kind of remediation, main interactions of green nanomaterials and microbes during nanoremediation and, as a consequence of it, biocompatibility of green nanomaterials. This book’s main purpose is to offer readers extensive knowledge on green nanoremediation as a feasible strategy to fight pollution's harmful consequences and clean environmental pollution, but also present the challenges that should be surpassed.