Catalogue Search | MBRL
Are you sure you want to remove the book from the shelf?
{{itemTitle}}
20,102
result(s) for
"Climate Mitigation"
Sort by:
Cities responding to climate change : Copenhagen, Stockholm and Tokyo
This book explores the climate policy approaches established by various city governments. It details the strategies, plans and initiatives that have so far been designed to both mitigate and adapt to the impacts of global warming. In doing so, it considers the implications of the actions taken by leading cities and its effects on underlying theoretical assumptions relating to policy development and management processes in achieving climate policy outcomes. The book establishes an analytical framework that critically examines the application of performance management by city governments in their policy responses to climate change. It draws its focus on the city governments of Copenhagen, Stockholm and Tokyo to bring together and discuss the concepts, strategies and practices that have since been introduced to respond to the climate challenges faced.0.
Book
Net zero-emission pathways reduce the physical and economic risks of climate change
Mitigation pathways exploring end-of-century temperature targets often entail temperature overshoot. Little is known about the additional climate risks generated by overshooting temperature. Here we assessed the benefits of limiting overshoot. We computed the probabilistic impacts for different warming targets and overshoot levels on the basis of an ensemble of integrated assessment models. We explored both physical and macroeconomic impacts, including persistent and non-persistent climate impacts. We found that temperature overshooting affects the likelihood of many critical physical impacts, such as those associated with heat extremes. Limiting overshoot reduces risk in the right tail of the distribution, in particular for low-temperature targets where larger overshoots arise as a way to lower short-term mitigation costs. We also showed how, after mid-century, overshoot leads to both higher mitigation costs and economic losses from the additional impacts. The study highlights the need to include climate risk analysis in low-carbon pathways.Mitigation pathways allowing for temperature overshoot often ignore the related climate and macroeconomic impacts. Net-zero pathways with limited overshoot could reduce low-probability high-consequence risks and economic loss.
Journal Article
Status of climate change adaptation in Asia and the Pacific
\"This volume provides an overview of the climate change adaptation objectives set, actions taken, and challenges faced by several countries in the Asia-Pacific region. The majority of the populations in this region struggle to make a living from subsistence agriculture, and livelihoods are highly dependent on natural ecosystem services which are likely to be severely affected by climate change. Cases discussed in this book highlight successes made by governments towards achieving adaptation objectives, and efforts required to overcome challenges. While significant economic advances have been made, the pace of growth has been slow to impact the lives of a majority of the people who live below the poverty line. The chapters highlight adaptation actions for protecting people and their livelihoods in priority sectors, maintaining food and water security, supporting socio-economic stability including poverty reduction, and climate risk management. This book also maximizes readers' insights into the knowledge gaps and limitations of stated adaptation goals, and the bottlenecks that hinder implementation in different regions\"--Page 4 of cover.
Book
Integrated life-cycle assessment of electricity-supply scenarios confirms global environmental benefit of low-carbon technologies
Decarbonization of electricity generation can support climate-change mitigation and presents an opportunity to address pollution resulting from fossil-fuel combustion. Generally, renewable technologies require higher initial investments in infrastructure than fossil-based power systems. To assess the tradeoffs of increased up-front emissions and reduced operational emissions, we present, to our knowledge, the first global, integrated life-cycle assessment (LCA) of long-term, wide-scale implementation of electricity generation from renewable sources (i.e., photovoltaic and solar thermal, wind, and hydropower) and of carbon dioxide capture and storage for fossil power generation. We compare emissions causing particulate matter exposure, freshwater ecotoxicity, freshwater eutrophication, and climate change for the climate-change-mitigation (BLUE Map) and business-as-usual (Baseline) scenarios of the International Energy Agency up to 2050. We use a vintage stock model to conduct an LCA of newly installed capacity year-by-year for each region, thus accounting for changes in the energy mix used to manufacture future power plants. Under the Baseline scenario, emissions of air and water pollutants more than double whereas the low-carbon technologies introduced in the BLUE Map scenario allow a doubling of electricity supply while stabilizing or even reducing pollution. Material requirements per unit generation for low-carbon technologies can be higher than for conventional fossil generation: 11–40 times more copper for photovoltaic systems and 6–14 times more iron for wind power plants. However, only two years of current global copper and one year of iron production will suffice to build a low-carbon energy system capable of supplying the world's electricity needs in 2050.
Significance Life-cycle assessments commonly used to analyze the environmental costs and benefits of climate-mitigation options are usually static in nature and address individual power plants. Our paper presents, to our knowledge, the first life-cycle assessment of the large-scale implementation of climate-mitigation technologies, addressing the feedback of the electricity system onto itself and using scenario-consistent assumptions of technical improvements in key energy and material production technologies.
Journal Article
It's not that radical : climate action to transform our world
\"For too long, representations of climate action in the mainstream media have been white-washed, green-washed and diluted to be made compatible with capitalism. We are living in an economic system which pursues profit above all else; harmful, oppressive systems that heavily contribute to the climate crisis, and environmental consequences that have been toned down to the masses. Tackling the climate crisis requires us to visit the roots of poverty, capitalist exploitation, police brutality and legal injustice. Climate justice offers the real possibility of huge leaps towards racial equality and collective liberation as it aims to dismantle the very foundations of these issues. In this book, Mikaela Loach offers a fresh and radical perspective for real climate action that could drastically change the world as we know it for the benefit of us all. Written with candour and hope, It's Not That Radical will galvanise readers to take action, offering an accessible and transformative appraisal of our circumstances to help mobilise a majority for the future of our planet\"--Publisher's description.
Book
Extraterritoriality and Climate Change Jurisdiction
This book builds on the scholarship of the law of state jurisdiction, engaging with fundamental questions about states’ legislative competence to respond to climate change. Considering general theory, the author advocates for a systemic analytical framework for the contested issue of ‘extraterritoriality’ in international law. Exploring the crystallisation of ‘climate change jurisdiction’, the book provides a comprehensive exploration of the jurisdictional bases and limitations for unilateral climate protection measures. In doing so, crosscutting issues of world trade law, international civil aviation law, the law of the sea, and importantly, the customary international law of state jurisdiction are considered. Amidst the myriad of developing norms, a novel ‘considerate design’ tool is introduced to assist policymakers in finding a better balance between regulatory autonomy, development needs and the protection of common concerns. Volume 83 in the series Studies in International Law
eBook
Errors and uncertainties in a gridded carbon dioxide emissions inventory
Emission inventories (EIs) are the fundamental tool to monitor compliance with greenhouse gas (GHG) emissions and emission reduction commitments. Inventory accounting guidelines provide the best practices to help EI compilers across different countries and regions make comparable, national emission estimates regardless of differences in data availability. However, there are a variety of sources of error and uncertainty that originate beyond what the inventory guidelines can define. Spatially explicit EIs, which are a key product for atmospheric modeling applications, are often developed for research purposes and there are no specific guidelines to achieve spatial emission estimates. The errors and uncertainties associated with the spatial estimates are unique to the approaches employed and are often difficult to assess. This study compares the global, high-resolution (1 km), fossil fuel, carbon dioxide (CO2), gridded EI Open-source Data Inventory for Anthropogenic CO2 (ODIAC) with the multi-resolution, spatially explicit bottom-up EI geoinformation technologies, spatio-temporal approaches, and full carbon account for improving the accuracy of GHG inventories (GESAPU) over the domain of Poland. By taking full advantage of the data granularity that bottom-up EI offers, this study characterized the potential biases in spatial disaggregation by emission sector (point and non-point emissions) across different scales (national, subnational/regional, and urban policy-relevant scales) and identified the root causes. While two EIs are in agreement in total and sectoral emissions (2.2% for the total emissions), the emission spatial patterns showed large differences (10~100% relative differences at 1 km) especially at the urban-rural transitioning areas (90–100%). We however found that the agreement of emissions over urban areas is surprisingly good compared with the estimates previously reported for US cities. This paper also discusses the use of spatially explicit EIs for climate mitigation applications beyond the common use in atmospheric modeling. We conclude with a discussion of current and future challenges of EIs in support of successful implementation of GHG emission monitoring and mitigation activity under the Paris Climate Agreement from the United Nations Framework Convention on Climate Change (UNFCCC) 21st Conference of the Parties (COP21). We highlight the importance of capacity building for EI development and coordinated research efforts of EI, atmospheric observations, and modeling to overcome the challenges.
Journal Article
Clearing the air : a hopeful guide to solving climate change - in 50 questions and answers
We can't afford to delay climate action, but with all the shouting and disagreement it's hard to know where to turn. In her book, Hannah Ritchie answers 50 key climate questions once and for all, clearing the air so we can get on and fix things. With so many conflicting headlines out there, it's tough to sort fact from fiction when it comes to climate change and the solutions we need for a cleaner future. The first piece of good news is that data scientist Hannah Ritchie is here with answers, and the steps we need to take now. Using simple, clear data, she tackles questions such as, 'Is it too late?', 'Won't we run out of minerals?' and 'Are we too polarised?'. The second piece of good news: the truth is way more hopeful than you might think. We're at a critical moment for our planet, and getting the facts straight is step one. But even more crucial is feeling hopeful about what we can do next.
BOOK
Integrated assessment model diagnostics: key indicators and model evolution
Integrated assessment models (IAMs) form a prime tool in informing about climate mitigation strategies. Diagnostic indicators that allow comparison across these models can help describe and explain differences in model projections. This increases transparency and comparability. Earlier, the IAM community has developed an approach to diagnose models (Kriegler (2015 Technol. Forecast. Soc. Change 90 45–61)). Here we build on this, by proposing a selected set of well-defined indicators as a community standard, to systematically and routinely assess IAM behaviour, similar to metrics used for other modeling communities such as climate models. These indicators are the relative abatement index, emission reduction type index, inertia timescale, fossil fuel reduction, transformation index and cost per abatement value. We apply the approach to 17 IAMs, assessing both older as well as their latest versions, as applied in the IPCC 6th Assessment Report. The study shows that the approach can be easily applied and used to indentify key differences between models and model versions. Moreover, we demonstrate that this comparison helps to link model behavior to model characteristics and assumptions. We show that together, the set of six indicators can provide useful indication of the main traits of the model and can roughly indicate the general model behavior. The results also show that there is often a considerable spread across the models. Interestingly, the diagnostic values often change for different model versions, but there does not seem to be a distinct trend.
Journal Article