This book calls for the progressive creation of supra-national institutions intended to protect life on Earth against natural threats, be these terrestrial (pandemics, super-volcanoes, major earthquakes.) or celestial (comets, asteroids, meteor storms). The protection proffered would need to be pre-emptive though also responsive, reducing the number of adverse events but also their specific consequences. Rancid though the world scene currently looks, this may actually be a good time to look towards a planetary security programme that can build up over a century or more. It would need special international institutions that are sufficiently integrated to cope with the celestial and terrestrial contingencies anticipated yet not so much a class apart as to be a law unto themselves, a military regime able to ride roughshod over general world opinion. Such an holistic approach to planetary security might prove to be a definitive substitute for war between nations. Professor Brown comes to such questions from a broad career background. His lead qualifications are a Masters degree from Oxford in Modern History and a Doctorate of Science from Birmingham (UK) in Applied Geophysics. He has been a naval meteorologist; staff college instructor; part-time but pro-active as a defence correspondent for several of the West's leading journals; and political consultant. From 1980 to 1986, he was Chairman of the Council for Arms Control. From 1993 to 1997 he worked half-time in the Sensors and Electronic Systems directorate of Britain's Ministry of Defence. This was as the Academic Consultant in a small task force specifically created to advise the government of the day apropos what British policy to Strategic Ballistic Missile Defence should be. A declassified rendering of his 90,000-word report (published by Mansfield College, Oxford, in 1998) argued firmly against our going down this path. It could lead to a catastrophic arms race.

The book, after two introductory chapters on seismic design principles and structural seismic analysis methods, proceeds with the detailed description of seismic design methods for steel building structures. These methods include all the well-known methods, like force-based or displacement-based methods, plus some other methods developed by the present authors or other authors that have reached a level of maturity and are applicable to a large class of steel building structures. For every method, detailed practical examples and supporting references are provided in order to illustrate the methods and demonstrate their merits. As a unique feature, the present book describes not just one, as it is the case with existing books on seismic design of steel structures, but various seismic design methods including application examples worked in detail. The book is a valuable source of information, not only for MS and PhD students, but also for researchers and practicing engineers engaged with the design of steel building structures.

This book presents key principles of the hydraulics of river basins, with a unique focus on the interplay between stream flows and sediment transport. Addressing a number of basic topics related to the hydraulics of river systems, above all it emphasizes applicative aspects in order to provide the reader with a solid grasp of river engineering. The understanding of the river hydraulics is essential for the assessment of optimum locations for the conservation of water resources and its structures. This book will be interesting to readers and researchers working in the specialized area of river hydraulics of Ganga basin, Narmada, Tapi, Godavari, and other basins of India. It consists of review on hydraulics of meandering river; hydraulic design of reservoir in permeable pavement; optimization of hydraulic design; hydraulic investigations to optimize the design of spillway and design of energy dissipater; and analysis of performance of orifice spillway using computational fluid dynaics

This book aims to provide insight into how Southeast Asian countries have responded to disasters, recovered, and rebuilt. It investigates emergency response and disaster recovery cases at national levels and from regional perspectives. Recovery from great disasters poses great challenges to affected countries in terms of organization, financing, and opportunities for post-disaster betterment. Importantly, disasters are critical moments in which to achieve disaster risk reduction, especially in the context of climate change and Sustainable Development Goals. Insights from these cases can help other countries better prepare for response and recovery before the next disaster strikes. While the experiences of disaster risk reduction and climate change implementation in Southeast Asian countries have been well documented, tacit knowledge from emergency response and recovery from these countries has not been transformed into explicit knowledge. There are only a few books that integrate information and lessons from post-disaster governance in Southeast Asia as a region, and because of the importance of providing real and recent situations, this book will interest many policymakers, practitioners, and academics. The information presented here will lead to a better understanding of how to plan for future disasters and improve governance to ensure effective emergency response as well as encouraging a build back better and safer towards a more resilient and sustained recovery.

In 2011, there were fourteen natural calamities that each destroyed over a billion dollars worth of property in the United States alone. In 2012, Hurricane Sandy ravaged the East Coast and major earthquakes struck in Italy, the Philippines, Iran, and Afghanistan. In the first half of 2013, the awful drumbeat continued a monster supertornado struck Moore, Oklahoma; a powerful earthquake shook Sichuan, China; a cyclone ravaged Queensland, Australia; massive floods inundated Jakarta, Indonesia; and the largest wildfire ever engulfed a large part of Colorado.

Despite these events, we still behave as if natural disasters are outliers. Why else would we continue to build new communities near active volcanoes, on tectonically active faults, on flood plains, and in areas routinely lashed by vicious storms?

A famous historian once observed that civilization exists by geologic consent, subject to change without notice. In the pages of this unique book, leading geologist Susan W. Kieffer provides a primer on most types of natural disasters: earthquakes, tsunamis, volcanoes, landslides, hurricanes, cyclones, and tornadoes. By taking us behind the scenes of the underlying geology that causes them, she shows why natural disasters are more common than we realize, and that their impact on us will increase as our growing population crowds us into ever more vulnerable areas.

Kieffer describes how natural disasters result from changes in state in a geologic system, much as when water turns to steam. By understanding what causes these changes of state, we can begin to understand the dynamics of natural disasters.

In the book s concluding chapter, Kieffer outlines how we might better prepare for, and in some cases prevent, future disasters. She also calls for the creation of an organization, something akin to the Centers for Disease Control and Prevention but focused on pending natural disasters."

This book presents the select proceedings of the Virtual Conference on Disaster Risk Reduction (VCDRR 2021). It emphasizes on the role of civil engineering for a disaster resilient society. It presents latest research in geohazards and their mitigation. Various topics covered in this book are land use, ground response, liquefaction, and disaster mitigation techniques. This book is a comprehensive volume on disaster risk reduction (DRR) and its management for a sustainable built environment. This book will be useful for the students, researchers, policy makers and professionals working in the area of civil engineering, especially disaster management.

The extent to which human activity has influenced species extinctions during the recent prehistoric past remains controversial due to other factors such as climatic fluctuations and a general lack of data. However, the Holocene (the geological interval spanning the last 11,500 years from the end of the last glaciation) has witnessed massive levels of extinctions that have continued into the modern historical era, but in a context of only relatively minor climatic fluctuations. This makes a detailed consideration of these extinctions a useful system for investigating the impacts of human activity over time. Holocene Extinctions describes and analyses the range of global extinction events which have occurred during this key time period, as well as their relationship to both earlier and ongoing species losses. By integrating information from fields as diverse as zoology, ecology, palaeontology, archaeology and geography, and by incorporating data from a broad range of taxonomic groups and ecosystems, this novel text provides a fascinating insight into human impacts on global extinction rates, both past and present. This truly interdisciplinary book is suitable for both graduate students and researchers in these varied fields. It will also be of value and use to policy-makers and conservation professionals since it provides valuable guidance on how to apply lessons from the past to prevent future biodiversity loss and inform modern conservation planning.

This book contains a collection of papers from the special issue on the global perspective on meteotsunami science, published in Vol. 106 (2) of the journal Natural Hazards. By topic, the contributions are covering overview studies, case studies of actual events, introduction of new insights into meteotsunami modelling, new techniques in meteotsunami monitoring and detection, and those describing meteotsunami operational and forecast systems. More than half of all papers describe specific meteotsunami events observed in most of the world ocean basins, some others at a rudimentary level recall previous extreme episodes, while several papers contain thorough analysis of either atmospheric conditions or oceanic sea-level response. The book is intended for specialists in oceanography and atmospheric sciences, tsunami and fluid dynamics scientists, climatologists, coastal hazard agencies and managers, ocean engineers and many others, including students and science policy-makers, in particular in the regions affected by this potentially destructive coastal hazard. The chapters "Proudman resonance with tides, bathymetry and variable atmospheric forcings", "Long wave generation and coastal amplification due to propagating atmospheric pressure disturbances", "On the potential of ensemble forecasting for the prediction of meteotsunamis in the Balearic Islands: sensitivity to atmospheric model parameterizations", and "Combined hazard of typhoon-generated meteorological tsunamis and storm surges along the coast of Japan" are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com. Previously published in Natural Hazards, Volume 106, Issue 2, 2021

This book comprehensively illustrates the elemental processes of vesiculation and crystallization recorded in volcanic products on the basis of the equilibrium and non-equilibrium theories. The book describes the derivation of equations and the basic physics behind them in detail. This textbook is fundamental in preparing for future volcanic hazards. The target readers are graduate students and researchers, but Parts I and IV are written to be understandable by undergraduate students as well, to inspire them to enter this field.

This book highlights the current issues, challenges, and priorities for climate change adaptation in the ten member states of the Association of Southeast Asian Nations (ASEAN). The status of each country was prepared by a consortium of researchers in consultation with National Focal Points of the ASEAN Working Group on Climate Change (AWGCC). National documents on adaptation actions, including local scenario and priorities, were reviewed where available and supplemented with an assessment of scientific publications to identify vulnerable ecosystems and regions. Adaptation needs and priorities were determined through stakeholder consultation in the respective countries. This allows for local-level perspectives to be captured and brought to the attention of policy and decision-makers at the national and regional levels. An important lesson from this exercise is that universities and research institutions at the national level have a critical role to play in bridging the gap between science and policy in climate change adaptation. These institutions also have the capacity to continuously facilitate transfer of the best available science for advancing climate change adaptation at the local level.

This edited volume dedicated to late Prof. P.S. Saklani addresses the multidisciplinary themes pertaining to role of tectonism and magmatism in Crustal Evolution and global distribution of metallic and non metallic mineral deposits. It gives valuable information on geodynamic evolution, structural, petrological, isotopic, metamorphic, geochemical and geochronological attributes of continental and oceanic crust and is challenging reassessments of the existing paradigms. It addresses the implication of magmatism, metallogeny and application of geochronological ages (U-Pb SHRIMP age, Lu-Hf isotopic system; detrital zircons). This book also advocates the role of tectonics in contamination of ground water, and control on drainage pattern and geothermal systems. It explores the vulnerability of earth towards natural hazards viz. earthquakes, floods, cyclones, tsunami, volcanism, cyclones and drought. This volume throws light on the applications of remote sensing, GIS (Geographical Information System) and SRTM data for evaluation of the morphometric and morphotectonic parameters and exploring the susceptibility of river basins toward erosion and flood. It will be beneficial to graduate and post-graduate students as well as professionals and researchers.

This book is of paramount importance in the fields of engineering and applied sciences, given that through the values obtained by these procedures, many structures, like spillways of dams and highway culverts, are designed and constructed. The main aim of this book is to provide procedures for implementing many probability distribution functions, all of them based on using a standard and a common computational application known as Excel, which is available to any personal computer user. The computer procedures are given in enough detail, so readers can develop their own Excel worksheets. All the probability distribution functions in the book have schemes to estimate its parameters, quantiles, and confidence limits through the methods of moments and maximum likelihood.

This book summarizes the achievements and experience of the Yangtze River rehabilitation and protection, analyzes the new situation and requirements of the Yangtze River rehabilitation and protection, and discusses the main issues and their solution alternatives for the Yangtze River rehabilitation and protection efforts. The Yangtze River, respected as the mother river of the Chinese nation, contributes immensely toward the socioeconomic development of China and braces up the national strategies such as the development of the Yangtze River Economic Belt and the integrated development of the Yangtze River Delta, etc. Whether the Yangtze River is under good stewardship has implications on not only the wellbeing of more than 400 million inhabitants in the basin, but also in broader sense the overall sustainability of socioeconomic development of the whole country. This book which has two parts, provides a multidirectional analysis of Yangtze River rehabilitation and protection. The first part explores the stages, achievements, and the future of the Yangtze rehabilitation and protection. Major issues existing in Yangtze River Basin rehabilitation and protection are discussed in the second part. Many pictures, charts, and diagrams are involved providing an understanding of the situation of Yangtze River Basin.

This book presents the select proceedings of the Virtual Conference on Disaster Risk Reduction (VCDRR 2021). It provides insights on urban resilience and sustainable infrastructure. All the chapters in this volume are segregated into five clusters, e.g., Resilient infrastructure in construction, Innovative construction interventions, Waste Management and Disaster Risk Reduction, Urban Development and Sustainability, and Cross-cutting issues. Various topics covered in this book are risk assessment, prevention, mitigation, preparedness and response, renewable energy, waste management, resilient cities, and environmental management. This book is a comprehensive volume on disaster risk reduction (DRR) and its management for a sustainable built environment. This book will be useful for the students, researchers, policy makers and professionals working in the area of civil engineering, especially disaster management.

This book outlines methodologies to estimate the economic impacts of natural disasters based on business surveys conducted after large disasters in Japan. By including numerous observations on business activities in past disasters and the validations of both engineering and economic models based on these data sets, this book appeals to practitioners who estimate the regional economic impacts as well as to students and young professionals in various fields who conduct disaster impact studies. The book consists of 7 chapters and includes theories and practices, which help readers to interlink the estimation methods with real-world problems. The study primarily focuses on cases in Japan, but the methods employed can be generalized and applied in other countries.

Tropical cyclones in Southern Africa, also known as hurricanes or typhoons in other regions of the world, is a hot subject for academic research. This focus has been magnified by the need to consider tropical cyclones in the context of other global development agendas, that includes the 2030 Agenda for Sustainable Development and its inseparable 17 Sustainable Development Goals (SDGs), the Paris Agreement, the Sendai Framework for Disaster Risk Reduction and Habitat III's New Urban Agenda. The ambitious SDGs challenge global and community leaders to make sure development addresses the nexus among poverty, inequality and employment creation, as well as care for the earth and its natural resources and biodiversity. The SDGs further present an agenda to eradicate hunger, bring quality education and sustain water and sanitation. The infrastructure development, human settlements, sustainable consumption and production, climate change, biodiversity and the ocean (blue) economy agendas are also pitched. Lastly, the 2030 Agenda for Sustainable Development encourages partnerships on delivering various programmes and projects at all spatial levels. However, as tropical cyclones continue to make multiple landfalls and ravage Southern Africa and other parts of the world, the achievement of the 2030 Agenda for Sustainable Development is threatened. To this end, this book addresses this gap by documenting the implications of tropical cyclones, drawing examples and case studies from recent tropical cyclones such as cyclone Idai and cyclone Kenneth that resulted in catastrophic impacts in 2019. The book comes as part of a series with three volumes. The other volumes include "Cyclones in Southern Africa Vol. 1: Interfacing the Catastrophic Impact of Cyclone Idai with SDGs in Zimbabwe" and "Cyclones in Southern Africa Vol 2: Foundational and Fundamental Topics". Given the foregoing, the book is suitable as a read for several professionals and disciplines such as tourism and hospitality studies, economics, sustainable development, development studies, environmental sciences, arts, geography, life sciences, politics, planning and public health.

This book highlights the likely impacts of climate change in terms of global and national water securities, how different countries are attempting to address these complex problems and to what extent they are likely to succeed. A major global concern at present, especially after the social and economic havoc that has been caused by COVID-19 in only one year, is how we can return to earlier levels of economic development patterns and then further improve the process so that sustainable development goals are reached to the extent possible by 2030, in both developed and developing countries. Mankind is now facing two existential problems over the next several decades. These are climate change and whether the world will have access to enough water to meet all its food, energy, environment and health needs. Much of expected climate change impacts can be seen through the lens of extreme hydrological events, like droughts, floods and other extreme hydrometeorological events. Chapter 7 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.Chapter 12 is available open access under a Creative Commons Attribution-NonCommercial 4.0 International License via link.springer.com.

This book presents the kinematic earthquake rupture studies from moment tenor to spatial-temporal rupture imaging. For real-time seismic hazard monitoring, the new stable automatic moment tensor (AutoBATS) algorithm is developed and implemented for the real-time MT reports by the Taiwan Earthquake Science Information System (TESIS). In order to understand the rupture behavior of the 2013 Mw 8.3 Okhotsk deep earthquake sequence, the 3D MUltiple SIgnal Classification Back Projection (MUSIC BP) with P and pP phases is applied. The combined P- and pP-wave BP imaging of the mainshock shows two stages of anti-parallel ruptures along two depths separating for about 10~15 km. Unusual super-shear ruptures are observed through the 3D BP images of two Mw 6.7 aftershocks. In last two chapters, the 3D BP imaging reveals similar rupture properties of two shallow catastrophic earthquakes (Mw=6.4) in southwestern Taiwan. Both the 2010 Jiashian and 2016 Meinong earthquakes ruptured westward with similar velocity of ~2.5 km/s along a NE-ward shallow dipping blind fault. The rupture similarities of the doublet suggest two parallel elongate asperities along the causative fault. After several decades of seismic quiescence, the 2010 Jiashian event initiated the rupture at the deeper asperity and triggered the shallower asperity which caused catastrophes six years later.

This book explores many recent techniques including ANN, fuzzy logic, hydraulic models and IWRM utilized for integrated water resources management, a real challenge in India for obtaining high irrigation efficiency. The book deals with topics of current interest, such as climate change, floods, drought, and hydrological extremes. The impact of climate change on water resources is drawing worldwide attention these days; for water resources, many countries are already stressed and climate change along with burgeoning population, rising standard of living, and increasing demand are adding to the stress. Further, river basins are becoming less resilient to climatic vagaries. Fundamental to addressing these issues is hydrological modelling which is covered in this book Further, integrated water resources management is vital to ensure water and food security. Integral to the management is groundwater and solute transport. The book encompasses tools that will be useful to mitigate the adverse consequences of natural disasters.

This book presents the select proceedings of the Virtual Conference on Disaster Risk Reduction (VCDRR 2021). It emphasizes on the role of civil engineering for a disaster-resilient society. It presents latest research in geohazards and their mitigation. Various topics covered in this book are earthquake hazard, seismic response of structures and earthquake risk. This book is a comprehensive volume on disaster risk reduction (DRR) and its management for a sustainable built environment. This book will be useful for the students, researchers, policy makers and professionals working in the area of civil engineering and earthquake engineering.

Globally, concerns for the environment and human well-being have increased as results of threats imposed by climate change and disasters, environmental degradation, pollution of natural resources, water scarcity and proliferation of slums. Finding appropriate solutions to these threats and challenges is not simple, as these are generally complex and require state-of-the-art technology to collect, measure, handle and analyse large volumes of varying data sets. However, the recent advances in sensor technology, coupled with the rapid development of computational power, have greatly enhanced our abilities to capture, store and analyse the surrounding physical environment. This book explores diverse dimensions of geo-intelligence (GI) technology in developing a computing framework for location-based, data-integrating earth observation and predictive modelling to address these issues at all levels and scales. The book provides insight into the applications of GI technology in several fields of spatial and social sciences and attempts to bridge the gap between them.

This book is a comprehensive resource on lightning and describes the unique roles which the state of Arizona has with regard to lightning. Not only is it spectacular, it is also admired, feared, and misunderstood, but its knowledge has come of age in the last two decades. This book describes why Arizona can be called the “Lightning Photography Capital of the U.S.”, how the general public and Native Americans in Arizona have viewed lightning, and when and where lightning occurs and impacts people and resources in Arizona. It contains summaries of interviews with current and former University of Arizona staff who invented real-time lightning detection in the late 1970s and how subsequent lightning research in Arizona has been globally significant. The authors are very well acquainted with and up to date on these topics. The style of this book is active and somewhat scholarly but readable by the nonprofessional with a general interest in lightning. What is lightning? How does lightning affect Arizona? Why do photographers come to Arizona for lightning photographs? What is unique about Arizona lightning? How is lightning detected in Arizona and around the world? This book tells you answers to these questions. This book is intended for a broad audience comprised of visitors, interested lay public, a variety of scientific disciplines, media, medicine, lightning safety, and fire weather. It is suitable for readers desiring a general overview of lightning, especially in Arizona, but also for those who want to know specifically about the topic.

Humanity is deeply committed to living along the world's shores, but a catastrophic storm like Sandy - which took hundreds of lives and caused many billions of dollars in damages - shines a bright light at how costly and vulnerable life on a shoreline can be. Taking Chances offers a wide-ranging exploration of the diverse challenges of Sandy and asks if this massive event will really change how coastal living and development is managed. Bringing together leading researchers - including biologists, urban planners, utilities experts, and climatologists, among others - Taking Chances illuminates reactions to the dangers revealed by Sandy. Focusing on New Jersey, New York, and other hard-hit areas, the contributors explore whether Hurricane Sandy has indeed transformed our perceptions of coastal hazards, if we have made radically new plans in response to Sandy, and what we think should be done over the long run to improve coastal resilience. Surprisingly, one essay notes that while a large majority of New Jerseyans identified Sandy with climate change and favored carefully assessing the likelihood of damage from future storms before rebuilding the Shore, their political leaders quickly poured millions into reconstruction. Indeed, much here is disquieting. One contributor points out that investors scared off from further investments on the shore are quickly replaced by new investors, sustaining or increasing the overall human exposure to risk. Likewise, a study of the Gowanus Canal area of Brooklyn shows that, even after Sandy swamped the area with toxic flood waters, plans to convert abandoned industrial lots around the canal into high-density condominiums went on undeterred. By contrast, utilities, emergency officials, and others who routinely make long-term plans have changed operations in response to the storm, and provide examples of adaptation in the face of climate change. Will Sandy be a tipping point in coastal policy debates - or simply dismissed as a once-in-a-century anomaly? This thought-provoking collection of essays in Taking Chances makes an important contribution to this debate.

Geospatial technology is a combination of state-of-the-art remote sensing and technology for geographic information systems (GIS) and global navigation satellite systems (GNSS) for the mapping and monitoring of landscapes and environment. The main thrust of using geospatial technology is to understand the causes, mechanisms, and consequences of spatial heterogeneity, while its ultimate objective is to provide a scientific basis for developing and maintaining ecologically, economically, and socially sustainable landscapes. This book presents new research on the interdisciplinary applications of geospatial technology for identification, assessment, monitoring, and modelling issues related to landscape, natural resources, and environmental management. The book specifically focuses on the creation, collection, storage, processing, modelling, interpretation, display, and dissemination of spatio-temporal data, which help to resolve environmental management issues including ecosystem change, resource utilization, land use management, and environmental pollution. The positive environmental impacts of information technology advancements with regard to global environmental and climate change are also discussed. The book addresses the interests of a wide spectrum of readers who have a common interest in geospatial science, geology, water resource management, database management, planning and policy making, and resource management.