The environment is considered the surroundings in which an organism operates, including air, water, land, natural resources, flora, fauna, humans and their interrelation. It is this environment which is both so valuable, on the one hand, and so endangered on the other. And it is people which are by and large ruining the environment both for themselves and for all other organisms. This book reviews the latest research in this field which is vital for everyone.
This book presents the latest findings and ongoing research in the field of green information systems as well as green information and communication technology (ICT). It provides insights into a whole range of cross-cutting concerns in ICT and environmental sciences and showcases how information and communication technologies allow environmental and energy efficiency issues to be handled effectively. Offering a selection of extended and reworked contributions to the 30th International Conference EnviroInfo 2016, it is essential reading for anyone wanting to extend their expertise in the area.
The integrity of knowledge that emerges from research is based on individual and collective adherence to core values of objectivity, honesty, openness, fairness, accountability, and stewardship. Integrity in science means that the organizations in which research is conducted encourage those involved to exemplify these values in every step of the research process. Understanding the dynamics that support â€" or distort â€" practices that uphold the integrity of research by all participants ensures that the research enterprise advances knowledge. The 1992 report Responsible Science: Ensuring the Integrity of the Research Process evaluated issues related to scientific responsibility and the conduct of research. It provided a valuable service in describing and analyzing a very complicated set of issues, and has served as a crucial basis for thinking about research integrity for more than two decades. However, as experience has accumulated with various forms of research misconduct, detrimental research practices, and other forms of misconduct, as subsequent empirical research has revealed more about the nature of scientific misconduct, and because technological and social changes have altered the environment in which science is conducted, it is clear that the framework established more than two decades ago needs to be updated. Responsible Science served as a valuable benchmark to set the context for this most recent analysis and to help guide the committee's thought process. Fostering Integrity in Research identifies best practices in research and recommends practical options for discouraging and addressing research misconduct and detrimental research practices.
This handbook provides a comprehensive review of communication around rising global environmental challenges and public action to manage them now and into the future. Bringing together theoretical, methodological, and practical chapters, this book presents a unique opportunity for environmental communication scholars to critically reflect on the past, examine present trends, and start envisioning exciting new methodologies, theories, and areas of research. Chapters feature authors from a wide range of countries to critically review the genesis and evolution of environmental communication research and thus analyze current issues in the field from a truly international perspective, incorporating diverse epistemological perspectives, exciting new methodologies, and interdisciplinary theoretical frameworks. The handbook seeks to challenge existing dominant perspectives of environmental communication from and about populations in the Global South and disenfranchised populations in the Global North. The Handbook of International Trends in Environmental Communication is ideal for scholars and advanced students of communication, sustainability, strategic communication, media, environmental studies, and politics.
The need to understand and quantify change is fundamental throughout the environmental sciences. This might involve describing past variation, understanding the mechanisms underlying observed changes, making projections of possible future change, or monitoring the effect of intervening in some environmental system. This book provides an overview of modern statistical techniques that may be relevant in problems of this nature. Practitioners studying environmental change will be familiar with many classical statistical procedures for the detection and estimation of trends. However, the ever increasing capacity to collect and process vast amounts of environmental information has led to growing awareness that such procedures are limited in the insights that they can deliver. At the same time, significant developments in statistical methodology have often been widely dispersed in the statistical literature and have therefore received limited exposure in the environmental science community. This book aims to provide a thorough but accessible review of these developments. It is split into two parts: the first provides an introduction to this area and the second part presents a collection of case studies illustrating the practical application of modern statistical approaches to the analysis of trends in real studies. Key Features: Presents a thorough introduction to the practical application and methodology of trend analysis in environmental science. Explores non-parametric estimation and testing as well as parametric techniques. Methods are illustrated using case studies from a variety of environmental application areas. Looks at trends in all aspects of a process including mean, percentiles and extremes. Supported by an accompanying website featuring datasets and R code. The book is designed to be accessible to readers with some basic statistical training, but also contains sufficient detail to serve as a reference for practising statisticians. It will therefore be of use to postgraduate students and researchers both in the environmental sciences and in statistics.
There is a growing global concern about rapidly changing environmental conditions, which is, in turn, linked closely with human health. This book focuses on environmental health issues, scientific understanding of causes, and promising future approaches to control the foremost environmental problems in developed and developing countries. This book emphasizes on the broad spectrum of information resources required in the field of environmental health and provides a detailed review of manenvironmenthealth interrelationships and a basic background for scientists working in the area of environmental health. It offers an overview of the methodology and paradigms of the inter-related, dynamic, evolving fields, ranging from ecology to epidemiology and from environmental health to toxicology. The main features of the book are an evaluation of environmental parameters (such as air quality, water quality, environmental emission) in the perspective of human health deterioration and an improvement of awareness on public health status as a component of human welfare. The chapters include the response of human body to environmental pollutants and also encompass the effects of different environmental factors: physical, chemical, and biological agents of environmental contamination; vectors for dissemination (air, water, soil); solid and hazardous waste, and susceptible populations; bio-markers and risk analysis; the scientific basis for policy decision; occupational health and safety issues; emerging global environmental problems like dissemination of antibiotics in environment and other important areas such as metagenomics application for environmental health. This book is a fundamental text for policy- makers requiring a scientific explanation, for the development of innovative environmental regulations and exposure reduction strategies, scientists researching public health and environmental contamination, and members of the community concerned in human health issues.
Pollution has been a developing problem for quite some time in the modern world, and it is no secret how these chemicals negatively affect the environment. With these contaminants penetrating the earth’s water supply, affecting weather patterns, and threatening human health, it is critical to study the interaction between commercially produced chemicals and the overall ecosystem. Understanding the nature of these pollutants, the extent in which they are harmful to humans, and quantifying the total risks are a necessity in protecting the future of our world. The Handbook of Research on Emerging Developments and Environmental Impacts of Ecological Chemistry is an essential reference source that discusses the process of chemical contributions and their behavior within the environment. Featuring research on topics such as organic pollution, biochemical technology, and food quality assurance, this book is ideally designed for environmental professionals, researchers, scientists, graduate students, academicians, and policymakers seeking coverage on the main concerns, approaches, and solutions of ecological chemistry in the environment.
This book is an outcome of the 34th International Conference EnviroInfo 2020, hosted virtually in Nicosia, Cyprus by the Research Centre on Interactive Media, Smart Systems and Emerging Technologies (RISE). It presents a selection of papers that describe innovative scientific approaches and ongoing research in environmental informatics and the emerging field of environmental sustainability, promoted and facilitated by the use of information and communication technologies (ICT). The respective articles cover a broad range of scientific aspects including advances in core environmental informatics-related technologies such as earth observation, environmental modelling, big data and machine learning, robotics, smart agriculture and food solutions, renewable energy-based solutions, optimization of infrastructures, sustainable industrial processes, and citizen science, as well as applications of ICT solutions intended to support societal transformation processes toward the more sustainable management of resource use, transportation and energy supplies. Given its scope, the book is essential reading for scientists, experts and students in these fields of research. Chapter “Developing a Configuration System for a Simulation Game in the Domain of Urban CO2 Emissions Reduction” is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.
This timely collection surveys and critiques studies of environmental and sustainability education (ESE) policy since the mid-1990s. The volume draws on a wide range of policy studies and syntheses to provide readers with insights into the international genealogy and priorities of ESE policy. Editors and contributors call for renewed attention to the possibilities for future directions in light of previously published work and innovations in scholarship. They also offer critical commentary on the evolution of research trends, approaches and findings. Including a wide range of examples of ESE policy and policy research, the book draws on studies of educational initiatives and legislation, policy making processes and rhetoric, ideological orthodoxy and critique, curriculum making and educational theory, globalisation and neoliberalism, climate change and environmental worldviews, and much more. In addition, introductory commentary from the editors traces how ESE researchers have dealt with key trends, complexities and issues in the policy-practice-research nexus both conceptually and empirically. Throughout the collection, contributions illustrate how researchers might reimagine and reinvigorate policy research on ESE, including how working with other fields and diverse perspectives, ideas and expertise will aid the cross-fertilisation of a complex terrain of ideas, policy and practice. This book is based on a special issue of Environmental Education Research.
This book presents the latest findings and ongoing research in connection with green information systems and green information & communication technology (ICT). It provides valuable insights into a broad range of cross-cutting concerns in ICT and the environmental sciences, and showcases how ICT can be used to effectively address environmental and energy efficiency issues. Offering a selection of extended contributions to the 31st International Conference EnviroInfo 2017, it is essential reading for anyone looking to expand their expertise in the area.