Extreme weather events, such as droughts, strong winds and storms, flash floods and extreme heat and cold, are among the most destructive yet fascinating aspects of climate variability. Historical records and memories charting the impacts and responses to such events are a crucial component of any research that seeks to understand the nature of events that might take place in the future. Yet all such events need to be situated for their implications to be understood. This book is the first to explore the cultural contingency of extreme and unusual weather events and the ways in which they are recalled, recorded or forgotten. It illustrates how geographical context, particular physical conditions, an area's social and economic activities and embedded cultural knowledges and infrastructures all affect community experiences of and responses to unusual weather. Contributions refer to varied methods of remembering and recording weather and how these act to curate, recycle and transmit extreme events across generations and into the future. With international case studies, from both land and sea, the book explores how and why particular weather events become inscribed into the fabric of communities and contribute to community change in different historical and cultural contexts. This is valuable reading for students and researchers interested in historical and cultural geography, environmental anthropology and environmental studies.

Integrating issues of climate modelling, ecological and human dimensions of climate change, and policy implications, this volume addresses the critical problems of climate change from a Southern Hemisphere perspective. However, the spatial focus in the book is not defined just by latitude, but also by geopolitical criteria: encompassing the developing world, the tropics north of the equator, as well as regions south of the equator. The book begins by examining the geographic and geopolitical plurality of the Earth, including north and south distinctions and the science/policy plurality. A hemispheric perspective on coupled climate modelling is then discussed, providing a state-of-the-art summary of climate modelling as it pertains to the Southern Hemisphere. In addition, the book examines the interaction of humanity, the biosphere and the atmosphere, discussing the biospheric effects of climate change, possible climatic impacts of biospheric change, particularly tropical deforestation and the human health implications of climate and climate change.

This book focuses on different aspects of initiatives-to check pollution and to reduce consumption of fossil fuels-by the Association of Southeast Asian Nations (ASEAN). The chapters examine climate change projections for ASEAN, the relationship between income inequality and environmental sustainability, greening initiatives pursued by microfinance institutions, farmers' awareness and perceptions of climate change, potential introduction of hydrogen fuel cell vehicles in Malaysia, the impact of Euro-4 automobile emission regulations on the development of technological capabilities and the threats and vulnerability people face from climate change and national disasters. The United Nations Framework Convention for Climate Change's Conference of Parties meetings to cap temperature rise to 1.5 degrees Celsius over the next century has set the steering and the interventions essential for mitigating global warming. There is increasing recognition that initiatives must be taken across the globe regardless of the state of development of each individual country, and so this book has important practical implications. This book was originally published as a special issue of the Journal of the Asia Pacific Economy.

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Weather, Climate and Climate Change: Human Perspectives "

provides an up-to-date and accessible analysis of one of the most crucial and contentious issues facing the world today - the processes and consequences of natural and human-induced changes in the structure and function of the climate system. The theory of, and evidence for, climate change forms a central role in the text along with how weather and climate impacts on environment and society. Examining the issues as a continuum, the authors present an argument that is both highly topical and contextualised for students and academics alike.

Features include:

• An introductory examination of the major components of the climate system including coverage of the impact of mass and energy on wind motion, atmosphere/ocean interactions, synoptic weather systems, local and urban climates, air pollution episodes, ice cores and ice ages, global warming and climate extremes including drought, storm and flood.
• A detailed analysis of how future weather and climates can be modelled.

• An investigation of climate and climate change within a regional framework and through the examination of the climate of high, middle and low latitudes.

• Case studies which illustrate and synthesise the main themes within the text.
• A chapter on AClimate-human adjustmentA which draws on case studies from both the developed and the developing world to explore critical issues such as the varying adaptive capacity, vulnerability and risk of regions and societies to extreme weather events.

• Latest scientific developments which are integrated in context throughout the text.

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Weather, Climate and Climate Change "will be essential reading to students, academics and professionals in the fields of climate, meteorology and global climate change and of broader interest to those in physical geography and environmental studies/science in general."

Greg OAHare is Professor of Geography at the University of Derby.

John Sweeney is Senior Lecturer in Geography at National University of Ireland, Maynooth, Ireland.

Rob Wilby is the Climate Change Science Manager at the Environment Agency, having taken leave of absence from the Department of Geography, King's College London."

This book collects the latest advances, innovations, and applications in the field of environmental science and sustainable development, which were presented by scholars and researchers at the 2021 6th Asia Conference on Environment and Sustainable Development, held in Phuket, Thailand, November 6-8, 2021. The book covers highly diverse topics, including environmental dynamics, global environmental change and ecosystems management, environmental restoration and ecological engineering, water treatment and reclamation, environmental sustainability, health and the environment, wastewater and sludge treatment, solid waste management, air pollution and control. The contributions, which were selected in a rigorous international peer-review process, highlight numerous exciting ideas that will spur novel research directions and foster multidisciplinary collaborations.

Temperature and precipitation increase and decrease because of natural causes. However, anthropogenic changes, such as an enhanced greenhouse effect, may result in alterations in the regional climate and in relative sea level. Serious changes in climate and sea level-with adverse effects particularly along low-lying coasts-would affect millions of people. Climate Change takes an in-depth, worldwide look at coastal habitation with respect to these natural and anthropogenic changes. No universally applicable coastal model can be used to describe climatic changes. This unique book provides individual discussions of beaches and barrier islands, cliffs, deltas, tidal flats and wetlands, reefs, and atolls. The impact of climatic change on coastal ecology and agriculture is investigated, and human responses to the effects of climatic change along the world's coasts are included.

This book comprises the proceedings of the Fifth International Conference in Ocean Engineering (ICOE2019) focusing on emerging opportunities and challenges in the field of ocean engineering and offshore structures. Some of the themes covered in this volume are offshore structures and deepwater technology, ocean optics & acoustics, ocean renewable energy, marine spatial planning, climate change impacts & disaster risk reduction, etc. The essays are written by leading international experts, making it a valuable resource for researchers and practicing engineers alike.

Weather provides a wide variety of stimuli for our senses. The sound of thunder and gales, the smell of damp soil at the start of a summer thunderstorm are but temporary phenomena while the visual panorama of the changing sky that provides a more revealing insight into the workings of the dynamic atmosphere. Understanding Weather shows how it is possible to understand weather and climate by combining our ability to observe weather systems from the earth's surface with visualisation from above - notably by means of satellite imagery. This fusion of human observation with the contrasting capabilities of remote sensing gives us a new perspective for exploring the three dimensional atmosphere. Remote sensing imagery and real-time weather information are now widely available through the internet, allowing the reader to relate the case studies to today's weather situation. As with all sciences, understanding starts with careful observation. This books aims to show that it is possible to analyse global weather systems through a visual approach rather than the traditional use of mathematics and physics. After examining the interaction of atmospheric heat, moisture and motion in a non-technical style, the contrasting but complementary techniques of weather observation from 'below' and 'above' are compared. The world's climates are then surveyed with key weather features illustrated by satellite imagery, highlighting the way in which weather events may develop into atmospheric hazards.

The book documents the scientific facts regarding climate change and a brief overview of the key developments in the climate change regime, discussing Kyoto Protocol and beyond. The North-South politics regarding energy markets and the emissions there from, are also discussed in the book. After establishing the scientific base, presenting agreements and policies for climate change in general, and the Kyoto Protocol in particular, the Instruments and Institutions for Kyoto Protocol are reviewed. The rapid and large climate changes can be expected to have far-reaching and, in many instances, unpredictable consequences not only for only for human societies, but also for all forms of life on Earth. For example, a rise global sea level, can threaten coastal cities and settlements throughout the world. The book discusses the impact of climate change and the associated environmental and socio-economic impacts in different parts of the world. The book discussed science and philosophy behind Climate Change and the Kyo

What do we mean by the tropics? The weather and the climates it produces across the tropical zone are significantly different from those experienced by the people living in higher latitudes, so forecasters across Europe and much of North America are unfamiliar with its effects. In this book, Jim Galvin demystifies the topic in this zone that is increasingly of interest to those studying weather and climate. This book was written for weather forecasters, meteorology, environmental science and geography students as an introductory guide. It builds on the experience of the author, his professional experience in the World Area Forecast Centre at the Met Office, Exeter, using studies into the weather and climate seen within the tropical air mass conducted over many years. Its unique approach presents a practical approach to tropical weather studies, drawing on both academic and practical knowledge, covering air mass dynamics, seasonal changes, moist and dry weather, climate variability and human health in chapters and appendices that build up the overall picture, summarising our current state of knowledge. As an overview, it covers the broad range of effects connected with climate and weather in a straightforward way and is clearly illustrated throughout.

Highlighting twenty years of U.S. scientific research conducted since the International Geophysical Year (IGY) of 1957-58, this volume marks a turning point in the history of polar investigations and provides a lucid summary of the contributions of many distinguished scientists. The authors provide an overview of major polar research programs, past and present; explore concepts derived, from highly interrelated aspects of physical and life sciences; and seek to offer a glimpse of future polar science and polar development. The introduction briefly describes major physical, biological, and interdisciplinary research programs, as well as the magnitude, extent, and international character of contemporary polar science. Twenty years of polar biological investigations are then reviewed, and subsequent chapters address principles and advances in meteorology, physical oceanography, glaciology, and the geological evidence that hears on the origin of Antarctica. These physical sciences delineate a matrix for the polar biospheres and provide a background for understanding the major categories of structure and dynamic functioning of the marine ecosystem, polar marine mammals, adaptational physiology, and terrestrial biotic adaptations.

This book comprises the proceedings of the Annual Conference of the Canadian Society of Civil Engineering 2021. The contents of this volume focus on specialty conferences in construction, environmental, hydrotechnical, materials, structures, transportation engineering, etc. This volume will prove a valuable resource for those in academia and industry.

Ancient Meteorology discusses Greek and Roman approaches and attitudes to this broad discipline, which in classical antiquity included not only 'weather', but occurrences such as earthquakes and comets that today would be regarded as geological, astronomical or seismological. The range and diversity of this literature highlights the question of scholarly authority in antiquity and illustrates how writers responded to the meteorological information presented by their literary predecessors. The first book of its kind in English, Ancient Meteorology will be a valuable reference tool for classicists and those with an interest in the history of science.

Our responses to our thermal environment have a considerable effect on our performance and behaviour, not least in the relm of work. There has been considerable scientific investigation of these responses and formal methods have been developed for environmental evaluation and design. In recent years these have been developed to the extent that detailed national and international standards of practice have now become feasible.
This new edition of Ken Parson's definitive text brings us back up to date. He covers hot, moderate and cold environments, and defines these in terms of six basic perameters: air temperature, radiate temperature, humidity, air velocity, clothing worn, and the person's activity. There is a focus on the priciples and practice of human response, which encorporates psychology, physiology and environmental physics with applied ergonomics. Water requirements, computer modelling and computer-aided design are brought in, as are current standards. Special populations, such as the aged or disabled and specialist environments such as those found in vehicles are also considered.
This remains the standard text for the design of environments for humans to live and work safely, comfortably and effectively, and for the design of materials which help the same people cope with their environments.

Statistical and machine learning methods have many applications in the environmental sciences, including prediction and data analysis in meteorology, hydrology and oceanography, pattern recognition for satellite images from remote sensing, management of agriculture and forests, assessment of climate change, and much more. With rapid advances in machine learning in the last decade, this book provides an urgently needed, comprehensive guide to machine learning and statistics for students and researchers interested in environmental data science. It includes intuitive explanations covering the relevant background mathematics, with examples drawn from the environmental sciences. A broad range of topics are covered, including correlation, regression, classification, clustering, neural networks, random forests, boosting, kernel methods, evolutionary algorithms, and deep learning, as well as the recent merging of machine learning and physics. End-of-chapter exercises allow readers to develop their problem-solving skills and online data sets allow readers to practise analysis of real data.

The large lakes of the East African Rift Valley are among the oldest on Earth, and are vital resources for the people of their basins. They are unique among the large lakes of the world in terms of their sensitivity to climatic change, rich and diverse populations of endemic species, circulation dynamics and water-column chemistry, and long, continuous records of past climatic change. A comprehensive study of the large African lakes is long overdue. The scientific justification for such an effort is noted in the previous paragraph and is illustrated in great detail in this volume. Societal need for the sustainable utilization of these lakes offers an even more compelling reason for examination of biological food webs, water quality, and past climate variability in East Africa. The lakes provide the most important source of protein for the people of the African Rift Valley, and fish populations are shifting dramatically in response to fishing pressure, introduction of exotic species, land use impact on water quality, and perhaps climatic change. Current estimates of primary productivity, the underpinning of the food resource, are extremely crude and based on only a few spot measurements.

Atmospheric Research in Antarctica: Present Status and Thrust Areas in Climate Change represents a panoramic view of the developments in the field of Antarctic atmospheric sciences and meteorology broadly covering geomagnetism and aeronomy, middle atmospheric studies and global and climate change studies. It includes greenhouse gases, ozone monitoring as well as very low frequency (VLF) phenomena, and space weather, Antarctic meteorology, and mathematical modeling of atmosphere and ocean processes around Antarctica. Atmospheric electricity and aerosols investigations over Antarctica along with the total solar eclipse-related studies, calibration of AWIFS Sensor, and measurements of positive ions, are also discussed. This book is aimed at researchers and graduate students in atmospheric studies, meteorology, Antarctic studies, climate change. FEATURES: Covers scientific aspects of Antarctic meteorology and atmospheric sciences under climate change scenario Contains diverse set of information with strong bearing on recent and past polar processes Presents integrated research on polar science coupled with meteorological, climatological and atmosphericsciences Thoroughly reviews geomagnetism and aeronomy, middle atmospheric studies including global and climate change studies Helps readers understand how Antarctica's climate has changed in the past and is being affected by 'global warming' and how might we expect its climate to change in the future?

History and Climate Change is a balanced and comprehensive overview of the links between climate and man's advance from early to modern times. It draws upon demographic, economic, urban, religious and military perspectives. It is a synthesis of the many historical and scientific theories, which have arisen regarding man's progress through the ages.
Central to the book is the question of whether climate variation is a fundamental trigger mechanism from which other historical sequences develop, or one amongst a number of other factors, decisive only when a regime/society is poised for change. Evidence for prolonged climate change is not that extensive. But it is clear that climatic variation has regularly played a part in historical development. Paricular attention is here paid to Europe since AD 211.
Cold and warmth, wetness and aridity can create contrary reactions within societies, which can be interpreted in vary different ways by scholars from differenct disciplines. Does climate change exacerbate famine and epidemics? Did climate fluctuation play a part in pivotal historical events such as the mass exodus of Hsuing-nu from China, the pressure of the Huns on the Romans and the genesis of the Crusades? Did the bitter Finnish winter of 1939-40 ensure the ultimate defeat of Hitler? These episodes, and many others are discussed throughout the book in the authors distinctive style, with maps and photographs to illustrate the examples given.

Originally published in 1970, this book brings together the most significant and pertinent associations between man's economic and social activities, and the variations in the atmospheric environment. Particular emphasis is placed on economic activities and the weather, economic analysis of weather and the benefits and costs of weather knowledge. In addition, some of the sociological, physiological, political, planning and legal aspects of atmospheric resources are discussed.

Originally published in 1989, this book provides an overview of the economic dimensions of climate and human activities, and considers how the variable nature of the atmosphere must be accepted as an integral part of the management package. It discusses how climatic repercussions can hold major importance for international politics, particularly in the light of the impacts of climatic changes induced by greenhouse gases.

Originally published in 1986, this book discusses the value of weather and climate information in government and business decision-making. It issues a strong manifesto for the development of new areas of research requiring the skills of weather scientists, geographers, economists, planners and political scientists. It offers a coherent and non-technical presentation of this climatology, supported with practical guidance on assessing the impacts of weather and climate on human affairs.

This book gives a coherent development of the current understanding of the fluid dynamics of the middle latitude atmosphere. It is primarily aimed at post-graduate and advanced undergraduate level students and does not assume any previous knowledge of fluid mechanics, meteorology or atmospheric science. The book will be an invaluable resource for any quantitative atmospheric scientist who wishes to increase their understanding of the subject. The importance of the rotation of the Earth and the stable stratification of its atmosphere, with their implications for the balance of larger-scale flows, is highlighted throughout. Clearly structured throughout, the first of three themes deals with the development of the basic equations for an atmosphere on a rotating, spherical planet and discusses scale analyses of these equations. The second theme explores the importance of rotation and introduces vorticity and potential vorticity, as well as turbulence. In the third theme, the concepts developed in the first two themes are used to give an understanding of balanced motion in real atmospheric phenomena. It starts with quasi-geostrophic theory and moves on to linear and nonlinear theories for mid-latitude weather systems and their fronts. The potential vorticity perspective on weather systems is highlighted with a discussion of the Rossby wave propagation and potential vorticity mixing covered in the final chapter.

Precipitation drives the dynamics of flows and storages in water systems, making its monitoring essential for water management. Conventionally, precipitation is monitored using in-situ and remote sensors. In-situ sensors are arranged in networks, which are usually sparse, providing continuous observations for long periods at fixed points in space, and due to the high costs of such networks, they are often sub-optimal. To increase the efficiency of the monitoring networks, we explore the use of sensors that can relocate as rainfall events develop (dynamic sensors), as well as increasing the number of sensors involving volunteers (citizens). This research focusses on the development of an approach for merging heterogeneous observations in non-stationary precipitation fields, exploring the interactions between different definitions of optimality for the design of sensor networks, as well as development of algorithms for the optimal scheduling of dynamic sensors. This study was carried out in three different case studies, including Bacchiglione River (Italy), Don River (U.K.) and Brue Catchment (U.K.) The results of this study indicate that optimal use of dynamic sensors may be useful for monitoring precipitation to support water management and flow forecasting.

What are the potential adverse impacts of climate change? How can society determine the amount of protection against climate change that is warranted, given the benefits and costs of various policies? In concise, informative chapters, Climate Economics and Policy considers the key issues involved in one of the most important policy debates of our time. Beginning with an overview and policy history, it explores the potential impact of climate change on a variety of domains, including water resources, agriculture, and forests. The contributors then provide assessments of policies that will affect greenhouse gas emissions, including electricity restructuring, carbon sequestration in forests, and early reduction programs. In considering both domestic and international policy options, the authors examine command and control strategies, energy efficiency opportunities, taxes, emissions trading, subsidy reform, and inducements for technological progress. Both policymakers and the general public will find this volume to be a convenient and authoritative guide to climate change risk and policy. It is a useful resource for professional education programs, and an important addition for college courses in environmental economics and environmental studies. Climate Economics and Policy is a collection of Issue Briefs, prepared by the staff of Resources for the Future (RFF) and outside experts. Many are adapted from pieces originally disseminated on Weathervane, RFF s acclaimed web site on global climate change.

Since its discovery in early 1900, turbulence has been an interesting and complex area of study. Written by international experts, Air Pollution and Turbulence: Modeling and Applications presents advanced techniques for modeling turbulence, with a special focus on air pollution applications, including pollutant dispersion and inverse problems. The book's foreword was written by specialists in the field, including the Professor Sergej Zilitinkevich. Offering innovative atmospheric mathematical modeling methods, which can also be applied to other disciplines, the book includes: Discussions on the effects of soot and diesel particulates on building surfaces and human health Observational studies of convective Atmospheric Boundary Layer (ABL) over pastures and forests in Amazonia Theoretical studies of turbulence and turbulent transport modeling of contaminants during the decaying of a ABL convective The parameterization of convective turbulence and clouds in atmospheric models based on the combination of the eddy-diffusivity and mass-flux approaches Analytical solutions to the advection-diffusion equation and analytical models for air pollution, including those for low wind conditions Analytical solutions to the advection-diffusion equation using the Generalized Integral Laplace Transform Technique (GILTT) and the decomposition method Lagrangian stochastic dispersion models with applications for airborne dispersion in the ABL Atmospheric dispersion with Large Eddy Simulation (LES) using the Lagrangian and Eulerian approaches Modeling of photochemical air pollution for better air quality management Analysis of the transport of a trace gas (CO2) at the global scale and overviews of the inverse-problem techniques for deducing emissions from known concentrations The book provides a solid theor