'Addictive and illuminating' Dr Saliha Mahmood Ahmed From a world-leading microbiome scientist and surgeon with over two decades of experience comes Dark Matter - the definitive book on the science of the microbiome and how unlocking its potential can protect our health, our immunity and our planet. Why are we living longer, but not happier? The microbiome - our inner ecosystem of viruses, bacteria and other microbes - is critically important to our health and wellbeing. It is given to us by our mothers at birth, adapts with us as we age, influences our moods, determines how fast we run and even who we choose as a partner. Yet it is only now, as we are beginning to discover the microbiome's enormous potential, that we are realising it is in grave danger, being irrevocably destroyed through the globalisation of our diets, the war on bugs and the industrialised world. But we can look to reverse this damage. Drawing on cutting-edge research and years of clinical experience, Kinross shows how to unpack the microbiome's secrets, explaining that if we work with, not against, our microbes, we can live better, healthier lives.

A revised and updated edition of the landmark work the New York Times hailed as "a call to action for every developer, building owner, shareholder, chief executive, manager, teacher, worker and parent to start demanding healthy buildings with cleaner indoor air." For too long we've designed buildings that haven't focused on the people inside-their health, their ability to work effectively, and what that means for the bottom line. An authoritative introduction to a movement whose vital importance is now all too clear, Healthy Buildings breaks down the science and makes a compelling business case for creating healthier offices, schools, and homes. As the COVID-19 crisis brought into sharp focus, indoor spaces can make you sick-or keep you healthy. Fortunately, we now have the know-how and technology to keep people safe indoors. But there is more to securing your office, school, or home than wiping down surfaces. Levels of carbon dioxide, particulates, humidity, pollution, and a toxic soup of volatile organic compounds from everyday products can influence our health in ways people aren't always aware of. This landmark book, revised and updated with the latest research since the COVID-19 pandemic, lays out a compelling case for more environmentally friendly and less toxic offices, schools, and homes. It features a concise explanation of disease transmission indoors, and provides tips for making buildings the first line of defense. Joe Allen and John Macomber dispel the myth that we can't have both energy-efficient buildings and good indoor air quality. We can-and must-have both. At the center of the great convergence of green, smart, and safe buildings, healthy buildings are vital to the push for more sustainable urbanization that will shape our future.

An urgent investigation into the brave new world of the microbiome and how it shapes our lives and health. The microbiome is the missing link in modern medicine: a vast genetic universe of bacteria, yeasts, viruses and parasites that live inside us, influencing every aspect of our health, even the way we think and feel. In this mindblowing book, scientist and surgeon James Kinross explains how the organisms that live within us have helped us evolve, shaped our biology and defined the success of our species. But just as we have discovered this delicate and complex ecosystem within us, it is being irrevocably destroyed through the globalisation of our diets and lifestyles, our addiction to antibiotics, and the destruction of our environment. With dazzling science and fascinating stories spanning from the dawn of humankind to the current race to develop personalised healthcare, and practical advice on how to nurture your microbiome through your diet and lifestyle, this pioneering book will change the way you think about human health forever.

Advances in Energy, Environment and Chemical Engineering collects papers resulting from the conference on Energy, Environment and Chemical Engineering (AEECE 2022), Dali, China, 24-26 June, 2022. The primary goal is to promote research and developmental activities in energy technology, environment engineering and chemical engineering. Moreover, it aims to promote scientific information interchange between scholars from the top universities, business associations, research centers and high-tech enterprises working all around the world. The conference conducts in-depth exchanges and discussions on relevant topics such as energy engineering, environment technology and advanced chemical technology, aiming to provide an academic and technical communication platform for scholars and engineers engaged in scientific research and engineering practice in the field of saving technologies, environmental chemistry, clean production and so on. By sharing the research status of scientific research achievements and cutting-edge technologies, it helps scholars and engineers all over the world comprehend the academic development trend and broaden research ideas. So as to strengthen international academic research, academic topics exchange and discussion, and promote the industrialization cooperation of academic achievements.

Learn how to reduce the impact of environmental toxins on brain development, functioning, and health. The human brain is a marvelously complex organ that has evolved great new capabilities over the past 250,000 years. During most of that period, daily life was vastly different from our lives today. Exercise was not optional - one literally had to run for one's life, livelihood, and sustenance. The Stone Age diet was not a fad, but the only food available. Periods of fasting arose from food scarcity, and hence the earliest keto-diet was commonplace. Life changed greatly with the advent of agriculture and industry. Diseases that were previously unknown or uncommon began to surface as by-products of civilization's advance. Changes in our ways of living have altered the nature of illness as well as its diagnosis and treatment. From the 1970s to the present, tens of thousands of chemicals with applications in all aspects of our lives have grown more than 40-fold. Exposure to these new substances has impacted many aspects of our health, especially the delicate parts of the brain and nervous system. In parallel with the changes in our environment, we have seen the growth of brain disorders including Alzheimer's Disease and autism in previously unimaginable ways. Here, Arnold Eiser elucidates some features of diseases affecting the nervous system that are increasing in incidence with a focus on those disorders that appear related to environmental toxins that modern life has introduced. He takes readers behind the scenes of the science itself to discover the human stories involved in the discovery and management of these illnesses. Offering insights from a variety of scientific disciplines, Eiser clearly and succinctly illustrates the impact of toxins on our brains and how we might better protect ourselves from negative outcomes. With interviews from leading authorities in the field of neuroscience, environmental toxicology, integrative medicine, neurology, immunology, geriatrics, and microbiology (re the gut microbiome), this book offers a robust understanding of the complex threats to our brains, and the healthy brain's dependence upon many other systems within our bodies. This is a voyage of discovery into the science, history, and human struggle regarding disorders challenging the brain as well as their possible prevention.

Reports on waste valorization in the winemaking industry and converting the waste into more useful products including oils, antioxidants and other valuable materials. Explores research which contributes to environmental sustainability and circular economy in the winemaking industry. Describes other ways to reduce the ecological footprint of the wine industry such as using less fertilizer, more benign pesticides and reduction of water footprint. Proposes options for a potential wine waste biorefining. Reviews alternative uses of agro-industrial wine wastes as sources of additives for the food, cosmetic and pharmaceutical industries.

One of the fundamental principles of green chemistry is to design chemical products that minimize adverse consequences to human health and the environment. While chemists have been designing molecules for 200 years to have a limitless range of commercial applications, little or no attention has been given to developing commercial chemicals while avoiding hazards and toxicity. This book is the first to provide chemists with useful, practical guidance on how to minimize or avoid a wide range of hazards. Building on the insights gained from the pharmaceutical industry over the past 25 years on how to create desirable biological effects, the authors demonstrate how to avoid undesirable biological effects by design.

Adds three new chapters (constructed wetlands, stream sediments, and rice production systems) and is updated throughout Examines the adaptation of wetland plants to varying anaerobic soil conditions Provides the basic concepts involved in biogeochemical cycling of nutrients and contaminants in wetlands as related to environmental significance and ecological functions Examines the role of microbial processes in sulfate reduction, denitrification, and methane production Provides case studies for key biogeochemical processes governing wetland function in freshwater wetlands

Every person on our home planet is affected by a worldwide deluge of man-made chemicals and pollutants - most of which have never been tested for safety. Our chemical emissions are six times larger than our total greenhouse gas emissions. They are in our food, our water, the air we breathe, our homes and workplaces, the things we use each day. This universal poisoning affects our minds, our bodies, our genes, our grandkids, and all life on Earth. Julian Cribb describes the full scale of the chemical catastrophe we have unleashed. He proposes a new Human Right - not to be poisoned. He maps an empowering and hopeful way forward: to rid our planet of these toxins and return Earth to the clean, healthy condition which our forebears enjoyed, and our grandchildren should too.

Presenting a collection of papers resulting from the conference on "Applied Chemistry and Industrial Catalysis (ACIC 2021), Qingdao, China, 24-26 December 2021". The theme of the conference was: "Clean Production and High Value Utilization", discussing how to reduce the environmental footprint at the source and produce high value-added end products in chemical manufacturing. The conference brought together scholars from the Chinese government, top universities, business associations, research centers and high-tech enterprises, and was committed to building and enabling a platform for the cooperation among the Chinese government, Chemical industry, and scholars. The goal was to build a bridge between R&D results and the Chemical industry. The conference conducted in-depth exchanges and discussions on relevant topics such as applied chemistry and industrial catalysis aiming to provide an academic and technical communication platform for scholars and engineers engaged in scientific research and engineering practice in the field of chemistry, catalysis and function material. By sharing the research status of scientific research achievements and cutting-edge technologies, it helps scholars and engineers all over the world comprehend the academic development trend and broaden research ideas. So as to strengthen international academic research, academic topics exchange and discussion, and promote the industrialization cooperation of academic achievements.

Laboratory Experiments in Trace Environmental Quantitative Analysis is a collection of student-tested experiments that introduce important principles that underlie various laboratory techniques in the field of trace environmental organics and inorganics quantitative analysis. It crosses the more traditional academic disciplines of environmental science and analytical chemistry. The text is organized to begin with minimally rigorous session/experiments and increase in rigor as each session/experiment unfolds. Each experiment features learning objectives, expected student outcomes, and suggestions for further study. Additional features include: Students are introduced to the principles and laboratory practice of instrumental analysis (determinative techniques) that are clearly presented. Students are carefully taken through various ways to prepare samples for trace quantitative analysis (sample prep techniques). Safety warnings are listed within each experiment. Students are introduced to all three types of instrument calibration: external, internal and standard addition. Instructors who are responsible for laboratory courses in analytical chemistry with potential application to environmental sample matrices will find this textbook of value. Graduate programs in environmental science and engineering will also greatly benefit from the content.

1. Gives an in-depth account of the extraordinary optical property at the nanoscale and its use in sensing. 2. Useful for academia, researchers and engineers working in water treatment and purification. 3. Provides sensing application of thematic nanomaterials like quantum dots and core-shell.

Coordination compounds have been well-known for their wide variety of applications for over a century, as well as enhancing the researcher's interest and concern in evaluating their action mechanism. It is certainly one of the most intensely discussed research topics. Coordination compounds involve different metal-ion-ligand phenomenon. The involved metal ions play a significant role in structural association and functioning of several processes in the genetic and metabolism system. In recent years, Schiff base ligands have gained significant interest and received a keen interest of many researchers. Schiff's base ligands have been recognized to hold a wide variety of biological and medicinal activities due to the presence of donor atoms. They have proved exceptional pharmalogical actions such as antimicrobial, anti-tuberclosis, antiplatelet, antidiabetic, antiarthritis, antioxidant, anti-inflammatory, anticancer, antiviral, antimalarial, and analgesic. These biologically active Schiff base ligands have also been shown to inhibit enzyme mobilization and, when bound to a metal ion, exhibit enhanced biological activity, making them useful in a number of fields. As a result, metal complexes of Schiff base ligands are gaining popularity due to their unique properties and functionalities. Schiff base complex-based research for educational and industrial purposes is booming, and the number of publications is gradually increasing. Despite these interests, there is currently no detailed book on Schiff base metal complexes that covers the structures, biological activities, and other non-biological perspectives. This book delves into the structures of Schiff base metal complexes, which are critical in assessing the biological viability of any complex. It also highlights their biological significance in pharma and drug discovery like antibacterial, antifungal, anticancer, anti-inflammatory, anti-arthritis, anti-diabetic, antioxidants, anti-proliferative, antitumor, anticancer, antiviral. The fundamentals of metal complexes are described, as well as an up-to-date outline of developments in synthesis, characterization methods, properties- chemical, thermal, optical, structural, and applications. This book also discusses the other applications of Schiff base metal complexes: as sensor (luminescent, electrochemical, and biosensor), as pigments in dying and paint industries, as photocatalyst to improve the degradation rate. Features : This book would be useful for academia, researchers and engineers working in the area of Schiff base and their metal complexes. This book will give an in-depth account of the properties of Schiff base and their metal complexes. This book will discuss the details of synthesis methods for Schiff base and their metal complexes. This book will cover emerging trends in the use of Schiff base metal complexes in the industry. This book will provide an overview of the wider biological applications of Schiff base metal complexes

Presents current research in AOP techniques along with hybrid technologies Covers latest advances in technological know-how for remediation of wastewater soiled with micropollutants Discusses pressing environmental pollution issues associated with AOPs needed for wastewater remediation Presents future perspective as well as techno-economic analysis in implementing various AOPs Reviews strategies to limit the micropollutants in water bodies

Reports on waste valorization in the winemaking industry and converting the waste into more useful products including oils, antioxidants and other valuable materials. Explores research which contributes to environmental sustainability and circular economy in the winemaking industry. Describes other ways to reduce the ecological footprint of the wine industry such as using less fertilizer, more benign pesticides and reduction of water footprint. Proposes options for a potential wine waste biorefining. Reviews alternative uses of agro-industrial wine wastes as sources of additives for the food, cosmetic and pharmaceutical industries.

Designed for undergraduate and graduate students interested in learning basic soil physics and its application to environment, soil health, water quality and productivity, this book provides readers with a clear coverage of the basic principles of water and solute transport through vadose zone, the theory behind transport and step-by-step guidance on how to use current computer models in the public domain along with soil erosion and contaminant remediation. Students will develop a deeper understanding of the fundamental processes within the soil profile that control water infiltration, redistribution, evapotranspiration, drainage, and erosion. The updated second edition features two new chapters, highlighting new problems, new computer models, and remediation. Features Serves as the most up-to-date textbook on soil physics available. Includes two new chapters and many new numerical examples. Offers mathematical descriptions supported by simplified explanations. Provides case studies and step-by-step guidance on how to use public domain computer models. Covers all principles and processes in an easy-to-understand format with numerous illustrations and sample problems. Students studying in the fields of Soil Science, Environment Science, Natural Resources, Agriculture Engineering, Civil Engineering, Environmental Engineering, Range Sciences, Horticulture, Crop Sciences, and Forestry, will find this book provides a solid foundation for their studies. Professionals, researchers, academicians, and companies working in fields related to Environmental Science, Soil Physics, Hydrology, and irrigation, will find this book is a great reference tool as it is the most up to date in its field.

In 1976, areas of the great mountain regions remained unknown and acute mountain sickness was a medical mystery waiting to be explored. Into this arena stepped the Birmingham Medical Research Expeditionary Society. It was formed by a group of young doctors at the Queen Elizabeth Hospital, Birmingham, and its members were looking for excitement. They were inquisitive, energetic and fearless. Having gathered ideas and borrowed some medical equipment, they took a plane to Kathmandu. From there they trekked to the north side of Annapurna, exploring and testing the effects of low oxygen levels on their bodies and minds. there has been a further twelve expeditions since, all investigating the effects of low oxygen on the human body. This book is a recollection of those expeditions.

Aquatic Chemistry Concepts, Second Edition, is a fully revised and updated textbook that fills the need for a comprehensive treatment of aquatic chemistry and covers the many complicated equations and principles of aquatic chemistry. It presents the established science of equilibrium water chemistry using the uniquely recognizable, step-by-step Pankow format, which allows a broad and deep understanding of aquatic chemistry. The text is appropriate for a wide audience, including undergraduate and graduate students, industry professionals, consultants, and regulators. Every professional using water chemistry will want this text within close reach, and students and professionals alike will expect to find at least one copy on their library shelves. Key Features Extremely thorough, one-of-a-kind treatment of aquatic chemistry which considers: a) chemical thermodynamics fundamentals; b) acid/base, titration, and buffer calculations; c) CO2 chemistry and alkalinity; d) complexation of metal ions by ligands and chelates; e) mineral solubility processes; f) redox chemistry, including the chemistry of chlorine (as in disinfection), oxygen, CO2 and methane, nitrogen, sulfur, iron, and lead, including the story of lead in the drinking water of Flint, Michigan; and g) electrical effects in aqueous solutions including the Debye-Huckel Law (and related equations for activity corrections), double layers, and colloid stability Discussions of how to carry out complex calculations regarding the chemistry of lakes, rivers, groundwater, and seawater Numerous example problems worked in complete detail Special foreword by Jerry L. Schnoor 'There's a lot to like about a book on water chemistry that lays it out simply. Einstein said that everything should be as simple as it can be, but not simpler. Wise advice. And that is what James F. Pankow has accomplished in the second edition of his textbook, Aquatic Chemistry Concepts. It covers the "waterfront" of essential inorganic chemistry topics, and it supplies enough examples to lead the student toward problem solving.' -From the Foreword, Jerry L. Schnoor

Agriculture is one of the oldest and most global human enterprises, and as the world struggles with sustainable practices and policies, agricultural chemistry has a clear role to play. This book highlights the ways in which science in agriculture is helping to achieve global sustainability in the 21st century, and demonstrates that this science can and should be a leading contributor in discussion on environmental science and chemistry. The four drivers of this subject are presented, those being economic, environmental, regulatory and scientific, and help showcase agricultural chemistry as a dynamic subject that is contributing to this necessity of global sustainability in the 21st century.

Taking an interdisciplinary approach, this new volume brings together innovative research, new concepts, and novel developments in the application of new tools in green chemistry and sustainable technology. The diverse coverage includes chapters on ionic liquids as green solvents, an environmentally friendly approach to the synthesis and biological evaluation of -aminophosphonate derivatives, the application of nanotechnology in biological sciences and green chemistry, eco-friendly polymers, the effect of global warming and greenhouse gases on environmental system, and more.

Contains papers presented at the Third International Symposium on Computer Methods in Biomechanics and Biomedical Engineering (1997), which provide evidence that computer-based models, and in particular numerical methods, are becoming essential tools for the solution of many problems encountered in the field of biomedical engineering. The range of subject areas presented include the modeling of hip and knee joint replacements, assessment of fatigue damage in cemented hip prostheses, nonlinear analysis of hard and soft tissue, methods for the simulation of bone adaptation, bone reconstruction using implants, and computational techniques to model human impact. Computer Methods in Biomechanics and Biomedical Engineering also details the application of numerical techniques applied to orthodontic treatment together with introducing new methods for modeling and assessing the behavior of dental implants, adhesives, and restorations.
For more information, visit the "http: //www.uwcm.ac.uk/biorome/international symposium on Computer Methods in Biomechanics and Biomedical Engineering/home page, or "http: //www.gbhap.com/Computer_Methods_Biomechanic s_Biome dical_Engineering/" the home page for the journal.

• Explores novel membrane materials and systems from preparation methods, materials selection, and their application in monitoring, fouling control, and performance enhancement. • Examines the mechanism of fouling prevention and cleaning in various electrically conductive materials. • Evaluates the scalability of antifouling materials and coatings, as well as electrically enhanced processes for monitoring and control in membrane separation technology • Assesses advantages and limitations of applying electrically conductive membrane systems to fouling control for specific water treatment applications. • Provides a critical review of scientific literature in the specialized area of electrical conductive materials and systems for membrane technology.

Surfactants are often completely invisible to us and yet they are present in almost every chemical that we use in our daily life. They are found in toothpastes, cosmetics, sunscreens, mayonnaise, detergents, and an array of cleaning products. Traditional surfactants are known to have adverse environmental impacts spurring research into eco-friendly and cost-effective surfactants from renewable resources. Surfactants from Renewable Raw Materials examines the class of surfactants synthesized using plant-based raw materials detailing their properties, applications, bioavailability, and biodegradability. The concluding chapter reviews patent activity over the last decade. Additional features include: Addresses the tremendous variation found in the raw materials used to synthesize commercially available surfactants. Explores the selection of raw materials based upon the desired hydrophobic group or hydrophilic group to be incorporated into the product. Examines the characteristics and medicinal applications of pulmonary surfactants in preterm babies as well as their probable contribution in COVID-19 Discusses the biodegradability of surfactants to assist with the determination of truly green surfactants. This comprehensive reference will prove indispensable for professional and academic researchers creating or working with bio-based surfactants.

The volumes that comprise Chemical Sensitivity are the first major scientific books to be published on chemical sensitivity, a growing world-wide health problem. These volumes present clinical experiences in diagnosing and treating chemical sensitivity in over 20,000 patients under controlled conditions.

Presents recent developments in sustainable materials from various engineering fields and industry applications. Emphasizes analytical strategies, computational, and simulation approaches develop innovative sustainable materials. Discusses an artificial intelligence approach, rapid prototyping, and customized production. Chapters are written by global experts. Includes case studies and research outcomes.