This volume provides a valuable introduction to hybrid I-O analysis and therefore should be useful to the growing number of researchers working with these techniques. Timothy J. Considine, Journal of Industrial Ecology This is a first-rate piece of work. . . Dr Hoekstra s book is the most comprehensive assessment of economic decomposition analysis to date. The author has clarified some confusions, filled in some important gaps in the literature and extended the methods both conceptually and empirically. He has done a most thorough job of constructing hybrid input output tables and applied them to the important issue of trends in material production use. His use of SDA for forecasting and backcasting of trends and policy making is also very impressive. Adam Rose, Pennsylvania State University, US Rutger Hoekstra examines the complex relationship between the monetary economy and the materials flows that are extracted and emitted by economic activities. These physical flows are responsible for many important environmental problems such as unsustainable resource depletion, waste production and climate change. This book discusses, applies and improves upon techniques which link the monetary and physical economies for environmental analyses. The book uses two sources of analysis: the physical input-output table (PIOT), a macro-economic account for the physical economy, recording material and product flows, including resource extraction, emissions and recycling; and structural decomposition analysis (SDA), which assesses the influence of structural changes, such as economic growth, consumption shifts, export growth and technological change, on environmental indicators. Methodological improvements in the PIOT and SDA systems are then presented by the author, and applied to empirical data. Ecological and industrial economists, along with those with an interest in environmental problems associated with the economy will find this book, with its extensive historical analysis and novel fore- and back-casting models, to be a fascinating read.
This report presents global projections of materials use and their environmental consequences, providing a quantitative outlook to 2060 at the global, sectoral and regional levels for 61 different materials (biomass resources, fossil fuels, metals and non-metallic minerals). It explains the ...
It gives me great pleasure to review this important book. I recommend it highly to any physicist with an interest or curiosity about this economy thing within which we operate. . . There is no excuse not to get this invaluable volume onto your bookshelf. Simon Roberts, Institute of Physics Energy Group This book addresses a very important topic, namely economic growth analysis from the angle of energy and material flows. The treatment is well balanced in terms of research and interpretation of the broader literature. The book not only contains a variety of empirical indicators, statistical analyses and insights, but also offers an unusually complete and pluralistic view on theorizing about economic growth and technological change. This results in a number of refreshing perspectives on known ideas and literatures. The text is so attractively written that I found it very difficult to stop reading. All in all, this is a very original and important contribution to the everlasting debate on growth versus environment. Jeroen C.J.M. van den Bergh, University of Barcelona, Spain and Free University, Amsterdam, The Netherlands Would you want your great-grandchildren in 2100AD to have a 22nd-century industrial economy? If so, read this book to grasp how strongly wealth depends on energy and its efficient use. Start treating fossil energy not as continuing income, but as one-time energy capital to spend on efficiency and long-term sustainable energy production. Otherwise, your descendants will inherit a broken 20th-century economy that only worked with cheap fossil fuels. They will not be rich and they will wonder what their ancestors were thinking. John R. Mashey, PhD, former Chief Scientist, Silicon Graphics Current economic theory attributes most income growth to technical progress. However, since technical progress can neither be defined nor measured, no one really knows what policies will encourage income growth. Ayres and Warr show that access to useful work, which can be defined and measured, explain the bulk of post-1900 income changes in Japan, Britain and the USA. They see rising real prices for fossil fuel and stagnating efficiencies of converting raw energy into useful work as a threat to continued income growth. This brilliant and original work has profound policy implications for future income growth without significant improvements in energy conversion efficiency. Thomas Casten, Chairman, Recycled Energy Development LLC Following the up-and-down energy shock of 2008, Ayres and Warr offer a unique analysis critical to our economic future. They argue that useful work produced by energy and energy services is far more important to overall GDP growth than conventional economic theory assumes. Their new theory, based on extensive empirical and theoretical analysis, has important implications for economists, businessmen and policymakers for anybody concerned with our economic future. Ayres and Warr argue persuasively that economic growth is not only endogenous but has been driven for the past two centuries largely by the declining effective cost of energy. If their new theory is correct, the inevitable future rise of the real cost of energy (beyond the $147 oil price peak in July 2008), could halt economic growth in the US and other advanced countries unless we dramatically improve energy with technology. J. Paul Horne, independent international market economist The historic link between output (GDP) growth and employment has weakened. Since there is no quantitively verifiable economic theory to explain past growth, this unique book explores the fundamental relationship between thermodynamics (physical work) and economics. The authors take a realistic approach to explaining the relationship between technological progress, thermodynamic efficiency and economic growth. Their findings are a step toward the integration of neo-classical and evolutionary perspectives on endogenous economic growth, concluding in a fundam
The purpose of this handbook is to assist countries in the implementation of the System of National Accounts 1993. It seeks to provide an introduction to basic concepts and structures, with simple exercises included, whenever possible, to elucidate matters. The publication also gives an example of the complete system in Excel, with formulas to help readers trace linkages in the system. It is divided into three sections, dealing with accounts of the nation; integrated accounts by industries and institutional sectors; data collection and estimation methods.
The relentless pursuit of economic growth is the defining characteristic of contemporary societies. Yet it benefits few and demands monstrous social and ecological sacrifice. Is there a viable alternative? How can we halt the endless quest to grow global production and consumption and instead secure socio-ecological conditions that support lives worth living for all? In this compelling book, leading experts Giorgos Kallis, Susan Paulson, Giacomo D’Alisa and Federico Demaria make the case for degrowth - living well with less, by living differently, prioritizing wellbeing, equity and sustainability. Drawing on emerging initiatives and enduring traditions around the world, they advance a radical degrowth vision and outline policies to shape work and care, income and investment that avoid exploitative and unsustainable practices. Degrowth, they argue, can be achieved through transformative strategies that allow societies to slow down by design, not disaster. Essential reading for all concerned citizens, policy-makers, and students, this book will be an important contribution to one of the thorniest and most pressing debates of our era.
This book is purposefully styled as an introductory textbook on circular economy (CE) for the benefit of educators and students of universities. It provides comprehensive knowledge exemplified by practices from policy, education, R&D, innovation, design, production, waste management, business and financing around the world. The book covers sectors such as agriculture/food, packaging materials, build environment, textile, energy, and mobility to inspire the growth of circular business transformation. It aims to stimulate action among different stakeholders to drive CE transformation. It elaborates critical driving forces of CE including digital technologies; restorative innovations; business opportunities & sustainable business model; financing instruments, regulation & assessment and experiential education programs. It connects a CE transformation for reaching the SDGs2030 and highlights youth leadership and entrepreneurship at all levels in driving the sustainability transformation.
This book starts by discussing the global flows of energy and materials and changes caused by human activities. It then examines the limitations of anthropogenic energy and material flows and the consequences for the development of human society. Different scenarios for lifestyle patterns are correlated with the future development of the global energy supply and climate. As it provides a process engineering approach to the Earth system and global development, readers should have a basic understanding of mathematics, physics, chemistry and biology. This second edition also reflects new developments since the original publication: increases in anthropogenic energy and material flows due to significant economic growth in certain parts of the world, and recent changes in energy policy and technological development countries, such as Germany (the Energiewende, or transition to renewable energy sources), where goals have been defined and measures initiated for a future energy supply without fossil and nuclear sources. As such, it offers a valuable resource for undergraduate and graduate students as well as practicing experts alike.
How can we design more sustainable industrial and urban systems that reduce environmental impacts while supporting a high quality of life for everyone? What progress has been made towards reducing resource use and waste, and what are the prospects for more resilient, material-efficient economies? What are the environmental and social impacts of global supply chains and how can they be measured and improved? Such questions are at the heart of the emerging discipline of industrial ecology, covered in Taking Stock of Industrial Ecology. Leading authors, researchers and practitioners review how far industrial ecology has developed and current issues and concerns, with illustrations of what the industrial ecology paradigm has achieved in public policy, corporate strategy and industrial practice. It provides an introduction for students coming to industrial ecology and for professionals who wish to understand what industrial ecology can offer, a reference for researchers and practitioners and a source of case studies for teachers.
The world has changed dramatically. We no longer live in a world relatively empty of humans and their artifacts. We now live in the “Anthropocene,” era in a full world where humans are dramatically altering our ecological life-support system. Our traditional economic concepts and models were developed in an empty world. If we are to create sustainable prosperity, if we seek “improved human well-being and social equity, while significantly reducing environmental risks and ecological scarcities,” we are going to need a new vision of the economy and its relationship to the rest of the world that is better adapted to the new conditions we face. We are going to need an economics that respects planetary boundaries, that recognizes the dependence of human well-being on social relations and fairness, and that recognizes that the ultimate goal is real, sustainable human well-being, not merely growth of material consumption. This new economics recognizes that the economy is embedded in a society and culture that are themselves embedded in an ecological life-support system, and that the economy cannot grow forever on this finite planet. In this report, we discuss the need to focus more directly on the goal of sustainable human well-being rather than merely GDP growth. This includes protecting and restoring nature, achieving social and intergenerational fairness (including poverty alleviation), stabilizing population, and recognizing the significant nonmarket contributions to human well-being from natural and social capital. To do this, we need to develop better measures of progress that go well beyond GDP and begin to measure human well-being and its sustainability more directly.