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The discrepancy between ecologically conscious attitudes and actual behaviour is described as an inner resistance, and as connected with a propensity to ignore the external costs of wealth. Evidence is presented that this propensity is based on pro-material traits such as the positional attitude and the passion for goods. These traits are traced back to control orientation, whereas ecological responsibility is shown to be related to autonomy orientation. The societal origins of these basic orientations, and hence the conditions of reinforcing post-materially and ecologically minded behaviour, are discussed.
The Federal Republic of Germany committed itself in June 1990 to reduce its carbon dioxide emissions by 25% of the 1987 level by the year 2005, as a measure of slowing down the increase in the greenhouse effect. The issue of a human-caused climate change, however, did not surface in Germany for the first time just a few years ago. The potential threat was recognized a half a century ago. This article traces the history of the German climate change debate in the last 50 yr and discusses the forces and events that shaped it. The way in which various societal actors - among them scientists, the government, industry, non-governmental organizations (NGOs) and the media - entered into and influenced the debate is also examined. Unfolding the history of the global warming debate in Germany reveals how the country's current policy stance evolved.
Sustainable economy
(1994)
This paper claims that countries of the North must develop a new model of wealth - one less harmful to the environment and capable of being applied throughout the world. There are reasons to be hopeful they will do so: first, they have the means at their disposal; second, it is a misconception that environmental protection is a cost; and third, there is mounting pressure for change as indicated by air, water and soil quality data. The challenge is to move the emphasis away from end-of-the-pipe pollution control to improving resource productivity. The best way of doing this is through the imposition of "green taxes" to raise resource prices. If governments compensate by cutting other taxes to make the change revenue-neutral, there would be real benefits to the environment and the economy, particularly in developing countries.
Sustainable development, as it emerged in Agenda 21 from the Rio conference in 1992, will only be meaningful when it touches the lives of ordinary people; then it becomes a reality. Local Agenda 21 (LA21) seeks to achieve that objective. This article assesses the origins of LA21, reviews its social and political significance, and considers its prospects in the light of case study experience emerging from the UK, Germany and Norway, focusing on the role of local government as a major stakeholder in Agenda 21 (A21). The range of response to LA21 has proved to be varied. A successful transformation to a more sustainable world will require visionary political leadership, supportive administrations, networks of experience sharing, alliances with non‐governmental organisations and local industry, and effective community mobilisation. All of that, in turn, requires equally supportive economic and social policy backing from national governments. This article will indicate that, not surprisingly, it is the domestic political context, nationally and locally, which in the main determines the speed and nature of response to LA21, now and in the future. By understanding and being aware of these contexts, factors impeding progress towards LA21 may be addressed, whilst at the same time retaining the diversity of response which is an essential part of local sustainability.
In the discourse about sustainable development, "constant natural capital" is frequently referred to as a criterion for ecological sustainability. But what is "natural capital"? The concept will be analyzed by presenting arguments in favour of using the term and different versions of sustainability (strong and weak). Subsequently, a critique of the "natural capital" concept is brought forward, from an ecological as well as from an economic perspective. Following this critique, the use of material inputs and the material input per unit of service (MIPS) as a measure for the environmental impact potential is suggested. Dematerialisation is understood to be an alternative management rule for sustainability. In conclusion, a change of perspective is proposed. Due to the conceptual and measurement problems associated with the "constant-natural-capital" criterion (which refers to a stock), it seems more reasonable from a scientific as well as from a practical perspective to add flows (i.e. material inputs) to a decision criterion for whether a development is sustainable or not.
This paper compares the one-sector neoclassical (Solow) growth model with a neo-Austrian growth model. The solutions of the neoclassical growth model in terms of the golden rule of accumulation and the Ramsey rule are well known, and these conditions are compared with the outcomes of the neo-Austrian growth model, which we derive using a basic three-process model.
The issue or concept of "sustainable development" entered onto the public and political agenda only relatively recently, and, five years after signing Agenda 21, perceptions of it are still ambiguous. A review of organisational adjustments and of German communications to the United Nations Commission on Sustainable Development shows that the German government's level of commitment to Agenda 21 is still low. This view is supported by an assessment of developments, and the Government's poor performance so far, in three institutional indicators. However, there is evidence that some incremental steps towards a sustainability transition are being taken as in some areas of business and industry and local government attitudes are begining to change. In addition, awareness of sustainable development is being raised by the efforts of non‐governmental organisations and the scientific community. Generally though, the lack of institutional reorganisation is the major obstacle to a German sustainability transition. This is an expression of the generally low priority of environmental and global development issues in the aftermath of German unification and the related economic and social problems. The traditional economic paradigm where economic growth is believed to be the precondition for welfare prevails and is considered by a majority of decision‐makers not to be compatible with the sustainability transition.
Global climate
(1997)
Five years after the Earth Summit in Rio de Janeiro, the hesitancy of developed countries is turning out to be the main impediment to implementing an effective policy for sustainable development. Alongside the further development of international environmental regimes, setting up national action plans is necessary to close the action-gap in the North. However, this can only succeed if the action plans include binding objectives that can be monitored and evaluated. Current national strategies for sustainable development only meet this criterion in exceptional cases; in most cases only qualitatively and legally nonbinding objectives are included. In the present paper, a suggestion for a cluster of environmental policy targets is put forth, which - using Germany as an example - establishes the sustainability concept at the national level. Particular emphasis is placed on the normative dimension of target setting.
Global climate
(1998)
This report will first provide a brief account of the political developments that led to the adoption of the Kyoto Protocol. Second, it will provide a preliminary analysis of the Kyoto Protocol itself, and, third, it will assess the prospects for the further development of international climate policy and law in 1998 and beyond. Developments outside of the Kyoto negotiations will be included to further elucidate the actual international negotiations.
The European Commission has established the Eco Management and Auditing Scheme (EMAS) to promote and institutionalize corporate environmental management and environmental audits. This article summarizes a study primarily concerned with the execution of an ecoaudit in a medium-sized furniture enterprise according to the rules of EMAS. Material flow accounting was used to assess and analyze the "gate-to-gate" and "cradle-to-grave" environmental impacts related to the firm's products and activities. A resource management strategy was developed that permits the determination of methods for firm-specific material flow management, product management, and ecological product design to improve environmental performance as seen from the vantage point of resource efficiency.
Differences in climate change policy in Germany and the U.S. from a political science perspective
(1998)
International and national climate change policies may either mutually support or block each other. The international political debate can on the one hand be a driving force, mainly because of its "agenda-setting" power for the national political debate, but on the other hand the outcome of international climate change policy depends on the capability of national governments to formulate adequate political goals and programs, and to have the power for their realisation and implementation in the national political process.
The following analysis will focus on the differences in climate change policy in Gerrnany and the United States. From a po1itical science perspective, it has to deal with the determinants and restrictions of the policy-making processes and their impact on policy formulation and implementation in both countries. Two kinds of determinants will be considered: structural "internal" determinants deriving from the specific setting and mode of operation of the political-administrative systems, and external determinants, such as public opinion, the role of the media. interest groups, and cultural values, which favour or restrict the process of a pro-active climate change policy.
"Joint Implementation" (JI) is considered by many participants in the international negotiations on aclimate protocol to be an important economic instrument for the implementation of greenhouse gas obligations. Apart from a wide range of problems that still have to be resolved on the project level, the institutional and procedural design of such a mechanism is of vital importance. Because JI has a "perverse incentive" to overstate results achieved by individual projects, careful reporting, monitoring and verification procedures are essential. Furthermore, the institutional structure must reconcile the sometimes conflicting demands of overall effectiveness and cost-effectiveness. This paper explores the possible design of a future international mechanism for JI and makes recommendations with regard to the institutional and procedural requirements.
Since the early 1980s, there has been a lively discussion about the rhetoric of economics. Ecological economists, however, so far have not tried to incorporate this discussion into their work. This paper is a first step towards including the discourse on rhetoric into the self-awareness of ecological economics. After a brief outline of what this discourse is about, the importance of metaphors as one aspect of rhetoric is examined. Connections of the rhetorical discourse to ecological economics as a post-normal science are shown. It is argued that two rhetorics of ecological economics can be distinguished: internal and external rhetoric. While the former refers mostly to methodological issues, the latter is of particular importance for the political impact that ecological economics can have. Finally, some suggestions for research are made.
Statisticians avoid getting involved in data analysis, leaving data users on their own in interpreting the results of their work. This is particularly unfortunate in a new area of applied statistics such as environmental accounting with which few are really familiar. Earlier this year data producers and users explored, in a national seminar, possible policy applications of the results of a "green accounting" project in the Philippines. The main findings of the author's contribution to the seminar, on which the present paper is based, are that environmental accounts: (1) present evidence of sustainable economic performance in the country during the relatively short-time period of 1988–1994; (2) provide information for environmental cost internalization; (3) may guide investment to environmentally sound production processes; (4) help to specify and monitor policies of natural wealth conservation, distribution and management; and (5) reveal major data gaps. The paper concludes that environmental accounts help to assess the sustainability of economic growth in terms of broadly defined capital maintenance. The sustainability of development, however, would have to be measured by alternative or supplementary physical indicators linked to quantifiable standards or targets.
Global climate
(1999)
The discussion of sustainable development focused attention on new environmental goals and raised the issue of improving resource productivity. A first step towards sustainability would be to slow-down and reduce the man-induced movements of materials: this is the focus of dematerialization approach which emphasizes what socialist countries used to neglect most – minimizing the use of scarce input factors. This paper applies the dematerialization approach to the discussion on sustainable development in central and eastern Europe. In the early 1990s all countries in eastern Europe have developed new environmental programs which mainly focus on reducing pollution. Environmental strategies focusing on reducing emissions are important but not sufficient for reaching sustainability. A new orientation in the environmental policy in the young market economies is required. Dematerialization approach can be a new option for environmental policy in central and eastern Europe. Dematerialization requires a mix of instruments. Important role can be played by an ecological fiscal reform which covers ecological tax reform and the restructuring of subsidies.
It is not the scarcity of resources that constitutes environmental problems, but their use, the physical throughput of our economies. Material flows are a proxy for the totality of the unspecific environmental risks from human activities. As a strategic goal, an increase of the life-cycle-wide resource productivity by a factor 10 is suggested, including the materials bought and sold and the not-valued materials: we have to take into account the product itself and its "ecological rucksack". Material flows are best measured at the input side of the economy, where their number as well as the number of entry gates is limited. Thus here regulation and economic incentives can work more efficiently and less bureaucratically than today. The material intensity of products and services can be expressed as MIPS, the material input per unit of service, and as TMR, the total material requirement on the macro level, an important element in physical input–output tables.
Dematerialization, MIPS and factor 10 : physical sustainability indicators as a social device
(1999)
Sustainable development is the globally embraced paradigm for integrating environment and development policies. Agreement ends with attempts at quantifying the elusive notion of sustainability. A contentious debate among "environmentalists" and "environmental economists" has brought about a confusing proliferation of indicators and policy advice on sustainable development. Generating a common language by means of integrated physical and monetary environmental accounting could moderate the debate. Economic and ecological sustainability is thus distinguished and operationalised in terms of capital maintenance and dematerialisation of economic activity. Empirical results presented are not conclusive, however. Moreover, the reconciliation of environmental and economic policies requires more than comparable statistics strategies and instruments of environmental cost internalisation need to be evaluated and combined with those of raising resource productivity. A social compact between government and civil society should provide the necessary support for achieving consensus and partnership. The sustained implementation of sustainable development depends on it.
Sustainability as defined by the Brundtland Commission, is a composite and thus ambitious policy target. It comprises environmental, economic, social, and institutional criteria with equal importance. Because of this complexity the first step of a (Local) Agenda 21 process should be to develop a vision of a sustainable society - a "leitbild" - useful as a compass, not a road map (or, even worse, a blueprint), attached by indicators that help to measure progress, distance to target, and failures of plans or their implementations. In the following article a model is proposed how local sustainability indicators can be developed and how they can help to reduce the complexity of sustainability and to concretize a program for the Local Agenda 21. To get a practical impression of the theoretical presentation an example is given in the last part of the article. It shows the experiences made while developing sustainability indicators in the City of Iserlohn.
The contribution of natural resources and ecosystems to economic processes still remains under-assessed by market evaluation and productivity analysis. Following the historical lines of the classical productivity debate ranging from the French Physiocrats to early neoclassical growth theories, the productivity concept underwent a gradual transformation from its previous understanding based on natural resources and other environmental factors to its contemporary narrow notion. This paper claims that the course of the classical debate has shaped the scope of predominant contemporary analysis. Except for some very recent findings, multifactor productivity largely focusses on a two-factor model. Material Flow Analysis (MFA) provides a useful step for widening the measurement and notion of productivity.
Strategic Environmental Assessment aims to incorporate environmental and sustainability considerations into strategic decision making processes, such as the formulation of policies, plans and programmes. In order to be effective, the assessment must take the real decision making process as the departure point. Existing SEA approaches are frequently tailored after an EIA model conceived from a rational perspective on decision making. However, there are good reasons to assume that most strategic decision making processes are characterised by a bounded rationality. Furthermore, the predictability of environmental consequences generally becomes weaker at strategic levels than at the project level and complexity increases in terms of the numbers of actors involved in the decision. This paper examines various theoretical perspectives to decision making and discusses the implications for decision support in general and SEA in particular. The authors argue that the design of the SEA must be more sensitive to the real characteristics of the decision making context.
International climate policy is one of the most fascinating issues in foreign policy, yet in recent years it has become one of the most contentious. The failure of the conference in The Hague revealed, among other things, strongunderlying rifts in the transatlantic relationship. As the self-acclaimed worldleader, the United States is not in a position to exert leadership in this vital area owing to a mixture of constitutional constraints and an ever-growing cultural dependence on fossil fuels such as oil and gas. It therefore falls to the European Union to take up this challenge. This will require careful coalition building with the rest of the world as well as confidence in the ability of Europe to develop a united position, to stick to that position and to translate the rules of the Kyoto Protocol into stringent domestic climate policy. The climate change regime is at a crossroads. At the resumed COP-6 con-ference, the Parties must decide whether to continue the process under theassumption ‘that global problems require global solutions’ or whether to turn to the more regional concept of "think globally, act locally". In either case, steering climate policy in this century on to a successful path will require the skills and dedication not only of natural scientists and technology developers, but also of those in the foreign policy community.
The paper examines the "Declaration of German Industry on Global Warming Prevention (DGWP)" in its updated version of 1996. The analysis draws on the findings of empirical case studies in the cement and glass sector as well as on a general analysis of the policy process including monitoring experience so far. The findings emphasise the weak impact of the agreement on the most important driving forces for industrial energy consumption. However, an improved design and a more stringent procedural framework would allow better advantage to be taken of the particular strengths of the approach. The paper concludes by making a number of recommendations that would improve the scope and quality of commitments, and would enhance learning effects during the course of the policy process.
This article provides a short account of the international climate negotiations that took place in Bonn from 16 to 27 July 2001. After the Sixth Conference of the Parties to the Framework Convention on Climate Change failed in November 2000, the Parties had decided to suspend the meeting. The ministers present at the resumed session successfully adopted the "Bonn Agreement to the Kyoto Protocol", a set of political compromises for the most contentious issues left open by the Kyoto Protocol. Although many details had been transferred to the Seventh Conference of the Parties, November 2001 in Marrakesh, Morocco, the Bonn Agreement already paved the way for ratification of the Kyoto Protocol and its entry into force. The Marrakesh Accord adopted on 10 November 2001 transforms, with a few exceptions, this political agreement into bindinglegal text.
The objective of this paper is to identify those areas of consumption in which private households can make significant contributions to environmental sustainability, and to present a transparent and comprehensive set of indicators for them. The analysis of the environmental impacts of households focuses on consumption clusters that allow different life spheres of private households to be distinguished. Two criteria guided the investigation of the relevance of these clusters: (i) the environmental significance of the consumption cluster in terms of resource consumption, and (ii) the potential influence of households compared with other actors. Resource consumption was chosen as a simplified but reliable representation of environmental pressure dynamics. Growing resource consumption goes together with growing environmental pressures and vice versa, although not necessarily proportionally. The key resources analysed are energy and material consumption, and land use. Based on this analysis, three consumption clusters were identified as priority fields for action by households: construction and housing, food/nutrition and transport (in this order). All other consumption clusters can be considered environmentally marginal, providing combined saving potentials of less than 10% of the total resource consumption. Finally, from a description of the respective roles of actors based on anecdotal evidence, a semi-quantitative "actor matrix" is presented, indicating the relative influence of different actors in each consumption cluster.
Unsustainable consumption patterns of the North (or rather of the global affluent consumers class) have been identified by Agenda 21 as one of the key driving forces behind the unsustainable development. However, neither accounting based on the system of national accounts SNA nor household economics provide the proper instruments to assess the environmental impact of household decision making. Eco-efficiency assessments as familiar in the business sector provide no appropriate tool for households. As an alternative an environmental space based assessment scheme is suggested covering the major pressures on the environment caused by household decisions. The methodology is used twice: once to analyse the environmental relevance of the main activity clusters of household consumption and once to identify the dominant acts of consumption within each cluster. The latter provide the basis for deriving environmental performance indicators. A rough analysis of household influence potentials permits to identify housing, eating and mobility as the three priority fields for action for minimising the environmental impact of households. Extending the influence analysis actor matrixes are derived allocating influence and thus responsibility for environmental pressures to different groups of economic agents.
The paper summarises the findings and the work carried out within the Voluntary Agreements - Implementation and Efficiency project and examines five agreement schemes in the field of industrial energy efficiency in the Netherlands, Denmark, Germany, France and Sweden. It provides a brief characterisation of the different approaches and discusses the related implementation effort and transaction costs. An assessment of performance and environmental effectiveness is given, followed by a discussion of the transferability of voluntary agreements among countries and to the European level.
The paper sketches out a theoretical framework for analysing the interplay between eco-efficiency, cognition and institutions. It derives from analytical shortfalls of the prevailing literature, which features strongly engineering and business economics, by using insights from New Institutional Economics, from Cognitive Science and, partly, from Evolutionary Economics. It emphasises the role cognition and institutions play in the adoption of "green" technologies by firms. A cognitive perspective derives from recent research on simple heuristics and context-based rationality; it is proposed that those findings can serve to analyse decision-making of individual actors respectively firms and, thus, should complement economic analysis. A second proposition is that eco-efficiency and normative rules such as a Factor Four strongly rely upon institutions, i.e. the ability of institutions to evolve over time and the development of those institutions that are most appropriate to enhance technological change. In this regard, business institutions and competition are crucial, but regulatory needs remain in order to safeguard continuity of knowledge creation. The framework allows for an analysis why overall adoption of eco-efficiency still can be considered relatively slow and why some markets and firms are far ahead. As a brief case study the article reflects upon German waste law's ability to enhance eco-efficiency.
Rationale for and interpretation of economy-wide materials flow analysis and derived indicators
(2003)
Economy-wide material flow analysis (MFA) and derived indicators have been developed to monitor and assess the metabolic performance of economies, that is, with respect to the internal economic flows and the exchange of materials with the environment and with other economies. Indicators such as direct material input (DMI) and direct material consumption (DMC) measure material use related to either production or consumption. Domestic hidden flows (HF) account for unused domestic extraction, and foreign HF represent the upstream primary resource requirements of the imports. DMI and domestic and foreign HF account for the total material requirement (TMR) of an economy. Subtracting the exports and their HF provides the total material consumption (TMC). DMI and TMR are used to measure the (de-) coupling of resource use and economic growth, providing the basis for resource efficiency indicators. Accounting for TMR allows detection of shifts from domestic to foreign resource requirements. Net addition to stock (NAS) measures the physical growth of an economy. It indicates the distance from flow equilibrium of inputs and outputs that may be regarded as a necessary condition of a sustainable mature metabolism. We discuss the extent to which MFA-based indicators can also be used to assess the environmental performance. For that purpose we consider different impacts of material flows, and different scales and perspectives of the analysis, and distinguish between turnover-based indicators of generic environmental pressure and impact-based indicators of specific environmental pressure. Indicators such as TMR and TMC are regarded as generic pressure indicators that may not be used to indicate specific environmental impacts. The TMR of industrial countries is discussed with respect to the question of whether volume and composition may be regarded as unsustainable.
The reductionist trend of equating sustainable development with sustained economic growth needs to be reversed. New accounts and balances help to operationalize the elusive notion of sustainability: they provide a coherent picture of the interaction between environment and economy. "Greened" national accounts measure economic sustainability in terms of (produced and natural) capital maintenance; balances of material flows assess ecological sustainability as the dematerialization of production and consumption. Both concepts aim to preserve environmental assets, but differ in scope, strength and evaluation of sustainability. First results for Germany indicate weak sustainability of the economy; strong sustainability is not in sight because of insufficient reduction of material throughput. Attaining sustainability through integrated policies needs the support of share- and stakeholders of sustainable development.
This article proposes a policy framework for analysing corporate governance toward sustainable development. The aim is to set up a framework for analysing market evolution toward sustainability. In the first section, the paper briefly refers to recent theories about both market and government failures that express scepticism about the way that framework conditions for market actors are set. For this reason, multi-layered governance structures seem advantageous if new solutions are to be developed in policy areas concerned with long-term change and stepwise internalisation of externalities. The paper introduces the principle of regulated self-regulation. With regard to corporate actors| interests, it presents recent insights from theories about the knowledge-based firm, where the creation of new knowledge is based on the absorption of societal views. The result is greater scope for the endogenous internalisation of externalities, which leads to a variety of new and different corporate strategies. Because governance has to set incentives for quite a diverse set of actors in their daily operations, the paper finally discusses innovation-inducing regulation. In both areas, regulated self-regulation and innovation-inducing regulation, corporate and political governance co-evolve. The paper concludes that these co-evolutionary mechanisms may assume some of the stabilising and orientating functions previously exercised by framing activities of the state. In such a view, the government's main function is to facilitate learning processes, thus departing from the state's function as known from welfare economics.
Environment and human rights
(2004)
Wolfgang Sachs argues for environmental human rights as a fundamental prerequisite to end the violence of development. He outlines the numerous conflicts over natural resources in the struggle for livelihoods and argues for a transition to sustainability in the more affluent economies, in both the North and South, as a necessary condition for the safeguarding of the subsistence rights of those whose livelihood depends on direct access to nature.
In February 2000, the German Bundestag established a Study Commission on "Sustainable Energy Supplies in View of Globalisation and Liberalisation" (cf. Final Report, 2002). The Commission's Final Report is a contribution made by Germany toward implementing the sustainable development objectives defined in 1992 at the World Summit in Rio de Janeiro (Agenda 21). Despite minority votes of several members of the Study Commission, the main outcomes of the Final Report are worthwhile discussing in other industrial countries. The Commission had been given the mandate to identify "robust, sustainable development paths" for the energy sector for the period up to 2050, which represent a scientific basis for the German parliament's further decision-making in the field of long-term energy policy. The applied backcasting approach showed that an ambitious climate-protection goal - reducing CO2 emissions by 80% by 2050 - is technically and economically feasible. The main strategies and instruments for protecting the climate while ensuring asustainable energy supply are summarised.
Global climate
(2004)
The objective of analytical strategic environmental assessment (ANSEA) is to provide a decision-centred approach to the SEA process. The ANSEA project evolved from the realisation that, in many cases, SEA, as currently practised, is not able to ensure an appropriate integration of environmental values. The focus of SEA is on predicting impacts, but the tool takes no account of the decision-making processes it is trying to influence. At strategic decision-making levels, in turn, it is often difficult to predict impacts with the necessary exactitude. The decision-making sciences could teach some valuable lessons here. Instead of focusing on the quantitative prediction of environmental consequences, the ANSEA approach concentrates on the integration of environmental objectives into decision-making processes. Thus, the ANSEA approach provides a framework for analysing and assessing the decision-making processes of policies, plans and programmes (PPP). To enhance environmental integration into the decision-making process, decision windows (DW) can be identified. The approach is designed to be objective and transparent to ensure that environmental considerations are taken into account, or - from an ex-post perspective - to allow an evaluation of how far environmental considerations have been integrated into the decision-making process under assessment. The paper describes the concepts and the framework of the ANSEA approach and discusses its relation to SEA and the EC Directive.
Resource flows constitute the materials basis of the economy. At the same time, they carry and induce an environmental burden associated with resource extraction and the subsequent material flows and stocks, which finally end up as waste and emissions. A reduction of this material throughput and the related impacts would require a reduction of resource inputs. And breaking the link between resource consumption and economicgrowth would require an increase in resource productivity. Material flow analysis (MFA) can be used to quantify resource flows and indicate resource productivity. In this article, we study the available empirical evidence on the actual (de-)linkage of material resource use and economic growth. We compare resource use with respect to total material requirement (TMR) and direct material input (DMI) for 11 and 26 countries, respectively, and the European Union (EU-15). The dynamics of TMR, as well as of the main components are analysed in relation to economic growth in order to show whether there is a decoupling (relative or absolute) from GDP and a change of the metabolic structure in the course of economicdevelopment. DMI/cap so far only decoupled from GDP/cap in relative terms; that is, in most countries, it reached a rather constant level but - with the exception of Czech Republic - showed no absolute decline yet. TMR/cap was reduced in two high-income countries and one low-income country due to political influence. Changes in TMR were more influenced by hidden flows (HF) than by DMI. We analyse the dynamics of the structure and composition of TMR in the course of economic development. In general, the economic development of industrial countries was accompanied by a shift from domestic to foreign resource extraction. Different relations can be discovered for the share of biomass, fossil fuel resources, construction resources and metals and industrial minerals.
The development of this paper was inspired by the increase in the number of different eco-label like quality assurance schemes established in the European Union in the past few years. These schemes are flooding the market and the researchers raise the question, is there enough credibility in these schemes? This piece of research is based on 58 eco-labeling like food schemes and dissects them into the building blocks of the different factors that makes a scheme credible and analyses the structure of these blocks as well as a literature survey on the perceptions of both the consumers and producers to these schemes. The sort of credibility structure that the building blocks of the schemes (ownership, stakeholder dialogue, traceability, transparency, etc.) have created was discussed and it was questioned if they meet the expectations of the consumers. The main findings of the research indicate that although small groups of consumers may be satisfied with a number of the different schemes, the majority of them fall short of providing a credible quality assurance scheme. Improvements were suggested such as involving a more diverse range of stakeholders and expanding the responsibility of processors and retailers. An alternative to the current form of labeling is also discussed.
New energy efficiency policies have been introduced around the world. Historically, most energy models were reasonably equipped to assess the impact of classical policies, such as a subsidy or change in taxation. However, these tools are often insufficient to assess the impact of alternative policy instruments. We evaluate the so-called engineering economic models used to assess future industrial energy use. Engineering economic models include the level of detail commonly needed to model the new types of policies considered. We explore approaches to improve the realism and policy relevance of engineering economic modeling frameworks. We also explore solutions to strengthen the policy usefulness of engineering economic analysis that can be built from a framework of multidisciplinary cooperation. The review discusses the main modeling approaches currently used and evaluates the weaknesses in current models. We focus on the needs to further improve the models. We identify research priorities for the modeling framework, technology representation in models, policy evaluation, and modeling of decision-making behavior.
Global climate
(2005)
The first Meeting of the Parties to the Kyoto Protocol (MOP 1) took place from 28 November to 10 December 2005 in Montreal, in conjunction with the eleventh meeting of the Conference of the Parties to the Framework Convention on Climate Change (COP 11). This meeting signifies a successful start into a new era of international climate policy: The Kyoto Protocol, which in the past had been sometimes declared as being dead, has become operational.
The challenges of the meeting were framed along the "Three Is", Implementation, Improvement and Innovation. The first challenge (Implementation) entailed in particular the adoption of the Marrakesh Accords, the agreements reached at COP 7 in Marrakesh that set out the detailed rules for making the Kyoto Protocol operational. The second challenge (Improvement) referred to improving the work of the Framework Convention and the Kyoto Protocol in the near future. The third and most important challenge (Innovation) referred to the further evolution of the regime.
This article by Bettina Wittneben, Wolfgang Sterk, Hermann E. Ott und Bernd Brouns provides an account of the main developments in Montreal along the lines of the "Three Is". The paper concludes with an assessment and outlook on international climate policy.
Using natural gas for fuel releases less carbon dioxide per unit of energy produced than burning oil or coal, but its production and transport are accompanied by emissions of methane, which is a much more potent greenhouse gas than carbon dioxide in the short term. This calls into question whether climate forcing could be reduced by switching from coal and oil to natural gas. We have made measurements in Russia along the world's largest gas-transport system and find that methane leakage is in the region of 1.4%, which is considerably less than expected and comparable to that from systems in the United States. Our calculations indicate that using natural gas in preference to other fossil fuels could be useful in the short term for mitigating climate change.
Based on different current long-term energy scenarios the paper discusses the future perspectives of hydrogen in the German energy system as a representative example for the development of sustainable energy systems. The scenario analysis offers varying outlines of the future energy system that determine the possible role of hydrogen. The paper discusses the possibilities of expanding the share of renewable energy and the resulting prospects for establishing clean hydrogen production from renewable energy sources. Emphasis is given to the questions of an ecologically efficient allocation of limited renewable energy resources that can only be assessed from asystems analysis perspective. Findings from recent studies for Germany reveal a strong competition between the direct input into the electricity system and an indirect use as fuel in the transport sector. Moreover, the analysis underlines the paramount importance of reducing energy demand as the inevitable prerequisite for any renewable energy system.
Within one decade a fundamental choice will have to be made: Should the energy system follow the historical trends of risky and unsustainable energy use patterns? Or should it take the course towards sustainable development and climate protection, giving top priority to energy efficiency and to a broad mix of renewable energies? Both roads are technically feasible. "Back-casting"-scenarios could help to answer the question, what technological options are available for climate protection and how societal goals can be achieved in a cost-effective way. Lessons learned from world energy scenarios and possible implementation options will be discussed. A case study of the German Parliament ́s Enquete Commission on Sustainable Energy Systems will be taken as illustration. The analysis shows that sustainable energy systems can be financed and that economic growth can be decoupled from absolute levels of non-renewable energy consumption by stepping up energy productivity.
Holiday travel behavior, individual characteristics of holiday travelers and strategies to change holiday travel behavior are the subjects of this article. From the environmental perspective, the journey to the destinations is the most critical aspect of traveling. Based on a 2003 survey of 1991 German inhabitants, the kilometers traveled and the choice of transportation mode for holiday purposes have been quantified. According to the number of trips and kilometers traveled, four travel groups have been identified. The groups vary according to socio-demographics, psychological factors, number of holiday trips, and travel mode choice. Persons who traveled to more distant destinations also traveled more often and used air travel for more than 60% of their trips. For the other groups, car travel was more important. Correlating the four travel groups with greenhouse gas emissions reveals that the smallest group - the long-haul travelers - was responsible for 80% of the emissions of the whole sample. Income, education, and openness to change were main indicators of individual greenhouse gas emissions. Target group oriented strategies to reduce the environmental impact of holiday mobility are discussed against the background of 84 in-depth interviews conducted with selected representatives of the first survey.
Combining environmental with employment objectives, ecological tax reform (ETR) envisages a double dividend. While research has mainly focused on the socio-economic and environmental impacts of ETR, there is less literature on the social responses. This paper gives an overview and history of German ETR as well as investigating the understanding of perceptions and attitudes towards ETR of those being "subject to tax". The research is based on qualitative social research methods. As with the other PETRAS papers, interviews were conducted with policy-makers and business leaders and focus groups were formed with lay persons. The results show that responses of policy-makers and business leaders are modest. Although some criticisms about the specific design of the German ETR remain, complaints towards ETR are settled. Attitudes appear influenced by more fundamental convictions such as economic interest or altruistic views. In contrast, ETR appears to politicise common people. Attitudes are influenced by the overall comprehension of the ETR concept, the expected impacts, perceived information deficits, as well as a general distrust in politics. Our data show that the linking of environmental and employment objectives is not understood and not welcomed. In order to increase social acceptance, the paper discusses refocusing ETR on environmental objectives, modestly increasing the share of ETR revenue spent for environmental purposes, removing inconsistencies in the ETR design, and improving information policy.
In the long term, any definition of adequacy consistent with UNFCCC Article 2 will require increased mitigation efforts from almost all countries. Therefore, an expansion of emission limitation commitments will form a central element of any future architecture of the climate regime. This expansion has two elements: deepening of quantitative commitments for Annex B countries and the adoption of commitments for those countries outside of the current limitation regime. This article seeks to provide a more analytical basis for further differentiation among non-Annex I countries. To be both fair and reflective of national circumstances, it is based on the criteria of responsibility, capability and potential to mitigate. Altogether, non-Annex I countries were differentiated in four groups, each including countries with similar national circumstances: newly industrialized countries (NICs), rapidly industrializing countries (RIDCs), ‘other developing countries’, and least developed countries (LDCs). Based on the same criteria that were used for differentiating among non-Annex I countries, a set of decision rules was developed to assign mitigation and financial transfer commitments to each group of countries (including Annex I countries). Applying these decision rules results in (strict) reduction commitments for Annex I countries, but also implies quantifiable mitigation obligations for NICs and RIDCs, assisted by financial transfers from the North. Other developing countries are obliged to take qualitative commitments, but quantifiable mitigation commitments for these countries and the LDC group would be not justifiable. As national circumstances in countries evolve over time, the composition of the groups will change according to agreed triggers.
Accounting for the social dimension of sustainability : experiences from the biotechnology industry
(2006)
Accounting for the social dimension of sustainability proves to be a challenge for corporate practitioners, due to its intangible, qualitative nature and lack of consensus on relevant criteria. We suggest a semi-quantitative approach based on stakeholder involvement to identify relevant aspects for a sector specific assessment of the social dimension. Our case study on biotechnology illustrates that the dialogue with internal and external stakeholders enabled the creation of a key performance indicator (KPI) set to account for social sustainability in the early design stages of biotechnological processes and product development. Indicators for eight aspects are identified for the social assessment: health and safety, quality of working conditions, impact on employment, education and training, knowledge management, innovation potential, customer acceptance and societal product benefit, and social dialogue. We describe the integration of the KPI set in a software application, tailor made for practitioners of the sector, and highlight first user experiences.
In a German case study, environmental input-output analyses (eIOA) combined with NAMEA-type tables were conducted for eleven selected environmental pressure variables. (NAMEA is an acronym for national accounts matrix including environmental accounts.) The analyses were conducted to derive the production-cycle-wide resource use and environmental impact potentials of final-demand product groups. The methodology permits identification and preliminary ranking of 10 product chains along which about two-thirds of German production-born environmental pressures arise. The most relevant product groups are construction work, food, motor vehicles, basic metals, and electricity. The ten product groups are characterized by both high resource requirements and high residual outputs (air emissions, wastes). The EU policy areas of integrated product policy and sustainable use of natural resources may address these product chains as a priority in order to identify and explore the possibility of reducing the environmental impacts from products throughout their life cycles and to decouple environmental impacts from resource use.
Considering the enormous ecological and economic importance of the transport sector the introduction of alternative fuels - together with drastic energy efficiency gains - will be a key to sustainable mobility, nationally as well as globally. However, the future role of alternative fuels cannot be examined from the isolated perspective of the transport sector. Interactions with the energysystem as a whole have to be taken into account. This holds both for the issue of availability of energy sources as well as for allocation effects, resulting from the shift of renewable energy from the stationary sector to mobile applications. With emphasis on hydrogen as a transport fuel for private passenger cars, this paper discusses the energy systems impacts of various scenarios introducing hydrogen fueled vehicles in Germany. It identifies clear restrictions to an enhanced growth of clean hydrogen production from renewable energy sources (RES). Furthermore, it points at systems interdependencies that call for a priority use of RES electricity in stationary applications. Whereas hydrogen can play an increasing role in transport after 2030 the most important challenge is to exploit short–mid-term potentials of boosting car efficiency.
The role of hydrogen in long run sustainable energy scenarios for the world and for the case of Germany is analysed, based on key criteria for sustainable energy systems. The possible range of hydrogen within long-term energy scenarios is broad and uncertain depending on assumptions on used primary energy, technology mix, rate of energy efficiency increase and costs degression ("learning effects"). In any case, sustainable energy strategies must give energy efficiency highest priority combined with an accelerated market introduction of renewables ("integrated strategy"). Under these conditions hydrogen will play a major role not before 2030 using natural gas as a bridge to renewable hydrogen. Against the background of an ambitious CO2-reduction goal which is under discussion in Germany the potentials for efficiency increase, the necessary structural change of the power plant system (corresponding to the decision to phase out nuclear energy, the transformation of the transportation sector and the market implementation order of renewable energies ("following efficiency guidelines first for electricity generation purposes, than for heat generation and than for the transportation sector")) are analysed based on latest sustainable energy scenarios.
This article presents the findings of a European study on energy efficiency in the public sector, entitled "Public procurement of Energy Saving Technologies in Europe" (PROST), completed in 2003. Energy efficiency in the public sector goes far beyond energy savings and climate protection. Energy efficiency must be seen as a strategy, which deals both with scarce public funds and with profound energy and climate challenges. The gains to be made are substantial. The study assessed the potential for energy and cost savings and the greenhouse gas reductions that are linked to energy efficiency in the European public sector. To the knowledge of the authors, this is the first time such an analysis has been carried out. The study concluded that there are no fundamental legal obstacles that would a priori disable the public sector from procuring energy efficient technologies or applying energy efficiency considerations in its daily building management routines. However, at the level of implementation obstacles can occur. It is therefore of paramount importance that there is sufficient political will and adequate incentive systems at all relevant levels. It appeared to be particularly effective when public procurement is energy-efficiency minded in all its operations and life cycle costing is applied for investments instead of conventional public budgeting procedures. The study demonstrates that consistent and EU-wide application of these principles and instruments can result in rather substantial savings both in terms of energy and in terms of money. With additional annual investments in energy efficiency of 80 million Euro, energy savings in the (EU15) Member States' public sector worth up to 12 billion Euro per year can be achieved. A supplementary analysis was performed for a selection of the new Member States, which indicated that the potential for energy and fiscal savings is substantial in those countries as well.
After two weeks of negotiations, climate diplomats completed the implementation of the Protocol, refined some of its instruments for implementation and agreed on processes for moving forward beyond the first Kyoto commitment period. The report by the Wuppertal Institute provides an overview and assessment of the agreements reached in Montreal.
Because of high efficiency, low environmental impacts and a potential role in transforming our energy system into a hydrogen economy, fuel cells are often considered as a key technology for a sustainable energy supply. However, the future framing conditions under which stationary fuel cells have to prove their technical and economic competitiveness are most likely characterised by a reduced demand for space heating, and a growing contribution of renewable energy sources to heat and electricity supply, which both directly limit the potential for combined heat and power generation, and thus also for fuelcells. Taking Germany as a case study, this paper explores the market potential of stationaryfuelcells under the structural changes of the energy demand and supply system required to achieve asustainable energy supply. Results indicate that among the scenarios analysed it is in particular a strategy oriented towards ambitious CO2-reduction targets, which due to its changes in the supply structure is in a position to mobilise a market potential that might be large enough for a successful fuel cell commercialisation. However, under the conditions of a business-as-usual trajectory the sales targets of fuel cell manufacturers cannot be met.
Grave concerns with the Clean Development Mechanism (CDM) have increasingly surfaced in the international climate policy arena. The sectoral approaches described in this paper may be a way to address some of the shortcomings of this Kyoto mechanism. The paper outlines the criticisms that have been raised against the CDM as well as the conflicting interpretations of a sectoral approach and examines in how far it might resolve the mechanism’s perceived shortcomings. Furthermore, it outlines issues that need to be resolved when implementing a sectoral approach: distributing costs and benefits, defining the sector and its baseline, ensuring additionality and tackling procedural issues. A sectoral approach can enable countries to guide their structural development but it also opens up a gap between public and private investment that needs to be addressed before conflicts arise. Sectoral CDM activities may be able to lower transaction costs for projects that otherwise cannot compete in the CDM market and might even pave the way to sectoral greenhouse gas limitation targets in developing countries by establishing the necessary infrastructure for data collection. However, a sectoral CDM cannot be mistaken for a panacea. Some of the mechanism's problems remain, which highlights the need to establish additional instruments to support Southern countries in furthering sustainable development and embarking on a low-emission trajectory.
Global climate
(2006)
Global climate
(2007)
The Russian natural gas industry is the world's largest producer and transporter of natural gas. This paper aims to characterize the methane emissions from Russian natural gas transmission operations, to explain projects to reduce these emissions, and to characterize the role of emissions reduction within the context of current GHG policy. It draws on the most recent independent measurements at all parts of the Russian long distance transport system made by the Wuppertal Institute in 2003 and combines these results with the findings from the US Natural Gas STAR Program on GHG mitigation options and economics.
With this background the paper concludes that the methane emissions from the Russian natural gas long distance network are approximately 0.6% of the natural gas delivered. Mitigating these emissions can create new revenue streams for the operator in the form of reduced costs, increased gas throughput and sales, and earned carbon credits. Specific emissions sources that have cost-effective mitigation solutions are also opportunities for outside investment for the Joint Implementation Kyoto Protocol flexibility mechanism or other carbon markets.
A number of "roadmapping" activities are being carried out internationally with the aim of planning and facilitating transitions to hydrogen energy systems. However, there is an evident discrepancy between the treatment of quantitative and qualitative information in the majority of roadmapping efforts. Whilst quantitative information is frequently analysed in numerical and computational models, conversely qualitative information tends to be incorporated on a significantly more ad hoc basis. Previous attempts at incorporating qualitative considerations have not usually been systematised. In this paper we present a methodology aimed at increasing the rigour with which qualitative information is treated in hydrogen roadmapping activities. The key changes and actor mapping (KCAM) methodology was developed as the primary qualitative component of the European Hydrogen Energy Roadmap project "HyWays". KCAM, developed from a well known general systems development model, constitutes a means of qualitatively analysing variable hydrogen supply chains that is structured, systematic and flexible.
The enhanced use of biomass for the production of energy, fuels, and materials is one of the key strategies towards sustainable production and consumption. Various life cycle assessment (LCA) studies demonstrate the great potential of bio-based products to reduce both the consumption of non-renewable energy resources and greenhouse gas emissions. However, the production of biomass requires agricultural land and is often associated with adverse environmental effects such as eutrophication of surface and ground water. Decision making in favor of or against bio-based and conventional fossil product alternatives therefore often requires weighing of environmental impacts. In this article, we apply distance-to-target weighing methodology to aggregate LCA results obtained in four different environmental impact categories (i.e., non-renewable energy consumption, global warming potential, eutrophication potential, and acidification potential) to one environmental index. We include 45 bio- and fossil-based product pairs in our analysis, which we conduct for Germany. The resulting environmental indices for all product pairs analyzed range from -19.7 to +0.2 with negative values indicating overall environmental benefits of bio-based products. Except for three options of packaging materials made from wheat and cornstarch, all bio-based products (including energy, fuels, and materials) score better than their fossil counterparts. Comparing the median values for the three options of biomass utilization reveals that bio-energy (-1.2) and bio-materials (-1.0) offer significantly higher environmental benefits than bio-fuels (-0.3). The results of this study reflect, however, subjective value judgments due to the weighing methodology applied. Given the uncertainties and controversies associated not only with distance-to-target methodologies in particular but also with weighing approaches in general, the authors strongly recommend using weighing for decision finding only as a supplementary tool separately from standardized LCA methodology.
Scenarios for the future of renewable energy through 2050 are reviewed to explore how much renewable energy is considered possible or desirable and to inform policymaking. Existing policy targets for 2010 and 2020 are also reviewed for comparison. Common indicators are shares of primary energy, electricity, heat, and transport fuels from renewables. Global, Europe-wide, and country-specific scenarios show 10% to 50% shares of primary energy from renewables by 2050. By 2020, many targets and scenarios show 20% to 35% share of electricity from renewables, increasing to the range 50% to 80% by 2050 under the highest scenarios. Carbon-constrained scenarios for stabilization of emissions or atmospheric concentration depict trade-offs between renewables, nuclear power, and carbon capture and storage (CCS) from coal, most with high energy efficiency. Scenario outcomes differ depending on degree of future policy action, fuel prices, carbon prices, technology cost reductions, and aggregate energy demand, with resource constraints mainly for biomass and biofuels.
The material stocks in the anthroposphere are growing faster than ever due to urbanization and growing per capita use. Owing to the growing potential insecurity of raw material supply the evaluation of resources gains increasing attention. Despite growing utilization of anthropogenic deposits, ‘urban mining’ has not yet sufficiently been supported by specific exploration methods. An exploration method for anthropogenic deposits is proposed and described by application to the copper stocks of Switzerland. The method combines material flow analysis with a bottom‐up analysis of material stocks. The stock composition and temporal characteristics are analysed by surveys and literature analysis. The stock amounts to 269±31 kg capita -1 for the year 2000. The retrospective data are used as parameters to construct a dynamic stock model, which is calibrated by historical trade statistics. The potential for drafting scenarios is discussed. The stock situation in Switzerland is reviewed and compared with that of other regions.
The use of materials and the generation of waste are linked to economic activities and in many projections these are assumed to be a constant ratio of the economic activities. This may be the case considering detailed economic activities and unchanged technology. However, the assumption of constant coefficients is questionable when linking material use and waste generation to aggregated economic activities. Therefore, in this paper, econometrics is used to test the assumption of constant waste coefficients empirically. The analyses show that an assumption of constant waste coefficients is not supported, generally, and amodel allowing for trendwise changing coefficients is developed and used for projections of waste and material flows in 25 European countries.
In this study, the relevance of psychological variables as predictors of the ecological impact of mobility behavior was investigated in relation to infrastructural and sociodemographic variables. The database consisted of a survey of 1991 inhabitants of three large German cities. In standardized interviews attitudinal factors based on the theory of planned behavior, further mobility-related attitude dimensions, sociodemographic and infrastructural characteristics as well as mobility behavior were measured. Based on the behavior measurement the ecological impact of mobility behavior was individually assessed for all participants of the study. In a regression analysis with ecological impact as dependent variable, sociodemographic and psychological variables were the strongest predictors, whereas infrastructural variables were of minor relevance. This result puts findings of other environmental studies into question which indicate that psychological variables only influence intent-oriented behavior, whereas impact-oriented behavior is mainly determined by sociodemographic and household variables. The design of effective intervention programs to reduce the ecological impact of mobility behavior requires knowledge about the determinants of mobility-related ecological impact, which are primarily the use of private motorized modes and the traveled distances. Separate regression analyses for these two variables provided detailed information about starting points to reduce the ecological impact of mobility behavior.
For the option of “carbon capture and storage”, an integrated assessment in the form of a life cycle analysis and a cost assessment combined with a systematic comparison with renewable energies regarding future conditions in the power plant market for the situation in Germany is done. The calculations along the whole process chain show that CCS technologies emit per kWh more than generally assumed in clean-coal concepts (total CO2 reduction by 72-90% and total greenhouse gas reduction by 65-79%) and considerable more if compared with renewable electricity. Nevertheless, CCS could lead to a significant absolute reduction of GHG-emissions within the electricity supply system. Furthermore, depending on the growth rates and the market development, renewables could develop faster and could be in the long term cheaper than CCS based plants. Especially, in Germany, CCS as a climate protection option is phasing a specific problem as a huge amount of fossil power plant has to be substituted in the next 15 years where CCS technologies might be not yet available. For a considerable contribution of CCS to climate protection, the energy structure in Germany requires the integration of capture ready plants into the current renewal programs. If CCS retrofit technologies could be applied at least from 2020, this would strongly decrease the expected CO2 emissions and would give a chance to reach the climate protection goal of minus 80% including the renewed fossil-fired power plants.
The United Nations climate change conference in Nairobi came at the end of a year where public awareness of climate change had reached unprecedented heights. Nonetheless, the conference proceeded with its usual diplomatic ritual, apparently unaffected by time pressure. While it did see some progress on important issues for developing countries such as the Adaptation Fund, the Nairobi Work Programme on Impacts, Vulnerability, and Adaptation to Climate Change, and the Clean Development Mechanism (CDM), on questions regarding the future of the regime it proved to be at best a confidence-building session that served to hear further views. More serious work on the future of the regime must therefore be expected of the next Conferences of the Parties.
This article by Wolfgang Sterk, Hermann E. Ott, Rie Watanabe and Bettina Wittneben summarises the results of the conference.
The "South-North Dialogue" Proposal, developed by researchers from developing and industrialised countries, outlined equitable approaches to mitigation. These approaches were based on the criteria of responsibility, capability and potential to mitigate, and include deep cuts in industrialised (Annex I) countries and differentiated mitigation commitments for developing countries. This paper quantitatively analyses the implications of the proposal for countries' emissions and costs. The analysis focuses on a "political willingness" scenario and four stabilisation scenarios. The analysis shows that stringent stabilisation targets imply that many developing countries would have to take on quantitative mitigation obligations by 2030, even when the Annex I countries take on ambitious mitigation commitments far beyond the Kyoto obligations. The "political willingness scenario" will probably not suffice to limit a warming of the Earth's atmosphere to below 2 °C.
National welfare is no longer an effective frame of reference for enlightened foreign policy. Policy consideration must encompass the common welfare of a world society. Environmental and resource crises are inextricably tied to security and justice. Sixty years after the founding of the United Nations there should be a new effort to establish a genuinely sustainable global order - a "San Francisco 2.0".
Stabilizing the concentration of greenhouse gases (GHGs) in the atmosphere at levels compatible with sustainable development is the objective of the United Nations Framework Convention on Climate Change (UNFCCC) and an imperative for the global community. This is a daunting task, and its magnitude and costs are debated among scientists as well as policy-makers [Stern, 2006]. While most GHGs in the past have been emitted by developed countries and they are called upon to reduce their emissions and take responsibility for past mistakes, the contribution of developing countries in the future will reach similar magnitudes and is equally threatening for life on this planet. While developing countries have no commitments under the UNFCCC, they can still contribute voluntarily to climate change mitigation. The Global Environment Facility (GEF), as the financial mechanism of the UNFCCC and the leading multilateral entity promoting energy efficiency and renewable energy in developing countries and countries in transition, needs to provide significant support to these countries with respect to reaching a path of sustainable energy supply and sustainable economic and social development. Since 1992, the GEF has provided around US$ 2 billion in grants to support projects in the climate change focal area, leveraging over US$ 10 billion in total investments. Most of these funds have been spent on climate change mitigation projects. The GEF's mandate with respect to mitigation is to develop, expand, and transform markets for energy and mobility in developing countries, enabling them to grow toward and efficiently operate on a less carbon-intensive path. In doing so, the GEF applies the incremental cost principle and is restricted in the selection of technologies by a number of factors. Developing markets for sustainable energy technologies and sustainable framework conditions is a long-term effort, and it is hard to understand how effective the GEF is or can be in fulfilling this mission. This paper discusses the magnitude of the challenge, and demonstrates that this challenge is too big for the GEF's limited funds, and provides some suggestions for the GEF's programming for maximizing its impact on global GHG emissions by seeking out the most rewarding opportunities and maximizing replication of successful project examples by effective outreach and knowledge management.
Approaches to address unsustainable ways of societal development constantly proliferate, but total consumption of resources and aggregate environmental impacts continue rising. This could partially be explained by weak attempts to develop comprehensive sustainability strategies that address the entire life cycle of products and especially resource extraction and use phases. This paper seeks to explore to what extent these life cycle stages and associated impacts are taken into account when various actors employ life cycle thinking and how these concerns can be better attended to in policy-making, business strategies and lifestyle choices. To accomplish this, we evaluate the efforts of the main stakeholders in reaching sustainable consumption and sustainable resource management, and impediments to further progress, and study whether and how deficits in these phases coincide and can potentially contribute to more holistic practical realization of life cycle thinking. We demonstrate that new approaches are needed to be able to tackle the international dimension of production and consumption.
This paper presents the educational program "Encouraging Sustainability", initiated and realized by the "Foundation Forum für Verantwortung", the "ASKO EUROPA-FOUNDATION", and the "Europäische Akademie Otzenhausen/European Academy Otzenhausen" in cooperation with the Wuppertal Institute for Climate, Environment and Energy. The goal is to intensify the public discourse on sustainability within civil society concerning options of sustainable consumption and production patterns. The innovative program consists of two parts: (1) Twelve Books About the Future of the Earth (see section 2), (2) six didactical modules (section 3): From Knowledge to Action. The educational modules focus on important topics and key issues discussed in the context of sustainability: climate change, resource use, energy efficiency, population growth, water use, securing future food supplies, biodiversity etc. The didactical materials are developed as “open learning scenarios: all materials can be linked to many communication forms and situations in a flexible manner. For the creation and realisation of the educational materials the authors have chosen the concept of Sinus-Milieus, developed by Sinus Sociovision, in order to address specific target groups (section 4). The main target groups in the program "Encouraging Sustainability" are "leading groups of society" and multipliers because of their high resource and energy consumption on the one hand and because of their skills and educational background on the other hand. In the last section of this paper (section 5) the first experiences from the implementation of the modules are presented. The authors emphasize that the broad and flexible approach chosen, should work effectively in a period in which green issues rank high in the public opinion worldwide.
Because of a growing global energy demand and rising oil prices coal-abundant nations, such as China and the United States, are pursuing the application of technologies which could replace crude oil imports by converting coal to synthetic hydrocarbon fuels - so-called coal-to-liquids (CtL) technologies. The case of CtL is well suited to analyse techno-economic, resources-related, policy-driven and actor-related parameters, which are affecting the market prospects of a technology that eases energy security constraints but is hardly compatible with a progressive climate policy. This paper concentrates on Germany as an example - the European Union (EU)'s largest member state with considerable coal reserves. It shows that in Germany and the EU, CtL is facing rather unfavourable market conditions as high costs and ambitious climate targets offset its energy security advantage.
Japan
(2008)
Because of a growing dependence on oil imports, powerful industrial, political and societal stakeholders in the UnitedStates are trying to enhance national energy security through the conversion of domestic coal into synthetic hydrocarbon liquid fuels - so-called coal-to-liquids (CtL) processes. However, because of the technology's high costs and carbon intensity, its market deployment is strongly affected by the US energy, technology and climate policy setting. This paper analyses and discusses policy drivers and barriers for CtL technologies in the United States and reaches the conclusion that an increasing awareness of global warming among US policy-makers raises the requirements for the technology's environmental performance and, thus, limits its potential to regional niche markets in coal-producing states or strategic markets, such as the military, with specific security and fuel requirements.
In this article, we analyze flows of the platinum group metals (PGMs) platinum, palladium, and rhodium and the environmental impacts associated with their supply in Europe. A model of the use of PGMs in Europe has been developed, and this is combined with a model of environmental pressures related to PGM production. Seven industrial sectors and product groups form the main users of PGMs in Europe, comprising the chemical, petroleum, and glass industries; jewelry, dentistry, electronic equipment, and car catalysts. Most relevant environmental impacts of secondary production in Europe and primary PGM production in South Africa, Russia, and Canada are taken into account, including emissions of sulphur dioxide and carbon dioxide and total material requirement. The article quantifies the PGM flows to, from, and within Europe in 2004. The automotive industry is the single largest user of primary PGMs, and catalytic converters represent the major PGM end use. The chemical and glass industries also require large amounts of PGM but rely mostly on secondary metals. The environmental impacts of primary production exceed those of secondary production by far. An analysis of the use of car catalytic converters shows that as a result of efforts to reduce air pollutant emissions in Europe, other negative environmental impacts, such as point-source pollution and mining waste, are occurring elsewhere - for example, at extraction and refining sites in Siberia and South Africa.
Building a "theory of sustainable development" : two salient conceptions within the German discourse
(2008)
This paper identifies a lack in sustainability science, of a well-founded normative basis, for the justification of sustainable development. In order to fill this gap, we aim at calling attention to two of the salient conceptions in the German discourse, namely the "Theory of Strong Sustainability" developed at the University of Greifswald and the "Integrative Sustainability Concept" proposed by the Helmholtz Association of German Research Centres (HGF), the biggest research institution in Germany. Both conceptions highly value the justification of a strong theoretical and normative core of sustainable development. This paper suggests that a well-founded "theory of sustainable development" provides the distinctiveness that allows the assessment whether or not there is progress towards sustainability. A clear scientific comprehension of sustainability may inform politics in sustainability affairs and function as a rational corrective for the otherwise diffuse discussion in the general public.
This article introduces elements of a global governance regime for sustainable resource management. It argues that such an approach is needed to combat the negative impacts arising from resource extraction and use as well as to overcome the co‐ordination problems of decentralized action. A first section summarizes main conflicts arising from limited access to natural resources and security of supply, environmental impacts and the performance of resource‐rich developing countries. A second section analyses existing initiatives for sustainable resource management such as resource funds, efforts to increase transparency, programmes in development co‐operation, standards and certification, material efficiency and resource productivity as well as efforts to limit the consumption of natural resources. Though these initiative have their merits, the article concludes that more systematic institutional mechanisms are needed. The third section introduces those institutional mechanisms: it describes the International Panel for Sustainable Resource Management (launched in November 2007), outlines elements of an international convention on sustainable resource management, develops the agenda for an international agency on the issue and discusses the interaction with existing international bodies such as the World Trade Organization. Written as a policy paper, the paper formulates proposals for various actors, from small‐scale miners to large‐scale global companies and governments. Its intention is to stimulate the debate and to broaden the horizon on the global dimension of using minerals.
This paper looks at improving resource productivity at global value chains. Resource flows from its extraction through the manufacturing and use phase towards its end-of-life – increasingly crossing national boundaries. Effective improvement in resource productivity requires actions beyond a country’s territory. This article focuses on non-renewable resource flows and analysis how developed countries are involved in four distinct phases of global value chains, and how this involvement links to changes in resource efficiency. Resource extraction and associated early processes activities have been increasingly moved from developed to developing countries. Offshoring manufacturing activities also becomes a common phenomenon. Throughout these activities, lower rates of resource productivity during extraction and manufacturing are frequently observed, leading not only to international burden shifting, but most likely letting these burdens grow. If appropriate international measures across the global divides are applied, resource efficiency potentials could be realised through offshoring and global consumption and recycling could also offer opportunities for resource productivity. International actions to improve resource productivity can help to meet economic and environmental objectives at the same time over a global value chain. It could also safeguard countries against unintended indirect and side effects from the relocation of resource flows and help the private sector to benefit from opportunities in global markets for resource efficiency.
The international climate negotiations have seen endless struggles between countries from South and North for almost 17 years, ever since the initiation of negotiations by the International Negotiation Committee (INC) for the United Nations Framework Convention on Climate Change (UNFCCC). The 13th meeting of the Conference of the Parties to the UNFCCC and the 3rd meeting of the Conference of the Parties serving as the meeting of the Parties to the Kyoto Protocol (COP 13 / CMP 3) held in Bali in December 2007 (the Bali conference) could mark the beginning of a rapprochement. Parties agreed on initiating a new "Ad-hoc working group on Long-Term Cooperative Action under the Convention" (AWG-LCA) that aims to negotiate a post-2012 agreement with participation of all parties, including the US and developing countries, by the end of 2009 at COP 15 / CMP 5 in Copenhagen. This article examines the outcomes of the Bali conference, focussing on the negotiations regarding post-2012, flexible mechanisms, financial mechanisms, technology transfer and deforestation. Finally, the article concludes that the Bali Conference saw a significant shift in the battle lines, a rearrangement of positions and alliances that might well announce a decisive new era in global climate policy and provides a real chance to agree on an effective and workable post-2012 agreement in Copenhagen.
World primary copper production is expected to increase due to growing demand. Reflecting the geographical divergence of copper deposits and demanding industries, copper is produced by various production paths, differing in regional and technological aspects and related environmental pressures. For the mitigation of environmental pressures related to global material flows and a more sustainable resource management, policy makers, producers and buyers require information on regional resource efficiencies and effects of the key processes within the global production chain. This study quantifies material flows of refined copper production and environmental pressures along the pyro‐ and hydrometallurgical paths for Chile and Germany. Inventories for involved unit processes are distinguished by region and most commonly applied technologies, including electric power supply. Different production paths are compared by environmental pressure indicators (primary energy requirements, total material requirements, water consumption, GHG emissions, solid waste disposal, sulphur dioxide and arsenic emissions). Alternative options for improvement of technologies and supply patterns in Chile and Germany are compared.
In the aftermath of the controversy on genetically modified organisms it has become clear that in order to harness new technologies for economic and social benefit, a wide range of social, ethical and regulatory concerns need to be addressed. This document summarises some key results from Nanologue, a project that brought together leading research and opinions on the social, ethical and legal implications of nanotechnology applications (NT) in Europe. The document presents information about the project's findings of "societal aspects of NT", based upon the results from interviews with NT scientists and researchers. Insights gained during the project have been translated into future scenarios as well as into an internet-based support tool for NT researchers and product developers called NanoMeter. The scenarios as well as the NanoMeter are briefly introduced and conclusions drawn.
The sensitivity of climate phenomena in the low latitudes to enhanced greenhouse conditions is a scientific issue of high relevance to billions of people in the poorest countries of the globe. So far, most studies dealt with individual model results. In the present analysis, we refer to 79 coupled ocean–atmosphere simulations from 12 different climate models under 6 different IPCC scenarios. The basic question is as to what extent various state-of-the-art climate models agree in predicting changes in the main features of El Niño-Southern Oscillation (ENSO) and the monsoon climates in South Asia and West Africa. The individual model runs are compared with observational data in order to judge whether the spatio-temporal characteristics of ENSO are well reproduced. The model experiments can be grouped into multi-model ensembles. Thus, climate change signals in the classical index time series, in the principal components and in the time series of interannual variability can be evaluated against the background of internal variability and model uncertainty.
There are large differences between the individual model predictions until the end of the 21st century, especially in terms of monsoon rainfall and the Southern Oscillation index (SOI). The majority of the models tends to project La Niña-like anomalies in the SOI and an intensification of the summer monsoon precipitation in India and West Africa. However, the response barely exceeds the level of natural variability and the systematic intermodel variations are larger than the impact of different IPCC scenarios. Nonetheless, there is one prominent climate change signal, which stands out from model variations and internal noise: All forced model experiments agree in predicting a substantial warming in the eastern tropical Pacific. This oceanic heating does not necessarily lead to a modification of ENSO towards more frequent El Niño and/or La Niña events. It simply represents a change in the background state of ENSO. Indeed, we did not find convincing multi-model evidence for a modification of the wavelet spectra in terms of ENSO or the monsoons. Some models suggest an intensification of the annual cycle but this signal is fairly model-dependent. Thus, large model uncertainty still exists with respect to the future behaviour of climate in the low latitudes. This has to be taken into account when addressing climate change signals in individual model experiments and ensembles.
What is the significance of the 2007 United Nations Climate Change Conference in Bali? The formal outcomes, especially the "Bali Action Plan", are described and commented on, along with the challenges for negotiating a post-2012 agreement in Copenhagen during 2008 and 2009. The article concludes that the outcome of the Bali meeting is insufficient when compared to the nature of the challenge posed by climate change. However, it can nevertheless be considered a success in terms of "Realpolitik" in paving the way for the negotiations ahead, because some real changes have been discerned in the political landscape. The challenges for the road towards Copenhagen are manifold: the sheer volume and complexity of the issues and the far-reaching nature of decisions such as differentiation between non-Annex I countries pose significant challenges in themselves, while the dependency on the electoral process in the USA introduces a high element of risk into the whole process. The emergence of social justice as an issue turns climate policy into an endeavour to improve the world at large - thereby adding to the complexity. And, finally, the biggest challenge is the recognition that the climate problem requires a global solution, that Annex I and non-Annex I countries are mutually dependent on each other and that only cooperation regarding technology in combination with significant financial support will provide the chance to successfully tackle climate change.
Global climate
(2008)
Global climate
(2008)
While the number of projects under the Clean Development Mechanism (CDM) is expanding rapidly, there currently are relatively few transport projects in the global CDM portfolio. This article examines existing CDM transport projects and explores whether sectoral approaches to the CDM may provide a better framework for transport than the current project‐based CDM. We ask: Would a sectoral approach to the CDM promote the structural change and integrated policymaking needed to achieve sustainable transport policy, making it hence more desirable than the framework of the current project‐based CDM? We conclude that it is possible to design sectoral transport activities within clear project boundaries that fit into a framework of a programmatic or policy‐based CDM. Although we are able to ascertain that transport policy research yields several modelling tools to address the methodological requirements of the CDM, it becomes apparent that sectoral approaches will accentuate transport projects' problems regarding high complexity and related uncertainties. The CDM may need new rules to manage these risks. Nonetheless, sectoral approaches allow the scaling up of activities to a level that affects long‐term structural change.