Integrating ecological, carbon and water footprint into a "footprint family" of indicators: Definition and role in tracking human pressure on the planet

In recent years, attempts have been made to develop an integrated Footprint approach for the assessment of the environmental impacts of production and consumption. In this paper, we provide for the first time a definition of the “Footprint Family” as a suite of indicators to track human pressure on the planet and under different angles. This work has been developed under the 7th Framework Programme in the European Commission (EC) funded One Planet Economy Network: Europe (OPEN:EU) project. It builds 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. A description of the research question, rationale and methodology of the Ecological, Carbon and Water Footprint is first provided. Similarities and differences among the three indicators are then highlighted to show how these indicators overlap, interact, and complement each other. The paper concludes by defining the “Footprint Family” of indicators and outlining its appropriate policy use for the European Union (EU). We believe this paper can be of high interest for both policy makers and researchers in the field of ecological indicators, as it brings clarity on most of the misconceptions and misunderstanding around Footprint indicators, their accounting frameworks, messages, and range of application.

[1]  Stefan Giljum,et al.  A comprehensive set of resource use indicators from the micro to the macro level , 2011 .

[2]  Yoshihiko Wada,et al.  Assessing the global environmental consequences of economic growth through the Ecological Footprint: A focus on China and India , 2012 .

[3]  G. Peters From production-based to consumption-based national emission inventories , 2008 .

[4]  M. Lenzen,et al.  Shared producer and consumer responsibility — Theory and practice , 2007 .

[5]  R. DeFries,et al.  Anthropogenic Drivers of Ecosystem Change: an Overview , 2006 .

[6]  Ricardo Fuentes,et al.  Human Development Report 2006 , 2006 .

[7]  Peter Busby,et al.  Climate change and sustainable development: realizing the opportunity. , 2006 .

[8]  A. Hoekstra Virtual water trade : A quantification of virtual water flows between nations in relation to international crop trade , 2003 .

[9]  Kjartan Steen-Olsen,et al.  Integrating ecological and water footprint accounting in a multi-regional input–output framework , 2012 .

[10]  M. Wackernagel,et al.  Our ecological footprint , 1996 .

[11]  Dagmar Schröter,et al.  Socioecological transitions and global change: trajectories of social metabolism and land use , 2009 .

[12]  Stefan Bringezu,et al.  The physical dimension of international trade: Part 1: Direct global flows between 1962 and 2005 , 2010 .

[13]  Jason K. Levy,et al.  Improving the ecological footprint of nuclear energy: a risk-based lifecycle assessment approach for critical infrastructure systems , 2005, Int. J. Crit. Infrastructures.

[14]  Benedetto Rugani,et al.  An integrated footprint based approach for environmental labelling of products: the case of drinking bottled water. , 2010 .

[15]  J. A. Allan,et al.  Virtual Water: A Strategic Resource Global Solutions to Regional Deficits , 1998 .

[16]  E. Hertwich,et al.  CO2 embodied in international trade with implications for global climate policy. , 2008, Environmental science & technology.

[17]  A. Hoekstra Human appropriation of natural capital: A comparison of ecological footprint and water footprint analysis , 2009 .

[18]  Mathis Wackernagel,et al.  Establishing national natural capital accounts based on detailed Ecological Footprint and biological capacity assessments , 2004 .

[19]  Hadi Dowlatabadi,et al.  The ecological footprint: a non-monetary metric of human consumption applied to North America , 2003 .

[20]  Stephan Klingebiel,et al.  UNDP – United Nations Development Programme , 2000, A Concise Encyclopedia of the United Nations.

[21]  Helga Weisz,et al.  The physical economy of the European Union: Cross-country comparison and determinants of material consumption , 2006 .

[22]  Edgar G. Hertwich,et al.  Footprint family technical report: Integration into MRIO model , 2011 .

[23]  ZhongXiang Zhang,et al.  Sustainable growth and resource productivity : economic and global policy issues , 2009 .

[24]  V. Masson‐Delmotte,et al.  Target atmospheric CO2: Where should humanity aim? , 2008, 0804.1126.

[25]  Brad R. Ewing,et al.  Living planet report 2008 , 2004 .

[26]  Arjen Ysbert Hoekstra,et al.  Water Footprint Manual : State of the Art 2009 , 2009 .

[27]  M. Wackernagel,et al.  Shrink and share: humanity's present and future Ecological Footprint , 2008, Philosophical Transactions of the Royal Society B: Biological Sciences.

[28]  S. Carpenter,et al.  Global Consequences of Land Use , 2005, Science.

[29]  H. Daly Toward some operational principles of sustainable development , 1990 .

[30]  Paul G. Risser,et al.  The Human Impact on the Natural Environment , 2018 .

[31]  Carolyn C. Pertsova,et al.  Ecological economics research trends , 2007 .

[32]  J. Stiglitz,et al.  Report by the commission on the measurement of economic performance and social progress , 2011 .

[33]  Pushpam Kumar Agriculture (Chapter8) in IPCC, 2007: Climate change 2007: Mitigation of Climate Change. Contribution of Working Group III to the Fourth assessment Report of the Intergovernmental Panel on Climate Change , 2007 .

[34]  T. Wiedmann A review of recent multi-region input–output models used for consumption-based emission and resource accounting , 2009 .

[35]  Enzo Tiezzi,et al.  An exploration of the mathematics behind the ecological footprint , 2008 .

[36]  S. Giljum,et al.  Overconsumption? Our use of the world's natural resources , 2009 .

[37]  J. Minx,et al.  A definition of “carbon footprint” , 2010 .

[38]  Mathis Wackernagel,et al.  EVALUATING THE USE OF NATURAL CAPITAL WITH THE ECOLOGICAL FOOTPRINT : APPLICATIONS IN SWEDEN AND SUBREGIONS , 1999 .

[39]  H. Haberl,et al.  Growth in global materials use, GDP and population during the 20th century , 2009 .

[40]  H. Haberl,et al.  Quantifying and mapping the human appropriation of net primary production in earth's terrestrial ecosystems , 2007, Proceedings of the National Academy of Sciences.

[41]  E. Hertwich,et al.  Carbon footprint of nations: a global, trade-linked analysis. , 2009, Environmental science & technology.

[42]  Manfred Lenzen,et al.  A CARBON FOOTPRINT TIME SERIES OF THE UK – RESULTS FROM A MULTI-REGION INPUT–OUTPUT MODEL , 2010 .

[43]  J. Church Human Development Report , 2001 .

[44]  Simone Bastianoni,et al.  Indicator and indicandum: “Sustainable way” vs “prevailing conditions” in the Ecological Footprint , 2012 .

[45]  C. Vörösmarty,et al.  Global water resources: vulnerability from climate change and population growth. , 2000, Science.

[46]  Carrie V. Kappel,et al.  A Global Map of Human Impact on Marine Ecosystems , 2008, Science.

[47]  A. Goudie The Human Impact on the Natural Environment: Past, Present, and Future , 2005 .

[48]  Ximing Cai,et al.  World Water And Food To 2025: Dealing With Scarcity , 2002 .

[49]  F. M. Pulselli,et al.  The problem of assigning responsibility for greenhouse gas emissions , 2004 .

[50]  N. Ramankutty,et al.  People on the land: changes in global population and croplands during the 20th century. , 2002 .

[51]  Samuel Niza,et al.  The material basis of the global economy Worldwide patterns of natural resource extraction and their implications for sustainable resource use policies , 2007 .

[52]  Manfred Lenzen,et al.  A research agenda for improving national Ecological Footprint accounts , 2009 .

[53]  A. Hoekstra,et al.  Water footprints of nations , 2004 .

[54]  Manfred Lenzen,et al.  Assessing the Ecological Footprint of a Large Metropolitan Water Supplier: Lessons for Water Management and Planning towards Sustainability , 2003 .

[55]  A. Hoekstra,et al.  Water footprints of nations: Water use by people as a function of their consumption pattern , 2006 .

[56]  G. Turner A comparison of The Limits to Growth with 30 years of reality , 2008 .

[57]  Stefan Giljum,et al.  Global resource use in a business-as-usual world up to 2030: Updated results from the GINFORS model , 2009 .

[58]  J. Bergh,et al.  Spatial sustainability, trade and indicators: an evaluation of the ‘ecological footprint’ , 1999 .

[59]  J. Lamarque,et al.  Global Biodiversity: Indicators of Recent Declines , 2010, Science.

[60]  Alessandro Galli,et al.  Projecting future human demand on the Earth's regenerative capacity , 2012 .

[61]  Thomas Wiedmann,et al.  A Review of the Ecological Footprint Indicator—Perceptions and Methods , 2010 .

[62]  J. Randers,et al.  Tracking the ecological overshoot of the human economy , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[63]  M. Falkenmark The massive water scarcity now threatening Africa - why isn't it being addressed? , 1989 .

[64]  Corinne Le Quéré,et al.  Climate Change 2013: The Physical Science Basis , 2013 .

[65]  Mathis Wackernagel,et al.  Natural capital accounting with the ecological footprint concept , 1999 .

[66]  N. Ramankutty,et al.  Estimating historical changes in global land cover: Croplands from 1700 to 1992 , 1999 .

[67]  F. Chapin,et al.  A safe operating space for humanity , 2009, Nature.

[68]  Benjamin T. Tuttle,et al.  The real wealth of nations: Mapping and monetizing the human ecological footprint , 2012 .

[69]  A. Hoekstra,et al.  Globalization of Water: Sharing the Planet's Freshwater Resources , 2008 .

[70]  Wolfgang Lucht,et al.  Embodied HANPP: Mapping the spatial disconnect between global biomass production and consumption , 2009 .

[71]  S. Schneider,et al.  Climate Change 2007 Synthesis report , 2008 .

[72]  Helmut Haberl,et al.  The global socioeconomic energetic metabolism as a sustainability problem , 2006 .

[73]  Federico Maria Pulselli,et al.  Biocapacity vs Ecological Footprint of world regions: A geopolitical interpretation , 2012 .