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The JPI Climate – AXIS project “Unpacking climate impact CHAINs. A new generation of action – and user-oriented climate change risk assessments” (UNCHAIN) is approaching its end date (31.12.2022), and the project is looking for an opportunity to collect its remaining scientific publications into a Research Topic. The overall objective of UNCHAIN is to improve climate change risk assessment frameworks aimed at informed decision-making and climate change adaptation action through six methodological innovations: • To also cover the possible need for long-term and large-scale efforts of societal transformation; • To refine a structured method of co-production of knowledge and integrate this into impact modelling; • To develop and test an applicable framework for analyzing how societal change can affect local climate change vulnerabilities; • To develop and test a standardized analytical framework for addressing uncertainties involved in local decision-making on climate change adaptation; • To integrate the trans-national impacts of climate change; and, • To link mitigation and adaptation in climate risk and vulnerability assessments.
Climate change poses many challenges that affect society and the natural world. With these challenges, however, come opportunities to respond. By taking steps to adapt to and mitigate climate change, the risks to society and the impacts of continued climate change can be lessened. The National Climate Assessment, coordinated by the U.S. Global Change Research Program, is a mandated report intended to inform response decisions. Required to be developed every four years, these reports provide the most comprehensive and up-to-date evaluation of climate change impacts available for the United States, making them a unique and important climate change document. The draft Fourth National Climate Assessment (NCA4) report reviewed here addresses a wide range of topics of high importance to the United States and society more broadly, extending from human health and community well-being, to the built environment, to businesses and economies, to ecosystems and natural resources. This report evaluates the draft NCA4 to determine if it meets the requirements of the federal mandate, whether it provides accurate information grounded in the scientific literature, and whether it effectively communicates climate science, impacts, and responses for general audiences including the public, decision makers, and other stakeholders.
Extreme weather and climate events, interacting with exposed and vulnerable human and natural systems, can lead to disasters. This Special Report explores the social as well as physical dimensions of weather- and climate-related disasters, considering opportunities for managing risks at local to international scales. SREX was approved and accepted by the Intergovernmental Panel on Climate Change (IPCC) on 18 November 2011 in Kampala, Uganda.
Confronting Climate Uncertainty in Water Resources Planning and Project Design describes an approach to facing two fundamental and unavoidable issues brought about by climate change uncertainty in water resources planning and project design. The first is a risk assessment problem. The second relates to risk management. This book provides background on the risks relevant in water systems planning, the different approaches to scenario definition in water system planning, and an introduction to the decision-scaling methodology upon which the decision tree is based. The decision tree is described as a scientifically defensible, repeatable, direct and clear method for demonstrating the robustness of a project to climate change. While applicable to all water resources projects, it allocates effort to projects in a way that is consistent with their potential sensitivity to climate risk. The process was designed to be hierarchical, with different stages or phases of analysis triggered based on the findings of the previous phase. An application example is provided followed by a descriptions of some of the tools available for decision making under uncertainty and methods available for climate risk management. The tool was designed for the World Bank but can be applicable in other scenarios where similar challenges arise.
Climate Change and Cities bridges science-to-action for climate change adaptation and mitigation efforts in cities around the world.
This open access edited volume critically examines a coherence building opportunity between Climate Change Adaptation, the Sustainable Development Goals and Disaster Risk Reduction agendas through presenting best practice approaches, and supporting Irish and international case studies. The Covid-19 pandemic has highlighted existing global inequalities and demonstrated the scope and scale of cascading socio-ecological impacts. The impacts of climate change on our global communities will likely dwarf the disruption brought on by the pandemic, and moreover, these impacts will be more diffuse and pervasive over a longer timeframe. This edited volume considers opportunities to address global challenges in the context of developing resilience as an integrated development continuum instead of through independent and siloed agendas.
Through its exploration of the spatial dimension of risk, this book offers a brand new approach to theorizing risk, and significant improvements in how to manage, tolerate and take risks. A broad range of risks are examined, including natural hazards, climate change, political violence, and state failure. Case studies range from the Congo to Central Asia, from tsunami in Japan and civil war affected areas in Sri Lanka to avalanche hazards in Austria. In each of these cases, the authors examine the importance and role of space in the causes and differentiation of risk, in how we can conceptualize risk from a spatial perspective and in the relevance of space and locality for risk governance. This new approach - endorsed by Ragnar Löfstedt and Ortwin Renn, two of the world's leading and most prolific risk analysts - is essential reading for those charged with studying, anticipating and managing risks.
Cambridge, UK : Cambridge University Press, 1998.
Impacts of Climate Change on Rainfall Extremes and Urban Drainage Systems provides a state-of-the-art overview of existing methodologies and relevant results related to the assessment of the climate change impacts on urban rainfall extremes as well as on urban hydrology and hydraulics. This overview focuses mainly on several difficulties and limitations regarding the current methods and discusses various issues and challenges facing the research community in dealing with the climate change impact assessment and adaptation for urban drainage infrastructure design and management. Authors: Patrick Willems, University of Leuven, Hydraulics division; Jonas Olsson, Swedish Meteorological and Hydrological Institute; Karsten Arnbjerg-Nielsen, Technical University of Denmark, Department of Environmental Engineering; Simon Beecham, University of South Australia, School of Natural and Built Environments; Assela Pathirana, UNESCO-IHE Institute for Water Education; Ida Bulow Gregersen, Technical University of Denmark, Department of Environmental Engineering; Henrik Madsen, DHI Water & Environment, Water Resources Department; Van-Thanh-Van Nguyen, McGill University, Department of Civil Engineering and Applied Mechanics