Author
Jan Weinzettel
Other affiliations: Czech Technical University in Prague, Norwegian University of Science and Technology
Bio: Jan Weinzettel is an academic researcher from Charles University in Prague. The author has contributed to research in topics: Ecological footprint & Raw material. The author has an hindex of 20, co-authored 33 publications receiving 2503 citations. Previous affiliations of Jan Weinzettel include Czech Technical University in Prague & Norwegian University of Science and Technology.
Papers
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TL;DR: In this paper, the authors trace the use of land and ocean area through international supply chains to final consumption, modeling agricultural, food, and forestry products on a high level of resolution while also including the land requirements of manufactured goods and services.
Abstract: Increasing affluence is often postulated as a main driver for the human footprint on biologically productive areas, identified among the main causes of biodiversity loss, but causal relationships are obscured by international trade. Here, we trace the use of land and ocean area through international supply chains to final consumption, modeling agricultural, food, and forestry products on a high level of resolution while also including the land requirements of manufactured goods and services. In 2004, high-income countries required more biologically productive land per capita than low-income countries, but this connection could only be identified when land used to produce internationally traded products was taken into account, because higher-income countries tend to displace a larger fraction of land use. The equivalent land and ocean area footprint of nations increased by a third for each doubling of income, with all variables analyzed on a per capita basis. This increase came largely from imports, which increased proportionally to income. Export depended mostly on the capacity of countries to produce useful biomass, the biocapacity. Our analysis clearly shows that countries with a high biocapacity per capita tend to spare more land for nature. Biocapacity per capita can be increased through more intensive production or by reducing population density. The net displacement of land use from high-income to low-income countries amounted to 6% of the global land demand, even though high-income countries had more land available per capita than low-income countries. In particular, Europe and Japan placed high pressure on ecosystems in lower-income countries.
526 citations
TL;DR: Overall, the EU displaced all three types of environmental pressures to the rest of the world, through imports of products with embodied pressures, while the UK was the most important displacer overall and the largest net exporters of embodied environmental pressures were Poland, France, and Spain.
Abstract: A nation’s consumption of goods and services causes various environmental pressures all over the world due to international trade. We use a multiregional input–output model to assess three kinds of environmental footprints for the member states of the European Union. Footprints are indicators that take the consumer responsibility approach to account for the total direct and indirect effects of a product or consumption activity. We quantify the total environmental pressures (greenhouse gas emissions: carbon footprint; appropriation of biologically productive land and water area: land footprint; and freshwater consumption: water footprint) caused by consumption in the EU. We find that the consumption activities by an average EU citizen in 2004 led to 13.3 tCO2e of induced greenhouse gas emissions, appropriation of 2.53 gha (hectares of land with global-average biological productivity), and consumption of 179 m3 of blue water (ground and surface water). By comparison, the global averages were 5.7 tCO2e, 1.23...
381 citations
TL;DR: This paper focuses on the latest effort to construct a global multi-regional input-output database (EXIOBASE) with a focus on environmentally relevant activities and explores the methods used to arrive at the database, and some key relationships extracted from the database.
Abstract: Measuring progress towards sustainable development requires appropriate frameworks and databases. The System of Environmental-Economic Accounts (SEEA) is undergoing continuous refinement with these objectives in mind. In SEEA, there is a need for databases to encompass the global dimension of societal metabolism. In this paper, we focus on the latest effort to construct a global multi-regional input-output database (EXIOBASE) with a focus on environmentally relevant activities. The database and its broader analytical framework allows for the as yet most detailed insight into the production-related impacts and "footprints" of our consumption. We explore the methods used to arrive at the database, and some key relationships extracted from the database.
371 citations
TL;DR: The model described here is the first environmentally extended MRIO model that harmonizes EF and WF accounts and aligns physical unit data of product use with standard economic and environmental accounting, and provides a structure upon which further improvements in footprint calculation can be built.
249 citations
TL;DR: In this paper, a prospective life cycle assessment (LCA) study of one floating concept has been performed and the results are presented in a comparison with existing LCA studies of conventional offshore wind power and electricity from a natural gas combined cycle.
207 citations
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TL;DR: The most comprehensive and most highly resolved economic input–output framework of the world economy together with a detailed database of global material flows are used to calculate the full material requirements of all countries covering a period of two decades and demonstrate that countries’ use of nondomestic resources is about threefold larger than the physical quantity of traded goods.
Abstract: Metrics on resource productivity currently used by governments suggest that some developed countries have increased the use of natural resources at a slower rate than economic growth (relative decoupling) or have even managed to use fewer resources over time (absolute decoupling). Using the material footprint (MF), a consumption-based indicator of resource use, we find the contrary: Achievements in decoupling in advanced economies are smaller than reported or even nonexistent. We present a time series analysis of the MF of 186 countries and identify material flows associated with global production and consumption networks in unprecedented specificity. By calculating raw material equivalents of international trade, we demonstrate that countries’ use of nondomestic resources is, on average, about threefold larger than the physical quantity of traded goods. As wealth grows, countries tend to reduce their domestic portion of materials extraction through international trade, whereas the overall mass of material consumption generally increases. With every 10% increase in gross domestic product, the average national MF increases by 6%. Our findings call into question the sole use of current resource productivity indicators in policy making and suggest the necessity of an additional focus on consumption-based accounting for natural resource use.
1,182 citations
01 Apr 2016
TL;DR: The evidence suggests that of the various proposed dates two do appear to conform to the criteria to mark the beginning of the Anthropocene: 1610 and 1964.
Abstract: Time is divided by geologists according to marked shifts in Earth's state. Recent global environmental changes suggest that Earth may have entered a new human-dominated geological epoch, the Anthropocene. Here we review the historical genesis of the idea and assess anthropogenic signatures in the geological record against the formal requirements for the recognition of a new epoch. The evidence suggests that of the various proposed dates two do appear to conform to the criteria to mark the beginning of the Anthropocene: 1610 and 1964. The formal establishment of an Anthropocene Epoch would mark a fundamental change in the relationship between humans and the Earth system.
1,173 citations
TL;DR: The foundation of a conceptual framework for selecting appropriate indicators for targets from existing sets or formulating new ones is argued for and some recommendations for indicators providers are offered in order to contribute to the tremendous amount of conceptual work needed to lay a strong foundation for the development of the final indicators framework.
803 citations
TL;DR: This work reviews current footprints and relates those to maximum sustainable levels, highlighting the need for future work on combining footprints, assessing trade-offs between them, improving computational techniques, estimating maximum sustainable footprint levels, and benchmarking efficiency of resource use.
Abstract: Within the context of Earth’s limited natural resources and assimilation capacity, the current environmental footprint of humankind is not sustainable. Assessing land, water, energy, material, and other footprints along supply chains is paramount in understanding the sustainability, efficiency, and equity of resource use from the perspective of producers, consumers, and government. We review current footprints and relate those to maximum sustainable levels, highlighting the need for future work on combining footprints, assessing trade-offs between them, improving computational techniques, estimating maximum sustainable footprint levels, and benchmarking efficiency of resource use. Ultimately, major transformative changes in the global economy are necessary to reduce humanity’s environmental footprint to sustainable levels
738 citations
TL;DR: In this article, the authors provide a definition of the Footprint Family as a suite of indicators to track human pressure on the planet and under different angles, based on the premise that no single indicator per se is able to comprehensively monitor human impact on the environment, but indicators rather need to be used and interpreted jointly.
693 citations