All Stories

  1. Modelling ambitious climate mitigation pathways for Australia's built environment
  2. Transdisciplinary resource monitoring is essential to prioritize circular economy strategies in cities
  3. Bridging planetary boundaries and spatial heterogeneity in a hybrid approach: A focus on Chinese provinces and industries
  4. Implementing the material footprint to measure progress towards Sustainable Development Goals 8 and 12
  5. A multi-regional input-output analysis of direct and virtual urban water flows to reduce city water footprints in Australia
  6. Evidence of decoupling consumption-based CO2 emissions from economic growth
  7. Planetary Boundaries for Forests and Their National Exceedance
  8. Electric Vehicle Uptake: Understanding the Print Media’s Role in Changing Attitudes and Perceptions
  9. Benchmarking urban performance against absolute measures of sustainability – A review
  10. Modern slavery footprints in global supply chains
  11. The role of planetary boundaries in assessing absolute environmental sustainability across scales
  12. A review of trends and drivers of greenhouse gas emissions by sector from 1990 to 2018
  13. Creating multi‐scale nested MRIO tables for linking localized impacts to global consumption drivers
  14. City footprints and SDGs provide untapped potential for assessing city sustainability
  15. Increasing Electric Vehicle Uptake by Updating Public Policies to Shift Attitudes and Perceptions: Case Study of New Zealand
  16. Priorities for science to support national implementation of the sustainable development goals: A review of progress and gaps
  17. Modelling national transformations to achieve the SDGs within planetary boundaries in small island developing states
  18. Quantifying carbon flows in Switzerland: top-down meets bottom-up modelling
  19. Assessing the greenhouse gas mitigation potential of urban precincts with hybrid life cycle assessment
  20. Hidden Energy Flow indicator to reflect the outsourced energy requirements of countries
  21. A review of the water-related energy consumption of the food system in nexus studies
  22. Discovery of a possible Well-being Turning Point within energy footprint accounts which may support the degrowth theory
  23. A two-stage clustering approach to investigate lifestyle carbon footprints in two Australian cities
  24. Exploring consumption-based planetary boundary indicators: An absolute water footprinting assessment of Chinese provinces and cities
  25. Implications of Trends in Energy Return on Energy Invested (EROI) for Transitioning to Renewable Electricity
  26. Three‐scope carbon emission inventories of global cities
  27. Global socio-economic losses and environmental gains from the Coronavirus pandemic
  28. The capital load of global material footprints
  29. Scientists’ warning on affluence
  30. Spatial consumption-based carbon footprint assessments - A review of recent developments in the field
  31. Saving less in China facilitates global CO2 mitigation
  32. The sharing economy and sustainability – assessing Airbnb’s direct, indirect and induced carbon footprint in Sydney
  33. The impact of value engineering on embodied greenhouse gas emissions in the built environment: A hybrid life cycle assessment
  34. Enabling Full Supply Chain Corporate Responsibility: Scope 3 Emissions Targets for Ambitious Climate Change Mitigation
  35. Greater gains for Australia by tackling all SDGs but the last steps will be the most challenging
  36. Supply-side carbon accounting and mitigation analysis for Beijing-Tianjin-Hebei urban agglomeration in China
  37. Urban-rural disparities of household energy requirements and influence factors in China: Classification tree models
  38. What can we learn from consumption-based carbon footprints at different spatial scales? Review of policy implications
  39. A flexible framework for assessing the sustainability of alternative water supply options
  40. Review on City-Level Carbon Accounting
  41. Carbon emissions embodied in China–Australia trade: A scenario analysis based on input–output analysis and panel regression models
  42. Global supply chains hotspots of a wind energy company
  43. Towards meaningful consumption-based planetary boundary indicators: The phosphorus exceedance footprint
  44. Assessing Embodied Greenhouse Gas Emissions in the Built Environment
  45. Development of Low-Carbon Urban Forms—Concepts, Tools and Scenario Analysis
  46. Implementing hybrid LCA routines in an input–output virtual laboratory
  47. Decoupling between human development and energy consumption within footprint accounts
  48. Consumption-based greenhouse gas emissions accounting with capital stock change highlights dynamics of fast-developing countries
  49. Modeling the carbon budget of the Australian electricity sector's transition to renewable energy
  50. Prioritising SDG targets: assessing baselines, gaps and interlinkages
  51. Decomposition of integrated hybrid life cycle inventories by origin and final-stage inputs
  52. Mixed-unit hybrid life cycle assessment applied to the recycling of construction materials
  53. Eutrophication’s neglected drivers
  54. Advancements in Input‐Output Models and Indicators for Consumption‐Based Accounting
  55. Initial progress in implementing the Sustainable Development Goals (SDGs): a review of evidence from countries
  56. Environmental and social footprints of international trade
  57. The Australian industrial ecology virtual laboratory and multi-scale assessment of buildings and construction
  58. Assessing carbon footprints of cities under limited information
  59. Global warming impact of suburbanization: The case of Sydney
  60. Hybrid life cycle inventory methods – A review
  61. Electrifying Australian transport: Hybrid life cycle analysis of a transition to electric light-duty vehicles and renewable electricity
  62. Computing life-cycle emissions from transitioning the electricity sector using a discrete numerical approach
  63. Urban carbon transformations: unravelling spatial and inter-sectoral linkages for key city industries based on multi-region input–output analysis
  64. Indicator-based assessments of progress towards the sustainable development goals (SDGs): a case study from the Arab region
  65. Hybrid life cycle assessment of greenhouse gas emissions from cement, concrete and geopolymer concrete in Australia
  66. On the decomposition of total impact multipliers in a supply and use framework
  67. The Global MRIO Lab – charting the world economy
  68. New multi-regional input–output databases for Australia – enabling timely and flexible regional analysis
  69. Cost and embodied carbon reductions in cutter soil mix walls through fibre reinforcement
  70. An input–output virtual laboratory in practice – survey of uptake, usage and applications of the first operational IELab
  71. An Iterative Framework for National Scenario Modelling for the Sustainable Development Goals (SDGs)
  72. Replacement Scenarios for Construction Materials Based on Economy-wide Hybrid LCA
  73. The Carbon Footprint of Australia's Construction Sector
  74. Towards an Automated Approach for Compiling Hybrid Life Cycle Inventories
  75. Transnational city carbon footprint networks – Exploring carbon links between Australian and Chinese cities
  76. National pathways to the Sustainable Development Goals (SDGs): A comparative review of scenario modelling tools
  77. Corrigendum to “Consumption-based material flow indicators — Comparing six ways of calculating the Austrian raw material consumption providing six results” [Ecol. Econ., 128, August 2016, pages 177–186]
  78. Decoupling global environmental pressure and economic growth: scenarios for energy use, materials use and carbon emissions
  79. Consumption-based material flow indicators — Comparing six ways of calculating the Austrian raw material consumption providing six results
  80. City Carbon Footprint Networks
  81. Erratum to “International inequality of environmental pressures: Decomposition and comparative analysis” [Ecol. Indic. 62 (2016) 163–173]
  82. Carbon footprint scenarios for renewable electricity in Australia
  83. International inequality of environmental pressures: Decomposition and comparative analysis
  84. Case Studies of the Economic, Environmental, and Social Impacts of Direct Potable Reuse
  85. CO 2 emission clusters within global supply chain networks: Implications for climate change mitigation
  86. The Concept of City Carbon Maps: A Case Study of Melbourne, Australia
  87. National greenhouse-gas accounting for effective climate policy on international trade
  88. Making Sense of the Minefield of Footprint Indicators
  89. Integrated Carbon Metrics and Assessment for the Built Environment
  90. A STRUCTURAL DECOMPOSITION APPROACH TO COMPARING MRIO DATABASES
  91. Compiling and using input–output frameworks through collaborative virtual laboratories
  92. The footprint of using metals: new metrics of consumption and productivity
  93. Humanity’s unsustainable environmental footprint
  94. Greenhouse Gas Emissions and the Australian Diet—Comparing Dietary Recommendations with Average Intakes
  95. The material footprint of nations
  96. Carbon footprints of cities and other human settlements in the UK
  97. Consumption-based GHG emission accounting: a UK case study
  98. POLICY-RELEVANT APPLICATIONS OF ENVIRONMENTALLY EXTENDED MRIO DATABASES – EXPERIENCES FROM THE UK
  99. Modelling Interactions Between Economic Activity, Greenhouse Gas Emissions, Biodiversity and Agricultural Production
  100. Our materials footprint may be smaller, but still oversize
  101. Integrating ecological and water footprint accounting in a multi-regional input–output framework
  102. General approaches for assessing urban environmental sustainability
  103. Integrating Ecological, Carbon and Water footprint into a “Footprint Family” of indicators: Definition and role in tracking human pressure on the planet
  104. Defining (Urban) Producer and Consumer Sinks
  105. A greenhouse gas footprint analysis of UK Central Government, 1990–2008
  106. Quo Vadis MRIO? Methodological, data and institutional requirements for multi-region input–output analysis
  107. Application of Hybrid Life Cycle Approaches to Emerging Energy Technologies – The Case of Wind Power in the UK
  108. Identification of ‘Carbon Hot-Spots’ and Quantification of GHG Intensities in the Biodiesel Supply Chain Using Hybrid LCA and Structural Path Analysis
  109. Comment on “Corporate Carbon Performance Indicators Revisited”
  110. A Review of the Ecological Footprint Indicator—Perceptions and Methods
  111. UNCERTAINTY ANALYSIS FOR MULTI-REGION INPUT–OUTPUT MODELS – A CASE STUDY OF THE UK'S CARBON FOOTPRINT
  112. A CARBON FOOTPRINT TIME SERIES OF THE UK – RESULTS FROM A MULTI-REGION INPUT–OUTPUT MODEL
  113. Book Review: The sustainability practitioner's guide to input-output analysis edited by Joy Murray and Richard Wood
  114. A review of recent multi-region input–output models used for consumption-based emission and resource accounting
  115. EDITORIAL: CARBON FOOTPRINT AND INPUT–OUTPUT ANALYSIS – AN INTRODUCTION
  116. Environmental implications of urbanization and lifestyle change in China: Ecological and Water Footprints
  117. INPUT–OUTPUT ANALYSIS AND CARBON FOOTPRINTING: AN OVERVIEW OF APPLICATIONS
  118. Companies on the Scale
  119. A first empirical comparison of energy Footprints embodied in trade — MRIO versus PLUM
  120. A research agenda for improving national Ecological Footprint accounts
  121. The CO2 ‘trade balance’ between Scotland and the rest of the UK: Performing a multi-region environmental input–output analysis with limited data
  122. Unravelling the Impacts of Supply Chains—A New Triple-Bottom-Line Accounting Approach and Software Tool
  123. Examining the global environmental impact of regional consumption activities — Part 1: A technical note on combining input–output and ecological footprint analysis
  124. Shared producer and consumer responsibility — Theory and practice
  125. On the conversion between local and global hectares in Ecological Footprint analysis
  126. Examining the global environmental impact of regional consumption activities — Part 2: Review of input–output models for the assessment of environmental impacts embodied in trade
  127. The Environmental Impacts of Consumption at a Subnational Level
  128. Allocating ecological footprints to final consumption categories with input–output analysis
  129. Exploring the application of the Ecological Footprint to sustainable consumption policy
  130. Lehrbuch zur Umweltchemie: Basic Concepts of Environmental Chemistry. Von D. W. Connell. CRC Press, Boca Raton, 1997. 506 S., geb., 93- DM. ISBN 0-87371-998-0.
  131. Alles zu PVC: PVC und Umwelt. Eine Bestandsaufnahme. Von H. Pohle. Springer, Heidelberg, 1997. 222 S., geb., 98,- DM. ISBN 3-540-61705-1.
  132. Influence of the substitution pattern on the microbial degradation of mono- to tetrachlorinated dibenzo-p-dioxins and dibenzofurans
  133. Global Distribution of Tetrachloroethene in the Troposphere: Measurements and Modeling
  134. Quantification of chlorinated naphthalenes with GC-MS using the molar response of electron impact ionization
  135. Shortcomings of a growth-driven food system