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.

'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.

Health is an often-overlooked issue in the touristic development of territories. However, the recent pandemic linked to Covid-19, by bringing the tourism sector to a halt, has revealed the importance of health issues for this economic sector. This book deals with the interaction between tourism and health in all its facets and offers a complete overview of the subject, the beginnings of which date back to Antiquity. The arguments presented here are based on a back-and-forth approach between tourism studies and health sciences. Various themes are thus addressed, such as health risks, health issues for travellers linked to tourism practices, medical tourism, health mobility and the global processes that accompany it, as well as the impact of tourism development on public health in destinations. A Back and Forth Between Tourism and Health highlights the need to include the health dimension in tourism planning and invites a paradigm shift in thinking about the tourism sector.

This book presents research findings and conclusions that has been developed as algorithms or intelligent new methods solving problems in the fields of air pollution, climate and health, natural hazards and risks, water resources, human activities and management and informatics, remote sensing, high-performance computing and GIS for environmental monitoring and management. Environmental protection and disaster risk topics are challenging fields, that scientific world is trying to address as much as it can. Earthquakes, floods, fires, droughts, blizzards, dust storms, natural releases of toxic gases and liquids, diseases and other environmental variations affect hundreds of millions of people each year. Many disaster events are triggered by human activities. Dealing with these problems will require systems thinking and integrating multidisciplinary science. Actions in these directions are taken more and more in the recent years by political bodies, NGOs and scientific groups trying to find sustainable solutions for the future generations. Every point of view matter when it comes to our global home - The Planet Earth.

This book provides up-to-date information on the state of the art in applications of biotechnological and microbiological tools for protecting the environment. Written by leading international experts, it discusses potential applications of biotechnological and microbiological techniques in solid waste management, wastewater treatment, agriculture, energy and environmental health. This second volume of book "Environmental Microbiology and Biotechnology," covers two main topics: bioenergy and environmental health, exploring the latest developments from around the globe regarding applications of biotechnology and microbiology for converting wastes into valuable products and at the same time reducing the environmental pollution resulting from disposal. Wherever possible it also includes real-world examples. Further, it offers advice on which procedures should be followed to achieve satisfactory results, and provides insights that will promote the transition to the sustainable utilization of various waste products.

This book offers valuable insights into the latest concepts and findings from epidemiologic, clinical and basic studies in the burgeoning area of early-life environmental exposure and diseases. The book is divided into five parts, starting with an overview of environmental exposure measurement and evaluation, followed by a review of the effects of exposure to various substances like tobacco smoke, pesticides and metals as well as stress on offspring's health. It then discusses the developmental origins of a range of childhood diseases that affect growth, neural development and the immune system, and highlights the importance of longitudinal studies that measure exposure at potentially sensitive time points during childhood. It also provides up-to-date evidence of the intergenerational/transgenerational effects of early-life environmental exposure, especially via genetic and epigenetic pathways. Allowing readers to gain a thorough understanding of the predominating aspects of early-life environmental exposure and diseases, the book also provides a basis for developing environmental and health policies that could have wide and long-term impacts on human health.

This book presents recent developments involving the role of nanoparticles on plant physiology and growth. Nanotechnology applications include improvement of agricultural production using bio-conjugated NPs (encapsulation), transfer of DNA in plants for development of insect pest-resistant varieties, nanoformulations of agrochemicals such as pesticides and fertilizers for crop improvement, and nanosensors/nanobiosensors in crop protection for identification of diseases and residues of agrochemicals. Recent findings on the increased use of nanotechnology in agriculture by densely populated countries such as China and India indicate that this technology may impart a substantial impact on reducing hunger, malnutrition, and child mortality.

In light of the novel corona virus outbreak in December 2019 and its subsequent impact on entire world as a global pandemic, the book attempts to provide integrated risk assessment on Covid -19 like pandemics, as well as to understand the societal, environment and economic impact of the outbreak in various sectors of development. It covers fundamental factors of global disease outbreaks and its coverage as major disaster through the complexity and severity of consequences, illustrating the dimensions of low frequency high intensity disasters. It brings together broad range of topics including basic concepts, isolation measure, role of governance and key technical advancements for containing the diseases. In addition, it also covers resilience analysis towards the impacts such outbreaks have on bio-diversity, ecosystem services and agricultural food production. It defines key exit strategies from the lessons learned and success stories of historical disease outbreaks. The book is presented in four parts, where part 1 familiarizes with fundamentals; part 2 focuses on integrated risk assessments; part 3 focuses on various measures and strategies of resilience; and part 4 suggests key lessons and recommendations. The book is a useful reading reference for scientific community, policy makers and professionals across the domains of health, environment, disasters and sustainable development. Book is specifically beneficial for postgraduate students, researchers, planners and field professionals.

With our highly connected and interdependent world, the growing threat of infectious diseases and public health crisis has shed light on the requirement for global efforts to manage and combat highly pathogenic infectious diseases and other public health crisis on an unprecedented level. Such disease threats transcend borders. Reducing global threats posed by infectious disease outbreaks - whether naturally caused or resulting from a deliberate or accidental release - requires efforts that cross the disaster management pillars: mitigation, preparedness, response and recovery. This book addresses the issues of global health security along 4 themes: Emerging Threats; Mitigation, Preparedness, Response and Recovery; Exploring the Technology Landscape for Solutions; Leadership and Partnership. The authors of this volume highlight many of the challenges that confront our global security environment today. These range from politically induced disasters, to food insecurity, to zoonosis and terrorism. More optimistically, the authors also present some advances in technology that can help us combat these threats. Understanding the challenges that confront us and the tools we have to overcome them will allow us to face our future with confidence.

Air pollution is an alarming problem, not only in terms of air quality, but also in relation to health issues. Toxic air pollutant concentrations produce harmful impacts on plant health and human health. Further, though there are various sources of air pollution, anthropogenic and biogenic sources are becoming increasingly problematic. A number of control methods have been applied to reduce the air pollutant concentrations so that their global environmental burden on plants as well as humans can be mitigated. However, as confirmed in numerous reports and studies, their concentrations continue to be very high and everyday cases related to air pollution have become exponentially high not only in developing countries but also in developed countries. In plants, toxic air quality has various adverse effects, including biochemical and physiological disorders, chronic diseases and/or lower yields. In humans, air pollutants affect the body's metabolism and immune system, lungs and central nervous system. This book provides an essential overview of air pollution, its impacts on plant and human health, and potential control strategies. The respective chapters cover general monitoring and characterization techniques for air pollutants, air quality modelling applications, plant and human health effects, risk assessment, and air pollution control policy. Given its scope, the book offers a valuable and unique resource for students of Environmental Science, Biological Science, Medical Science and Agriculture; and for environmental consultants, researchers and other professionals whose work involves air quality, plant and human related research.

This volume gathers the latest advances and innovations in the field of structural health monitoring, as presented at the 8th Civil Structural Health Monitoring Workshop (CSHM-8), held on March 31-April 2, 2021. It discusses emerging challenges in civil SHM and more broadly in the fields of smart materials and intelligent systems for civil engineering applications. The contributions cover a diverse range of topics, including applications of SHM to civil structures and infrastructures, innovative sensing solutions for SHM, data-driven damage detection techniques, nonlinear systems and analysis techniques, influence of environmental and operational conditions, aging structures and infrastructures in hazardous environments, and SHM in earthquake prone regions. Selected by means of a rigorous peer-review process, they will spur novel research directions and foster future multidisciplinary collaborations.

This book systematically reviews the history of lead-free piezoelectric materials, including the latest research. It also addresses a number of important issues, such as new types of materials prepared in a multitude of sizes, structural and physical properties, and potential applications for high-performance devices. Further, it examines in detail the state of the art in lead-free piezoelectric materials, focusing on the pathways to modify different structures and achieve enhanced physical properties and new functional behavior. Lastly, it discusses the prospects for potential future developments in lead-free piezoelectric materials across disciplines and for multifunctional applications. Given its breadth of coverage, the book offers a comprehensive resource for graduate students, academic researchers, development scientists, materials producers, device designers and applications engineers who are working on or are interested in advanced lead-free piezoelectric materials.

< p=""> This monograph is based on pollution control technologies available to deal with water and air pollution. It includes removal of variety of pollutants including arsenic, chromium, uranium, pesticides and arsenic from water using adsorption technique. In addition, this book deals with the sampling and removal of microplastics using various techniques. The contents also focus on the role of membrane technology in water and wastewater treatment, and particulate matter air pollution and its control techniques. This volume will be a useful guide for researchers, academics and scientists. ^

This volume provides a unique collection of contributions addressing both the 'too much' and 'too little' sides of the nitrogen story. Building on analyses started at the 6th International Nitrogen Conference, Kampala, the book explores the idea of 'just enough nitrogen': sufficient for sustainable food production, but not so much as to lead to unsustainable pollution and climate problems. The range of nitrogen threats examined, solutions evaluated and science-policy analyses presented here has provided the foundation to agree the 'Kampala Statement-for-Action on Nitrogen in Africa and Globally,' as reported in this volume. Humanity today faces unprecedented challenges: How to feed a growing population? How to reduce air pollution, water pollution and climate change? How to handle regional differences in an era of increasing globalization? These questions are at the heart of this edited volume which examines the multi-dimensional nature of the global nitrogen challenge. While humans have massively altered the nitrogen cycle, the consequences have become polarized. Some regions have too much nitrogen, associated with pollution and wasteful use of a valuable resource, while other regions have too little nitrogen, leading to constraints on food production and depletion of soil nutrient stocks. The volume provides a unique collection of contributions addressing both the 'too much' and 'too little' sides of the nitrogen story. Building on analyses started at the 6th International Nitrogen Conference, Kampala, the book explores the idea of 'just enough nitrogen': sufficient for sustainable food production, but not so much as to lead to unsustainable pollution and climate problems. The range of nitrogen threats examined, solutions evaluated and science-policy analyses presented here has provided the foundation to agree the 'Kampala Statement-for-Action on Nitrogen in Africa and Globally,' as reported in this volume. Together, the contributions in this book are now informing actions by the International Nitrogen Initiative (INI) in working with the United Nations Environment Programme and others to establish the International Nitrogen Management System (INMS). A key outcome has been to catalyse development of the first Resolution on Sustainable Nitrogen Management, as adopted by the fourth UN Environment Assembly (UNEA/EA.4/Res.14). The work is written for researchers and policy makers and all those interested in seeing how sustainable nitrogen management can contribute to meeting many of the UN Sustainable Development Goals.

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.

This book is specifically designed to serve the community of postgraduates and researchers in the fields of epidemiology, health GIS, medical geography, and health management. It starts with the basic concepts and role of remote sensing, GIS in Kala-azar diseases. The book gives an exhaustive coverage of Satellite data, GPS, GIS, spatial and attribute data modeling, and geospatial analysis of Kala-azar diseases. It also presents the modern trends of remote sensing and GIS in health risk assessment with an illustrated discussion on its numerous applications.

This book maps extreme temperature increase under dangerous climate change scenarios in Brazil and their impacts on four key sectors: agriculture, health, biodiversity and energy. The book draws on a careful review of the literature and climate projections, including relative risk estimates. This synthesis summarizes the state-of-the-art knowledge and provides decision-makers with risk analysis tools, to be incorporated in public planning policy, in order to understand climate events which may occur and which may have significant consequences.

Hypoxia is a constant threat throughout life. International experts from many different fields, including clinicians, clinical researchers, and basic scientists, have contributed to this volume, presenting state-of-the-art information regarding normal and abnormal (pathophysiological) responses to hypoxia. The topics covered include visitors to high altitude, the latest developments on high-altitude cerebral and pulmonary edema, the brain in hypoxia, high-altitude headache, and similarities between ischemic and hypoxic injury to the brain. In addition topics are covered such as blood-brain barrier in hypoxia, hypoxia interactions with vascular growth, and how humans adjust to extreme hypoxia.

This book focuses on probiotics and gut microbiota, as well as their roles in alleviating the toxicity of various environmental pollutants, presenting the latest research findings and explaining advanced research methods and tools. At the same time, it offers suggestions for future research directions. Further, the book introduces readers to the concept of gut remediation, a potential approach to reducing environmental-pollutant toxicity in vivo, based on modulation of gut microbiota using probiotic supplements. Lastly it provides suggestions for further reading.

Eating locally and developing an urban-rural food continuum is a rapidly evolving movement. Integration of multi-functional forms of agriculture - termed New Forms of Urban Agriculture (NFUA) - could be a critical adaptation to strengthen this movement and for the sustainability of cities. While NFUA have the potential to provide diverse benefits to humans, there is an absence of reliable empirical data on the scale and impact of urban resources on NFUA which has a profound impact on its viability and sustainability. In this book, we shift the focus from how NFUA have potential to impact the urban system to investigate the potential impacts of urban resources on NFUA. Access to resources such as land, labour, clean water, etc. are major barriers to enter the agriculture sector in the cities; the chapters in this book present projects or reviews recent research on the subject from different cities in the world. This edited volume offers critical perspectives from diverse disciplines, expertise, and geographic contexts related to the actual and potential role of urban and peri-urban agriculture in the developing and the developed world where forms, adaptations, and debates around NFUA vary distinctively. Using and urban ecology lens, the book provides empirical evidence of how urban resources of land, water/waste, labour, and biodiversity impact NFUA.

This book presents a comprehensive study of the environmental situation prevailing in the areas located near the Koshkar-Ata (Kazakhstan) tailings dump and the development of rehabilitation measures taking into account the area's soil and climatic features. Given their impact on the local population's health, rehabilitation activities and their monitoring are vital for countries where nuclear power technologies are developed and where uranium mining industry wastes exist. Book analyzes the negative influences of the tailings on soil and vegetation cover on near-ground atmospheric layers and groundwater. Based on radiometric, field and laboratory analytical research methods, it presents quantitative information on the levels of pollution of the environment by radionuclides and chemical toxicants, and includes the results of constant monitoring of dust from radioactive and toxic wastes in the area. The book also offers recommendations for technical solutions for reclaiming radioactive tailing ponds, as well as for the development of disposal sites for radioactive waste in the tailing ponds, based on effective rehabilitation technologies developed at two control sites. The study attracted considerable interest from the Republic of Kazakhstan's state authorities and public organizations, and raised awareness of the need for rehabilitation measures at the KOSHKAR-ATA tailing pond. The monograph is intended for specialists in the field of environmental protection and radiation ecology, as well as senior undergraduate and graduate students, doctoral students and young scientists. This publication is recommended by the Academic Council of the L.N. Gumilyov Eurasian National University.

In the marine environment, single-celled, microscopic, plant-like organisms naturally occur in the well-lit surface layer of any body of water. These organisms, referred to as phytoplankton or microalgae, form the base of the food web upon which nearly all other marine organisms depend. Algal bloom is a rapid increase in or accumulation of the population of about 300 species of algae due to excess nutrients (eutrophication), and is of major global interest as it causes reduction in species diversity, abrupt changes in water quality, and discoloration of the water (green, yellow, brown or red) depending on the species of algae and the type of pigments they contain. Dying blooms can also be an environmental concern as when the cells sink and decay, bacteria break down the organic material, which in turn strips oxygen from the water. This microbial oxygen demand at times leads to very low oxygen levels in the bottom waters, harming aquatic life. Documentation of this sporadic high abundance of algae, together with the significant species richness of the diatoms, requires comprehensive studies in the Sundarban coastal environment, which is facing severe degradation due to natural & anthropogenic stressors. In addition, a better understanding of the effects of algal blooms on seafood quality, the complex biological, chemical and physical interactions and subsequent effects on trophodynamics is needed to develop strategies for effective coastal zone management. The book discusses the occurrence of harmful algal blooms (HABs) caused by the dinoflagellates of the genus Alexandrium and Karenia, or diatoms of the genus Pseudo-nitzschia, which have large and varied impacts on marine ecosystems (such as large-scale marine mortality events that have been associated with various types of shellfish poisonings) depending on the species involved, the environment where they are found, and the mechanism by which they exert negative effects. HABs represent a major environmental problem in all regions of the U.S., and their occurrence is on the rise due to increased nutrient pollution. HABs have severe impacts on human health, aquatic ecosystems, and the economy. Such blooms, known colloquially as red tides due to their red or brown hues, are increasing in frequency and magnitude worldwide as a result of changes in oceanic climate, increased coastal eutrophication and enhanced long-distance dispersal in ballast water. As such, the book offers an in-depth account of the complex biological, chemical and physical interactions of the algal blooms (both innocuous and harmful ones). It also discusses the highly topical issue of the impact of global climate change on the frequency and severity of HABs in the context of alterations in temperature, stratification, light and ocean acidification. Focusing on both basic and applied limnology, this book is a reliable and up-to-date reference resource for students, teachers and researchers engaged in the field of coastal research/management at regional and global scales.

Human demand for energy has grown multi-folds in recent years. This is the result of rapidly increasing human population, which, in turn, has resulted in increased organic (petroleum) and inorganic pollution on the biosphere. Due to this, we are now facing a number of challenges to sustain life on earth. For example, the increased organic and inorganic pollution in our environment is leading to loss of biodiversity, degradation of environment and thus ultimately causing food insecurity. In this situation, it is imperative to keep updated ourselves with advances on the effects of pollutants, tolerance mechanisms and the potential of different plants and microbes in removing these pollutants from the environment. For this purpose, we invited a number of scientists worldwide to review the current scenario of the problems, current development, and future prospects of the challenges and their solutions in an International Conference on ''Plants and Environmental Pollution'' held in KAYSERI, TURKEY from 6-11 July 2009. The output of this conference has been summarized in the form of this book.

This book discusses the natural and anthropogenic determinants of the environment and their impact on human health. It throws light on the perspectives of climate change with case studies from Australia, India, Italy, and Latin America. Themes covered are ecology of antibiotic resistant microorganisms, pesticide and heavy metal (arsenic) problems in natural environment; molecular advances in understanding of microbial interactions; ecological studies of human/animal health and diseases; food security, technological developments and more. The various chapters incorporate both theoretical and applied aspects and may serve as baseline information for future research through which significant development is possible.