The history of mankind is a story of ascent to unprecedented levels of comfort, productivity and consumption, enabled by the increased mastery of the basic reserves and flows of energy. This miraculous trajectory is confronted by the consensus that anthropogenic emissions are harmful and must decrease, requiring de-carbonization of the energy system. The mature field of indicator-based sustainability assessment provides a rigorous systematic framework to balance the pros and cons of the various existing energy technologies using lifecycle assessments and weighting criteria covering the environment, economy, and society, as the three pillars of sustainability. In such a framework, nuclear power is ranked favorably, but since emphasis is often placed on radioactive wastes and risk aversion, renewables are usually ranked top. However, quantifying the severity of the consequences of nuclear accidents on a rough integral cost basis and balancing severity with low core-damage accident probabilities indicates that the average external cost of such accidents is similar to that of modern renewables, and far less than carbon-based energy. This book formulates the overall goal and associated unprecedented demanding criteria of taming nuclear risks by excluding mechanisms that lead to serious accidents and avoiding extremely long stewardship times as far as possible, by design. It reviews the key design features of nuclear power generation, paving the way for the exploration of radically new combinations of technologies to come up with "revolutionary" or even "exotic" system designs. The book also provides scores for the selected designs and discusses the high potential for far-reaching improvements, with small modular lines of the best versions as being most attractive. Given the ambition and challenges, the authors call for an urgent increase in funding of at least two orders of magnitude for a broad international civilian "super-Apollo" program on nuclear energy systems. Experience indicates that such investments in fundamental technologies enable otherwise unattainable revolutionary innovations with massive beneficial spillovers to the private sector and the public for the next generations.

Drawing on concepts in political economy, political ecology, justice theory, and critical development studies, the authors offer the first comprehensive, systematic exploration of the ways in which adaptation projects can produce unintended, undesirable results. This work is on the Global Policy: Next Generation list of six key books for understanding the politics of global climate change.

Climate change and ongoing transformation processes in economy and agriculture will have strong and multiple impacts in the Baltic region. In particular coastal zones face increasing hazards, e.g. due to sea level rise or changes in riverine nutrient loads and eutrophication. These changes also offer a wide range of new opportunities in the Baltic Region. Adaptation measures are needed but require a thorough and spatially differentiated understanding of underlying ecological, economic and social processes.

Sixteen contributions by authors from eight countries give a comprehensive overview of these changes, their consequences and practical challenges with focus on coastal zones. Besides risks, the chances and opportunities of changes for the region are addressed and adaptation examples and strategies are given. The practitioners perspective and their demands are integrated in the various contributions.

This book focuses on climate change and sustainable development, showcasing examples of research, projects and other initiatives aimed at educating various target groups. Helping readers gain a better understanding of the water, energy and food nexus challenges in the context of climate change, and featuring valuable insights that can be implemented in other areas, it will appeal to researchers and students as well as practitioners.

The debate on how mankind should respond to climate change is diverse, as the appropriate strategy depends on global as well as local circumstances.

As scientists are denied the possibility of conducting experiments with the real climate, only climate models can give insights into man-induced climate change, by experimenting with digital climates under varying conditions and by extrapolating past and future states into the future.

But the nature of models is a purely representational one. A model is good if it is believed to represent the relevant processes of a natural system well. However, a model and its results, in particular in the case of climate models which interconnect countless hypotheses, is only to some extent testable, although an advanced infrastructure of evaluation strategies has been developed involving strategies of model intercomparison, ensemble prognoses, uncertainty metrics on the system and component levels. The complexity of climate models goes hand in hand with uncertainties, but uncertainty is in conflict with socio-political expectations. However, certain predictions belong to the realm of desires and ideals rather than to applied science. Today s attempt to define and classify uncertainty in terms of likelihood and confidence reflect this awareness of uncertainty as an integral part of human knowledge, in particular on knowledge about possible future developments. The contributions in this book give a first hand insight into scientific strategies in dealing with uncertainty by using simulation models and into social, political and economical requirements in future projections on climate change. Do these strategies and requirements meet each other or fail?

The debate on how mankind should respond to climate change is diverse, as the appropriate strategy depends on global as well as local circumstances. As scientists are denied the possibility of conducting experiments with the real climate, only climate models can give insights into man-induced climate change, by experimenting with digital climates under varying conditions and by extrapolating past and future states into the future. But the 'nature' of models is a purely representational one. A model is good if it is believed to represent the relevant processes of a natural system well. However, a model and its results, in particular in the case of climate models which interconnect countless hypotheses, is only to some extent testable, although an advanced infrastructure of evaluation strategies has been developed involving strategies of model intercomparison, ensemble prognoses, uncertainty metrics on the system and component levels. The complexity of climate models goes hand in hand with uncertainties, but uncertainty is in conflict with socio-political expectations. However, certain predictions belong to the realm of desires and ideals rather than to applied science. Today's attempt to define and classify uncertainty in terms of likelihood and confidence reflect this awareness of uncertainty as an integral part of human knowledge, in particular on knowledge about possible future developments. The contributions in this book give a first hand insight into scientific strategies in dealing with uncertainty by using simulation models and into social, political and economical requirements in future projections on climate change. Do these strategies and requirements meet each other or fail?

Gabriele Gramelsberger is Principal Investigator of the Collaborative Research Project is Principal Investigator of the Collaborative Research Project

This volume presents nine chapters prepared by international authors and highlighting various aspects of climate change and water resources. Climate change models and scenarios, particularly those related to precipitation projection, are discussed and uncertainties and data deficiencies that affect the reliability of predictions are identified. The potential impacts of climate change on water resources (including quality) and on crop production are analyzed and adaptation strategies for crop production are offered. Furthermore, case studies of climate change mitigation strategies, such as the reduction of water use and conservation measures in urban environments, are included. This book will serve as a valuable reference work for researchers and students in water and environmental sciences, as well as for governmental agencies and policy makers.

This edited volume reviews the latest advances in policies and actions in understanding the science, impacts and management of climate change in Indonesia. Indonesia is one of the most vulnerable countries to climate change due to its geographical, physical, and social-economic situations. There are many initiatives to understand and deal with the impacts in the country. The national government has issued key guiding policies for climate change. International agencies together with local stakeholders are working on strengthening the capacity in the policy formulations and implement actions to build community resilience. Universities are conducting research on climate change related at different scales. Cities and local governments are implementing innovations in adapting to the impacts of climate change and transiting toward green economy. This book summarizes and discusses the state-of-the-art regarding climate change in Indonesia including adaptation and mitigation measures. The primary readership of the book includes policy makers, scientists and practitioners of climate change actions in Indonesia and other countries facing similar challenges. Chapter "Carbon Stocks from Peat Swamp Forest and Oil Palm Plantation in Central Kalimantan, Indonesia" is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.

In tropical latitudes, monsoons trigger regimes of strong seasonal rainfall over the continents. Over the West African region, the rainfall has shown a strong variability from interannual to decadal time scales. The atmospheric response to global sea surface temperatures is the leading cause of rainfall variability in the West African Sahel. This thesis explores changes in the leading ocean forcing of Sahelian rainfall interannual variability. It anaylzes the dynamical mechanisms at work to explain the non-stationary sea surface temperature-forced response of anomalous rainfall. The underlying multidecadal sea surface temperature background is raised as a key factor that favors some interannual teleconnections and inhibits others. Results of this thesis are relevant for improving the seasonal predictability of summer rainfall in the Sahel.

The Role of Tropics in Climate Change: Global Case Studies uses a 20-chapter, easy-to-understand format to centralize the practical application ideas for functional metagenomics. This important resource not only includes chapters on next-generation sequencing technologies to study important biogeochemical cycles, degradation pathways and detoxification, but also gives insight into several tools that have been developed to integrate metadata and sequence data, allowing downstream comparative analyses of different datasets using several ecological indices. The book further explains newly developed techniques for sequencing DNA, generating shorter fragments than Sanger sequencing techniques to quickly read larger sequences in a shorter amount of time.

This volume enables readers to understand the complexity associated with climate change policy and the science behind it. For example, the author describes the criticism and defense of the widely known hockey stick temperature graph derived from combining instrumental data and proxy temperature indications using tree ring, ice core and other paleoclimatic data.

Readers will also learn that global warming cannot easily be avoided by reducing CO2 and other greenhouse gas emissions in rich countries. Not only is emissions reduction extremely difficult in rich countries, but demands such as the UN mandate to improve the lives of the poorest global citizens cannot be satisfied without significantly increasing global energy use, and CO2 emissions. Therefore, the author asserts that climate engineering and adaptation are preferable to mitigation, particularly since the science is less than adequate for making firm statements about the Earth s future climate.Readers will also learn that global warming cannot easily be avoided by reducing CO2 and other greenhouse gas emissions in rich countries. Not only is emissions reduction extremely difficult in rich countries, but demands such as the UN mandate to improve the lives of the poorest global citizens cannot be satisfied without significantly increasing global energy use, and CO2 emissions. Therefore, the author asserts that climate engineering and adaptation are preferable to mitigation, particularly since the science is less than adequate for making firm statements about the Earth s future climate."

Changes in earth's atmosphere, oceans, soil, weather patterns, and ecosystems are well documented by countless scientific disciplines. These manifestations of climate change harm public health. Given their goals and social responsibilities, influential health organizations recognize health impacts compounded by geography, social values, social determinants of health, health behaviors, and relationships between humans and environments primarily described in feminist ethics and environmental ethics. Health impacts are relevant to, but seldom addressed in bioethics, global health, public policy, or health or environmental policy. This book is the first to describe cultural, geographic, and socioeconomic factors that influence the regional significance of these impacts and frame them for bioethics and policy analyses.

Negative Emissions Technologies for Climate Change Mitigation provides a comprehensive introduction to the full range of technologies that are being researched, developed and deployed in order to transition from our current energy system, dominated by fossil fuels, to a negative-carbon emissions system. After an introduction to the challenge of climate change, the technical fundamentals of natural and engineered carbon dioxide removal and storage processes and technologies are described. Each NET is then discussed in detail, including the key elements of the technology, enablers and constraints, governance issues, and global potential and cost estimates. This book offers a complete overview of the field, thus enabling the community to gain a full appreciation of NETs without the need to seek out and refer to a multitude of sources.

The book presents a wide description of hydrographic conditions in the studied area of the Norwegian and Greenland Seas. Variability of the Atlantic Water properties have been presented on the basis of time series obtained from oceanographic measurements performed each summer from 2000 to 2007 by the Institute of Oceanology Polish Academy of Sciences. The warming observed in that period has been described in detail as well as cooling of the Atlantic Water flowing towards the Fram Strait in 2007. Furthermore, concepts regarding multi-branch structure of the West Spitsbergen Current have been presented, types of flows in individual branches as well as variability of the flows. Description of the structure, transports and variability of the sea currents is based mostly on hydrographic measurements and baroclinic calculations. The results confirm a leading role of the ocean in climate shaping and acknowledges the importance of the Thermohaline Circulation for the climate.

The 2021 IPCC report made one thing crystal clear - global climate change is here to stay. Time is up. We need to act or climate change will lead to inconceivable suffering by billions of people. Buying Time for Climate Action is the combined narrative of world class experts, all committed to help humanity survive its largely self-induced destructive course. Changing that course requires urgent action. Determining which actions will lead to helpful change requires insights into the stumbling blocks that always emerge when actions aimed at change are planned, resulting in lost time. The experts who contributed to this volume, through their expertise, networks, wisdom and creativity, have largely concluded that the way to cope with the stumbling blocks is to avoid them by focusing on grassroots initiatives. Their narratives and discussions, presented in this book, highlight such thinking.The book is essential reading for anyone committed to help avoid an existential disaster for humanity, and ready to move plans into effective action.

This book aims, through its chapters, at providing the knowledge to make competent decisions, convince peers or top management to take appropriate action, or beat out the competition for climate adaptation measures including adjustments for design and operations. Topics discussed include business-as-usual vs. divergence; the effects of public pressure on corporate, industrial and government decision making; techniques for gathering the proper information to assess risks and hazards; the importance determining risk tolerance thresholds; the difference between tolerable risks, intolerable ones that benefit from mitigation and those that require strategic shifts; why common practice approaches such as FMEA, and risk matrices are inadequate in today's world and do not help ensure infrastructural and systemic resilience and sustainability. Case histories and three complete case studies that can be adapted to any industry or project walk the reader step by step from client request to recommendations and conditions of validity. The ultimate aim is to understand how to reduce risks to tolerable and societally acceptable levels while simultaneously creating sustainable and ethical systems.

This bookintroduces a key issue in research on the climatic impact of land cover and land use changes via terrestrial biogeophysical processes. The parameterization of surface processes and a systematic approach to modeling the climatic impacts of land use change are discussed respectively, and can be used to improve parameterization schemes for climate numerical models and to provide a systematic method, thus offering more scientific and enhanced support for research on the climatic effects of land use/cover change. Further, based on predictions and scenario analyses of land use changes in typical zones, the climatic impact of various types of changes in different areas can be simulated through climatic numerical modeling, the simulation results are suitable for use in climate mitigation, land use planning, urban development planning, etc. Thus, the book is intended for researchers and professionals working in the area of meteorology systems, climatic numerical modeling, climate change, and land use/cover change, as well as decision makers in meteorology and land use planning.
Professor Xiangzheng Deng is a senior research fellow at the Institute of Geographical Sciences and Natural Resources Research, Chinese Academy of Sciences."

The papers assembled here cover topics such as technological advances in soil salinity mapping and monitoring, management and reclamation of salt-affected soils, use of marginal quality water for crop production, salt-tolerance mechanisms in plants, biosaline agriculture and agroforestry, microbiological interventions for marginal soils, opportunities and challenges in using marginal waters, and soil and water management in irrigated agriculture.

Climate change highlights the challenges for long-term policy making in the face of persistent and irreducible levels of uncertainties. It calls for the development of flexible approaches, innovative governance and other elements that contribute to effective and adaptive decision-making. Exploring these new approaches is also a challenge for those involved in climate research and development of adaptation policy.

The book provides a dozen real-life examples of adaptation decision making in the form of case studies:

. Water supply management in Portugal, England and Wales and Hungary

. Flooding, including flood risk in Ireland, coastal flooding and erosion in Southwest France, and flood management in Australia s Hutt River region

. Transport and utilities, including the Austrian Federal railway system, public transit in Dresden, and Quebec hydro-electric power

. Report examining communication of large numbers of climate scenarios in Dutch climate adaptation workshops."

Global warming reveals that world energy consumption is on an unsustainable path. This updated second edition of The New Energy Crisis examines the impact of climate change on energy economics and geopolitics, exploring key issues such as energy poverty, renewable and nuclear energy, and focusing on the implications of the Fukushima crisis.

This study analyzes the spatial-temporal pattern and processes of China's energy-related carbon emissions. Based on extensive quantitative analysis, it outlines the character and trajectory of China's energy-related carbon emissions during the period 1995-2010, examining the distribution pattern of China's carbon emissions from regional and sectoral perspectives and revealing the driving factors of China's soaring emission increase. Further, the book investigates the supply chain carbon emissions (the carbon footprints) of China's industrial sectors. Anthropogenic climate change is one of the most serious challenges currently facing humankind. China is the world's largest developing country, top primary energy consumer and carbon emitter. Achieving both economic growth and environmental conservation is the country's twofold challenge. Understanding the status, features and driving forces of China's energy-related carbon emissions is a critical aspect of attaining global sustainability. This work, for the first time, presents both key findings on and a systematic evaluation of China's carbon emissions from energy consumption. The results have important implications for global carbon budgets and burden-sharing with regard to climate change mitigation. The book will be of great interest to readers around the world, as it addresses a topic of truly global significance.

This book addresses the global need to transition to a low-carbon society and economy by 2050. The authors interrogate the dominant frames used for understanding this challenge and the predominant policy approaches for achieving it. Highlighting the techno-optimism that informs our current understanding and policy options, Kirby and O'Mahony draw on the lessons of international development to situate the transition within a political economy framework. Assisted by thinking on future scenarios, they critically examine the range of pathways being implemented by both developed and developing countries, identifying the prevailing forms of climate capitalism led by technology. Based on evidence that this is inadequate to achieve a low-carbon and sustainable society, the authors identify an alternative approach. This advance emerges from community initiatives, discussions on postcapitalism and debates about wellbeing and degrowth. The re-positioning of society and environment at the core of development can be labelled "ecosocialism" - a concept which must be tempered against the conditions created by Trumpism and Brexit.

This thesis presents an impressive summary of the potential to use passive seismic methods to monitor the sequestration of anthropogenic CO2 in geologic reservoirs. It brings together innovative research in two distinct areas - seismology and geomechanics - and involves both data analysis and numerical modelling. The data come from the Weyburn-Midale project, which is currently the largest Carbon Capture and Storage (CCS) project in the world. James Verdon's results show how passive seismic monitoring can be used as an early warning system for fault reactivation and top seal failure, which may lead to the escape of CO2 at the surface.

This is an extraordinary book that tackles the requirement, as laid down in the UN Framework Convention on Climate Change, to save our climate for future generations. By approaching this requirement from various angles (international law, human rights, ethics, economics, etc.), Lawrence achieved a unique result: he succeeded in turning a vague aspirational norm into concrete actions that need to be taken by us today.' - Jonathan Verschuuren, Tilburg Sustainability Center and Tilburg Law School, The NetherlandsJustice for Future Generations breaks new ground by discussing what ethical obligations current generations have towards future generations in addressing the threat of climate change and how such obligations should be embodied in international law. Peter Lawrence uses an interdisciplinary approach, involving discourse theory, international relations theory, and philosophical concepts of ethics and justice to inform discussion of international law. Recent political science theories are used to show why the current global climate change treaties are so weak in addressing intergenerational justice concerns. The book draws on contemporary theories of justice to develop a number of principles used to critique the existing global climate change treaties. These principles are also used as a blueprint for suggestions on how to develop a much-needed global treaty on climate change. The approach is pragmatic in that the justice-ethics argument rests on widely shared values. Moreover, the book is informed by the author's extensive experience in the negotiation of global environmental treaties as an Australian diplomat. With its interdisciplinary approach and focus on intergenerational justice, this detailed study will be of particular interest to academics and policymakers in international environmental law and climate law, as well as to those in international law with an interest in ethics and justice issues. Contents: 1. Introduction: The Climate Change Problem and Solutions Part 1: Theory 2. The Basis of an Obligation Towards Future Generations in Justice and Ethics in the Context of Climate Change 3. Content of Justice-based Obligations Towards Future Generations in the Context of Climate Change Part II: International Law and Politics 4. Current International Law, Intergenerational Justice and Climate Change 5. International Human Rights Law, Intergenerational Justice and Climate Change 6. Climate Change Discources and Intergenerational Justice Part III: The Way Forward and Conclusion 7. The Way Forward - Incorporating Intergenerational Justice Principles into International Climate Law 8. Conclusion Bibliography Index

This book puts the spotlight on Southern Africa, presenting a cutting-edge concept never previously explored in the context of climate change and putting forward arguments for regional integration and cooperation. The Climate Resilient Infrastructure Development Facility (CRIDF) is the new water infrastructure program of the UK Department for International Development (DFID) for Southern Africa. The CRIDF promotes the establishment of small to medium-scale infrastructure across the Southern African Development Community (SADC) through technical assistance aimed at developing sustainable pro-poor projects, while also facilitating access to the financial resources needed to deliver said infrastructure. Further, it focuses on regional water resource management goals and basin plans, as well as on building climate resilience for the beneficiary communities. The Facility's Virtual Water and Nexus Project works to improve regional peace dividends by translating the Nexus concept into national and regional policies; it ultimately promotes sovereign security through greater regional integration across the water, food and energy sectors, while taking into account potential benefits in connection with carbon sequestration and emission mitigation.

Contemporary cities face phenomenal risks, and they face particularly high levels of mounting social and environmental risks, including social polarization, urban conflicts, riots, terror, and climate change threats. This book suggests that climate change and its resulting uncertainties challenge the concepts, procedures, and scope of conventional approaches to planning, creating a need to rethink and revise current planning methods. Therefore, this book suggests a paradigm shift in our thinking, interrogation, and planning of our cities. Based on the contemporary conditions of risk at cities, this book conceptualizes the risk city as a construct of three interlinked concepts of risk, trust, and practice. It is a construct of risk and its new evolving conditions and knowledge of uncertainties stem from climate change and other risks and uncertainties. As a construct of practices, the risk city produces social and political institutional framework and promotes practices accordingly in order to reduce risk and risk possibilities and to increase trust. In light of the complex challenges and risks to the human habitat that have emerged in recent years, many cities have prepared various types of plans aimed at addressing the challenges posed by climate change. Nonetheless, despite the importance of these plans and the major public resources invested in their formulation, we still know little about them and have yet to begin studying them and assessing their contributions . From the innovative perspective of the risk city, this book asks critical questions about the nature, vision, practices, and potential impact of the recent climate change-oriented plans. What kinds of risks do they attempt to address, what types of practices do they institute, and what types of approaches do they apply? Do they adequately address the risks and uncertainties posed? How do they contribute to the worldwide effort to reduce greenhouse gas emissions? This book uses the methodologically innovative Risk City framework to examine the nature, vision, outcomes, practices, and impact of these crucial plans, as well as their contribution to the resilience of our cities and to global efforts toward reducing greenhouse gas emissions.