Content
June 2021, Volume 25, Issue 3
- 593-613 What effects does material flow cost accounting have for companies?: Evidence from a case studies analysis
by Matthias Walz & Edeltraud Guenther - 614-626 Update to limits to growth: Comparing the World3 model with empirical data
by Gaya Herrington - 627-647 Orchestrating cradle‐to‐cradle innovation across the value chain: Overcoming barriers through innovation communities, collaboration mechanisms, and intermediation
by Erik G. Hansen & Julia C. Schmitt - 648-662 Symbiosis opportunities between food and energy system: The potential of manure‐based biogas as heating source for greenhouse production
by Vanessa Burg & Farzin Golzar & Gillianne Bowman & Stefanie Hellweg & Ramin Roshandel - 663-676 A biophysical model of the industrial revolution
by Christopher Kennedy - 677-692 Environmental benefits of large‐scale second‐generation bioethanol production in the EU: An integrated supply chain network optimization and life cycle assessment approach
by Lars Wietschel & Lukas Messmann & Andrea Thorenz & Axel Tuma - 693-706 The evolution of consumer electronic waste in the United States
by Shahana Althaf & Callie W. Babbitt & Roger Chen - 707-719 Drivers of GHG emissions from dietary transition patterns in China: Supply versus demand options
by Pan He & Beiming Cai & Giovanni Baiocchi & Zhu Liu - 720-734 Hydrothermal carbonization for sludge disposal in Germany: A comparative assessment for industrial‐scale scenarios in 2030
by Daniel Reißmann & Daniela Thrän & Dennis Blöhse & Alberto Bezama - 735-750 Three‐scope carbon emission inventories of global cities
by Thomas Wiedmann & Guangwu Chen & Anne Owen & Manfred Lenzen & Michael Doust & John Barrett & Kristian Steele - 751-764 Regional consumption, material flows, and their driving forces: A case study of China's Beijing–Tianjin–Hebei (Jing–Jin–Ji) urban agglomeration
by Yanxian Li & Jiawen Wang & Dan Xian & Yan Zhang & Xiangyi Yu - 765-777 Absolute environmental sustainability assessment of a Danish utility company relative to the Planetary Boundaries
by Morten W. Ryberg & Troels K. Bjerre & Per Henrik Nielsen & Michael Hauschild - 778-788 Emission reduction potentials for academic conference travel
by Stijn van Ewijk & Paul Hoekman - 789-801 Eco‐efficiency of a marine biorefinery for valorization of cartilaginous fish biomass
by Xela García‐Santiago & Amaya Franco‐Uría & Luis T. Antelo & José A. Vázquez & Ricardo Pérez‐Martín & M. Teresa Moreira & Gumersindo Feijoo - 802-815 Utilizing grass for the biological production of polyhydroxyalkanoates (PHAs) via green biorefining: Material and energy flows
by Tim Patterson & Jaime Massanet‐Nicolau & Rhys Jones & Alessio Boldrin & Francesco Valentino & Richard Dinsdale & Alan Guwy - 816-817 Book Review of More from Less: The Surprising Story of How We Learned to Prosper Using Fewer Resources―and What Happens Next, by Andrew McAfee
by Iddo K. Wernick
April 2021, Volume 25, Issue 2
- 254-259 Material efficiency for climate change mitigation
by Eric Masanet & Niko Heeren & Shigemi Kagawa & Jonathan Cullen & Reid Lifset & Richard Wood - 260-273 Linking service provision to material cycles: A new framework for studying the resource efficiency–climate change (RECC) nexus
by Stefan Pauliuk & Tomer Fishman & Niko Heeren & Peter Berrill & Qingshi Tu & Paul Wolfram & Edgar G. Hertwich - 274-287 Calculating the chemical exergy of materials
by Charalampos Michalakakis & Jeremy Fouillou & Richard C. Lupton & Ana Gonzalez Hernandez & Jonathan M. Cullen - 288-304 Development of a bridge circularity assessment framework to promote resource efficiency in infrastructure projects
by Tom B. J. Coenen & João Santos & Sonja A. A. M. Fennis & Johannes I. M. Halman - 305-320 A comprehensive set of global scenarios of housing, mobility, and material efficiency for material cycles and energy systems modeling
by Tomer Fishman & Niko Heeren & Stefan Pauliuk & Peter Berrill & Qingshi Tu & Paul Wolfram & Edgar G. Hertwich - 321-332 A new method to estimate the lifetime of long‐life product categories
by Cyrille F. Dunant & Trishla Shah & Michał P. Drewniok & Matteo Craglia & Jonathan M. Cullen - 333-343 Global material flow analysis of glass: From raw materials to end of life
by Coenraad D. Westbroek & Jennifer Bitting & Matteo Craglia & José M. C. Azevedo & Jonathan M. Cullen - 344-358 Potential CO2 reduction and uptake due to industrialization and efficient cement use in Brazil by 2050
by Daniel Costa Reis & Marco Quattrone & Jhonathan F. T. Souza & Katia R. G. Punhagui & Sergio A. Pacca & Vanderley M. John - 359-376 Decarbonizing the cementitious materials cycle: A whole‐systems review of measures to decarbonize the cement supply chain in the UK and European contexts
by Sarah Pamenter & Rupert J. Myers - 377-389 Mapping the EU tomato supply chain from farm to fork for greenhouse gas emission mitigation strategies
by Li Xue & Zhi Cao & Silvia Scherhaufer & Karin Östergren & Shengkui Cheng & Gang Liu - 390-402 Emission reduction strategies in the EU steel industry: Implications for business model innovation
by Matilda Axelson & Sebastian Oberthür & Lars J. Nilsson - 403-418 Whole‐life embodied carbon in multistory buildings: Steel, concrete and timber structures
by Jim Hart & Bernardino D'Amico & Francesco Pomponi - 419-434 Temporal analysis of the material flows and embodied greenhouse gas emissions of a neighborhood building stock
by Carine Lausselet & Johana Paola Forero Urrego & Eirik Resch & Helge Brattebø - 435-447 The role of consumer preferences in reducing material intensity of electronic products
by Barbara Kasulaitis & Callie W. Babbitt & Anna Christina Tyler - 448-464 Reducing the carbon footprint of ICT products through material efficiency strategies: A life cycle analysis of smartphones
by Mauro Cordella & Felice Alfieri & Javier Sanfelix - 465-478 The link between product service lifetime and GHG emissions: A comparative study for different consumer products
by Simon Glöser‐Chahoud & Matthias Pfaff & Frank Schultmann - 479-493 Material efficiency and its contribution to climate change mitigation in Germany: A deep decarbonization scenario analysis until 2060
by Stefan Pauliuk & Niko Heeren - 494-510 Material efficiency and climate change mitigation of passenger vehicles
by Paul Wolfram & Qingshi Tu & Niko Heeren & Stefan Pauliuk & Edgar G. Hertwich - 511-522 Do material efficiency improvements backfire?: Insights from an index decomposition analysis about the link between CO2 emissions and material use for Austria
by Barbara Plank & Nina Eisenmenger & Anke Schaffartzik - 523-536 Do sectoral material efficiency improvements add up to greenhouse gas emissions reduction on an economy‐wide level?
by Yingying Lu & Heinz Schandl - 537-537 Corrigendum to Mohr, M., Peters, J.F., Baumann, M., and Weil, M. (2020). Toward a cell‐chemistry specific life cycle assessment of lithium‐ion battery recycling processes. Journal of Industrial Ecology 24(6): 1310‐1322
by Marit Mohr & Jens F. Peters & Manuel Baumann & Marcel Weil
February 2021, Volume 25, Issue 1
- 6-19 Sharing the safe operating space: Exploring ethical allocation principles to operationalize the planetary boundaries and assess absolute sustainability at individual and industrial sector levels
by Anjila Wegge Hjalsted & Alexis Laurent & Martin Marchman Andersen & Karen Holm Olsen & Morten Ryberg & Michael Hauschild - 20-35 Improving the reliability of chemical manufacturing life cycle inventory constructed using secondary data
by David E. Meyer & Sarah Cashman & Anthony Gaglione - 36-50 Modeling the circular economy in environmentally extended input–output: A web application
by Franco Donati & Sidney Niccolson & Arjan de Koning & Bart Daniels & Maarten Christis & Katrien Boonen & Theo Geerken & João F. D. Rodrigues & Arnold Tukker - 51-66 Data representativeness in LCA: A framework for the systematic assessment of data quality relative to technology characteristics
by Trine Henriksen & Thomas F. Astrup & Anders Damgaard - 67-78 Quantifying environmental impacts of primary aluminum ingot production and consumption : A trade‐linked multilevel life cycle assessment
by Alexandre Milovanoff & I. Daniel Posen & Heather L. MacLean - 79-94 Subnational greenhouse gas and land‐based biodiversity footprints in the European Union
by Harry C. Wilting & Aafke M. Schipper & Olga Ivanova & Diana Ivanova & Mark A. J. Huijbregts - 95-113 Implications of the distribution of German household environmental footprints across income groups for integrating environmental and social policy design
by Gilang Hardadi & Alexander Buchholz & Stefan Pauliuk - 114-124 Static material flow analysis of neodymium in China
by Jingxuan Geng & Han Hao & Xin Sun & Dengye Xun & Zongwei Liu & Fuquan Zhao - 125-143 The use of steel in the United Kingdom's transport sector: A stock–flow–service nexus case study
by Luis Gabriel Carmona & Kai Whiting & Helmut Haberl & Tânia Sousa - 144-161 Chronological change of resource metabolism and decarbonization patterns in Pakistan: Perspectives from a typical developing country
by Izhar Hussain Shah & Hung‐Suck Park - 162-175 Urban development and sustainability challenges chronicled by a century of construction material flows and stocks in Tiexi, China
by Jing Guo & Tomer Fishman & Yao Wang & Alessio Miatto & Wendy Wuyts & Licheng Zheng & Heming Wang & Hiroki Tanikawa - 176-192 Reunderstanding Cairo through urban metabolism: Formal versus informal districts resource flow performance in fast urbanizing cities
by Heba Allah Essam E. Khalil & Ahmad Al‐Ahwal - 193-204 Ecological network analysis of urban–industrial ecosystems
by Zackery B. Morris & Marc Weissburg & Bert Bras - 205-218 Nestedness of eco‐industrial networks: Exploring linkage distribution to promote sustainable industrial growth
by Colton Brehm & Astrid Layton - 219-232 Alternatives for natural‐gas‐based heating systems: A quantitative GIS‐based analysis of climate impacts and financial feasibility
by Teun Johannes Verhagen & Ester van der Voet & Benjamin Sprecher - 233-247 Design of concrete : Setting a new basis for improving both durability and environmental performance
by Anne Ventura & Van‐Loc Ta & Tristan Senga Kiessé & Stéphanie Bonnet
December 2020, Volume 24, Issue 6
- 1192-1200 Circular economy finance: Clear winner or risky proposition?
by Paul Dewick & Magnus Bengtsson & Maurie J. Cohen & Joseph Sarkis & Patrick Schröder - 1201-1219 LC‐IMPACT: A regionalized life cycle damage assessment method
by Francesca Verones & Stefanie Hellweg & Assumpció Antón & Ligia B. Azevedo & Abhishek Chaudhary & Nuno Cosme & Stefano Cucurachi & Laura de Baan & Yan Dong & Peter Fantke & Laura Golsteijn & Michael Hauschild & Reinout Heijungs & Olivier Jolliet & Ronnie Juraske & Henrik Larsen & Alexis Laurent & Christopher L. Mutel & Manuele Margni & Montserrat Núñez & Mikolaj Owsianiak & Stephan Pfister & Tommie Ponsioen & Philipp Preiss & Ralph K. Rosenbaum & Pierre‐Olivier Roy & Serenella Sala & Zoran Steinmann & Rosalie van Zelm & Rita Van Dingenen & Marisa Vieira & Mark A. J. Huijbregts - 1220-1233 Proposal for a new compilation system for metal ores in economy wide material flow accounting
by James West & Mirko Lieber & Stephan Lutter & Heinz Schandl - 1234-1249 A systematic approach to assess the environmental impact of emerging technologies: A case study for the GHG footprint of CIGS solar photovoltaic laminate
by Mitchell K. van der Hulst & Mark A. J. Huijbregts & Niels van Loon & Mirjam Theelen & Lucinda Kootstra & Joseph D. Bergesen & Mara Hauck - 1250-1273 Circular value creation architectures: Make, ally, buy, or laissez‐faire
by Erik G. Hansen & Ferdinand Revellio - 1274-1286 Diffusion of labor standards through supplier–subcontractor networks: An agent‐based model
by Stefan Gold & Thomas Chesney & Tim Gruchmann & Alexander Trautrims - 1287-1299 The carbon footprint of foreign multinationals within the European Union
by Mateo Ortiz & María‐Ángeles Cadarso & Luis‐Antonio López - 1300-1309 Is the beneficial use of wood ash environmentally beneficial? A screening‐level life cycle assessment and uncertainty analysis
by Caroline Gaudreault & Ilich Lama & Derek Sain - 1310-1322 Toward a cell‐chemistry specific life cycle assessment of lithium‐ion battery recycling processes
by Marit Mohr & Jens F. Peters & Manuel Baumann & Marcel Weil - 1323-1337 Direct and indirect vulnerability of economic sectors to water scarcity: A hotspot analysis of the Indian economy
by Shelly Bogra & Bhavik R. Bakshi - 1338-1351 Wastewater treatment system optimization with an industrial symbiosis model: A case study of a Chinese eco‐industrial park
by Wanqiu Hu & Jinping Tian & Xing Li & Lujun Chen - 1352-1363 Transforming the coal and steel nexus for China's eco‐civilization: Interplay between rail and energy infrastructure
by Qian Zhang & Christopher Kennedy & Tao Wang & Wendong Wei & Jiashuo Li & Lei Shi - 1364-1378 Material stock development of the transport sector in the city of Vienna
by Andreas Gassner & Jakob Lederer & Johann Fellner - 1379-1392 Sustainability assessment of a novel micro solar thermal: Biomass heat and power plant in Morocco
by Israel Herrera & Irene Rodríguez‐Serrano & Daniel Garrain & Yolanda Lechón & Armando Oliveira
October 2020, Volume 24, Issue 5
- 940-942 Winners of the 2019 Graedel Prizes: The Journal of Industrial Ecology Best Paper Prizes
by Chris Kennedy & Reid Lifset - 943-950 Suggested use? On evidence‐based decision‐making in industrial ecology and beyond
by Junming Zhu - 951-964 City‐level water withdrawal in China: Accounting methodology and applications
by Zongyong Zhang & Junguo Liu & Bofeng Cai & Yuli Shan & Heran Zheng & Xian Li & Xukun Li & Dabo Guan - 965-975 Making use of life cycle assessment and environmental product declarations: A survey with practitioners
by Bruno Menezes Galindro & Sebastian Welling & Niki Bey & Stig Irving Olsen & Sebastião Roberto Soares & Sven‐Olof Ryding - 976-985 Efficient computation of environmentally extended input–output scenario and circular economy modeling
by Hale Çetinay & Franco Donati & Reinout Heijungs & Benjamin Sprecher - 986-1003 Methodological review and detailed guidance for the life cycle interpretation phase
by Alexis Laurent & Bo P. Weidema & Jane Bare & Xun Liao & Danielle Maia de Souza & Massimo Pizzol & Serenella Sala & Hanna Schreiber & Nils Thonemann & Francesca Verones - 1004-1015 Do we have enough natural sand for low‐carbon infrastructure?
by Dimitra Ioannidou & Guido Sonnemann & Sangwon Suh - 1016-1030 Life cycle greenhouse gas emission and cost analysis of prefabricated concrete building façade elements
by Chunbo Zhang & Mingming Hu & Xining Yang & Arianna Amati & Arnold Tukker - 1031-1046 Rethinking environmental LCA life stages for transport infrastructure to facilitate holistic assessment
by Shoshanna Saxe & Dena Kasraian - 1047-1058 Energy and capital
by Christopher Kennedy - 1059-1073 Bioeconomic transition?: Projecting consumption‐based biomass and fossil material flows to 2050
by Raphael Asada & Tamás Krisztin & Fulvio di Fulvio & Florian Kraxner & Tobias Stern - 1074-1087 Monitoring domestic material consumption at lower territorial levels: A novel data downscaling method
by Marco Bianchi & Carlos Tapia & Ikerne del Valle - 1088-1100 Irrigation technology and water rebound in China's agricultural sector
by Lin Fang & Fengping Wu & Yantuan Yu & Lin Zhang - 1101-1112 Eco‐efficiency of water and wastewater management in food production: A case study from a large dairy in Denmark
by Julie Skrydstrup & Sille Lyster Larsen & Martin Rygaard - 1113-1125 Renewables‐based decarbonization and relocation of iron and steel making: A case study
by Dolf Gielen & Deger Saygin & Emanuele Taibi & Jean‐Pierre Birat - 1126-1139 Economic aspirations connected to innovations in carbon capture and utilization value chains
by Henriette Naims - 1140-1157 The relationship between environmental performance and environmental disclosure: A meta‐analysis
by My Hanh Doan & Remmer Sassen - 1158-1170 Comparing energy and water use of aqueous and gas‐based metalworking fluids
by Sarang D. Supekar & Diane J. Graziano & Steven J. Skerlos & Joseph Cresko - 1171-1185 Environmental impact assessment of plasma‐assisted and conventional ammonia synthesis routes
by Aikaterini Anastasopoulou & Robin Keijzer & Bhaskar Patil & Jürgen Lang & Gerard van Rooij & Volker Hessel
August 2020, Volume 24, Issue 4
- 736-747 LCAart: Communicating industrial ecology at a human scale
by Matthew J. Eckelman & Michelle M. Laboy - 748-762 The potential for material circularity and independence in the U.S. steel sector
by Daniel R. Cooper & Nicole A. Ryan & Kyle Syndergaard & Yongxian Zhu - 763-773 Restorative and regenerative: Exploring the concepts in the circular economy
by Piero Morseletto - 774-790 Hybridization of complete PLCA and MRIO databases for a comprehensive product system coverage
by Maxime Agez & Richard Wood & Manuele Margni & Anders H. Strømman & Réjean Samson & Guillaume Majeau‐Bettez - 791-803 The environmental impacts of operating an Antarctic research station
by Enda Crossin & Karli Verghese & Simon Lockrey & Hieu Ha & Gordon Young - 804-814 Development of an environmental impact reduction strategy for Australia's Antarctic infrastructure
by Simon Lockrey & Karli Verghese & Enda Crossin & Gordon Young - 815-829 A review of methods for characterizing the environmental consequences of actions in life cycle assessment
by Joseph Palazzo & Roland Geyer & Sangwon Suh - 830-840 Energy use in the global food system
by Arkaitz Usubiaga‐Liaño & Paul Behrens & Vassilis Daioglou - 841-854 Comparing urban food system characteristics and actions in US and Indian cities from a multi‐environmental impact perspective: Toward a streamlined approach
by Dana Boyer & Anu Ramaswami - 855-870 Spatial perspectives enhance modeling of nanomaterial risks
by Elizabeth A. Moore & Callie W. Babbitt & Brian Tomaszewski & Anna Christina Tyler - 871-886 Life cycle assessment comparison of wooden and plastic pallets in the grocery industry
by Sebastian K. Anil & Junfeng Ma & Gül E. Kremer & Charles David Ray & Shirin M. Shahidi - 887-898 The energy embodied in the first and second industrial revolutions
by Christopher Kennedy - 899-912 Impact of structural changes in wood‐using industries on net carbon emissions in Finland
by Elias Hurmekoski & Tanja Myllyviita & Jyri Seppälä & Tero Heinonen & Antti Kilpeläinen & Timo Pukkala & Tuomas Mattila & Lauri Hetemäki & Antti Asikainen & Heli Peltola - 913-922 Life cycle assessment of side stream removal and recovery of nitrogen from wastewater treatment plants
by Rosalie van Zelm & Raquel de Paiva Seroa da Motta & Wan Yee Lam & Wilbert Menkveld & Eddie Broeders - 923-934 CO2 emissions from the Chinese cement sector: Analysis from both the supply and demand sides
by Tao Du & Jian Wang & Heming Wang & Xin Tian & Qiang Yue & Hiroki Tanikawa
June 2020, Volume 24, Issue 3
- 446-458 ODYM—An open software framework for studying dynamic material systems: Principles, implementation, and data structures
by Stefan Pauliuk & Niko Heeren - 459-472 A new physical accounting model for material flows in urban systems with application to the Stockholm Royal Seaport District
by Asterios Papageorgiou & Rajib Sinha & Björn Frostell & Cecilia Sundberg - 473-484 Identifying Amsterdam's nutrient hotspots: A new method to map human excreta at building and neighborhood scale
by Rosanne Wielemaker & John Stuiver & Grietje Zeeman & Jan Weijma - 485-499 Review of impact categories and environmental indicators for life cycle assessment of geotechnical systems
by Alena J. Raymond & James R. Tipton & Alissa Kendall & Jason T. DeJong - 500-516 A life‐cycle assessment model for zero emission neighborhoods
by Carine Lausselet & Linda Ager‐Wick Ellingsen & Anders Hammer Strømman & Helge Brattebø - 517-533 Lifting the veil on the correction of double counting incidents in hybrid life cycle assessment
by Maxime Agez & Guillaume Majeau‐Bettez & Manuele Margni & Anders H. Strømman & Réjean Samson - 534-547 The life cycle carbon balance of selective logging in tropical forests of Costa Rica
by Federico E. Alice‐Guier & Frits Mohren & Pieter A. Zuidema - 548-563 Supply versus use designs of environmental extensions in input–output analysis: Conceptual and empirical implications for the case of energy
by Hanspeter Wieland & Stefan Giljum & Nina Eisenmenger & Dominik Wiedenhofer & Martin Bruckner & Anke Schaffartzik & Anne Owen - 564-576 A cost–benefit analysis of the environmental taxation policy in China: A frontier analysis‐based environmentally extended input–output optimization method
by Ke Wang & Jiayu Wang & Klaus Hubacek & Zhifu Mi & Yi‐Ming Wei - 577-588 Key sectors in greenhouse gas emissions in Spain: An alternative input–output analysis
by Vicent Alcántara & Emilio Padilla - 589-600 Capital in the American carbon, energy, and material footprint
by Peter Berrill & T. Reed Miller & Yasushi Kondo & Edgar G. Hertwich - 601-614 Meat, dairy, and more: Analysis of material, energy, and greenhouse gas flows of the meat and dairy supply chains in the EU28 for 2016
by Stephen Ivan aan den Toorn & Ernst Worrell & Machteld A. van den Broek - 615-625 Circular economy innovations, growth and employment at the firm level: Empirical evidence from Germany
by Jens Horbach & Christian Rammer - 626-638 Evaluating the environmental performance of producing soil and surfaces through industrial symbiosis
by Michael Martin - 639-652 Machine learning based modeling of households: A regionalized bottom‐up approach to investigate consumption‐induced environmental impacts
by Andreas Froemelt & René Buffat & Stefanie Hellweg - 653-664 Greenhouse gas emissions of the production chain behind consumption of products in Austria: Development and application of a product‐ and technology‐specific approach
by Bernhard Windsperger & Andreas Windsperger & David Neil Bird & Hannes Schwaiger & Gerfried Jungmeier & Carsten Nathani & Rolf Frischknecht - 665-680 Impacts of biogas production on nitrogen flows on Dutch dairy system: Multiple level assessment of nitrogen indicators within the biogas production chain
by Dieu Linh Hoang & Chris Davis & Henri C. Moll & Sanderine Nonhebel - 681-694 Environmental sustainability of orthopedic devices produced with powder bed fusion
by Grazia Maria Cappucci & Martina Pini & Paolo Neri & Marta Marassi & Elena Bassoli & Anna Maria Ferrari - 695-706 Eco‐efficiency assessment of calcium sulfoaluminate clinker production
by José‐Luis Gálvez‐Martos & Antonio Valente & Mathías Martínez‐Fernández & Javier Dufour - 707-725 Regional material flow behaviors of agro‐food processing craft villages in Red River Delta, Vietnam
by Nguyet Thi Tran & Dirk Weichgrebe - 726-730 Book Review of Life Cycle Assessment: Theory and Practice, edited by Michael Z. Hauschild, Ralph K. Rosenbaum, and Stig Irving Olsen; Environmental Life Cycle Assessment, by Olivier Jolliet, Myriam Saadé‐Sbeih, Shanna Shaked, Alexandre Jolliet, and Pierre Crettaz; and Life Cycle Assessment: Quantitative Approaches for Decisions That Matter, by H. Scott Matthews, Chris T. Hendrickson, and Deanna H. Matthews
by Bo Weidema & Miguel Brandão
April 2020, Volume 24, Issue 2
- 268-270 Winners of the 2018 Graedel Prizes: The Journal of Industrial Ecology best paper prizes
by Christopher Kennedy & Reid Lifset - 271-275 Industrial ecology in support of climate change adaptation
by Mikhail V. Chester - 276-284 A text mining analysis of the climate change literature in industrial ecology
by Fazle Rabbi Dayeen & Abhinav S. Sharma & Sybil Derrible - 285-290 Industrial ecology, climate adaptation, and financial risk
by Timo Busch - 291-299 Mineral resources in the age of climate adaptation and resilience
by Raimund Bleischwitz - 300-312 From the urban metabolism to the urban immune system
by David N. Bristow & Eugene A. Mohareb - 313-317 The role of industrial ecology in food and agriculture's adaptation to climate change
by Alissa Kendall & Edward S. Spang - 318-330 Toward sustainable climate change adaptation
by Yi Yang & Beibei Liu & Peng Wang & Wei‐Qiang Chen & Timothy M. Smith - 331-341 Toward a research agenda on climate‐related migration
by Clinton J. Andrews - 342-355 Climate change impacts on asphalt road pavement construction and maintenance: An economic life cycle assessment of adaptation measures in the State of Virginia, United States
by Yaning Qiao & Joao Santos & Anne M.K. Stoner & Gerardo Flinstch - 356-368 Incorporating the impacts of climate change into infrastructure life cycle assessments: A case study of pavement service life performance
by Geoffrey Guest & Jieying Zhang & Omran Maadani & Hamidreza Shirkhani - 369-382 The weight of islands: Leveraging Grenada's material stocks to adapt to climate change
by Rob Symmes & Tomer Fishman & John N. Telesford & Simron J. Singh & Su‐Yin Tan & Kristen De Kroon - 383-399 Overcoming climate change adaptation barriers: A study on food–energy–water impacts of the average American diet by demographic group
by Joe F. Bozeman & Rayne Bozeman & Thomas L. Theis - 400-409 Breathing life into climate change adaptation
by Frank Stadler & Luke Houghton - 410-423 Heat island effects in urban life cycle assessment: Novel insights to include the effects of the urban heat island and UHI‐mitigation measures in LCA for effective policy making
by Tiziana Susca & Francesco Pomponi - 424-435 An integrated model of real estate market responses to coastal flooding
by Handi Chandra‐Putra & Clinton J. Andrews
February 2020, Volume 24, Issue 1
- 6-10 Bringing a life cycle perspective to emerging technology development
by Joule Bergerson & Stefano Cucurachi & Thomas P. Seager - 11-25 Life cycle assessment of emerging technologies: Evaluation techniques at different stages of market and technical maturity
by Joule A. Bergerson & Adam Brandt & Joe Cresko & Michael Carbajales‐Dale & Heather L. MacLean & H. Scott Matthews & Sean McCoy & Marcelle McManus & Shelie A. Miller & William R. Morrow & I. Daniel Posen & Thomas Seager & Timothy Skone & Sylvia Sleep - 26-37 LiSET: A Framework for Early‐Stage Life Cycle Screening of Emerging Technologies
by Christine Roxanne Hung & Linda Ager‐Wick Ellingsen & Guillaume Majeau‐Bettez - 38-51 Prospective Environmental Analyses of Emerging Technology: A Critique, a Proposed Methodology, and a Case Study on Incremental Sheet Forming
by Daniel R. Cooper & Timothy G. Gutowski - 52-63 Life cycle assessment of emerging technologies: A review
by Sheikh Moniruzzaman Moni & Roksana Mahmud & Karen High & Michael Carbajales‐Dale - 64-79 When the Background Matters: Using Scenarios from Integrated Assessment Models in Prospective Life Cycle Assessment
by Angelica Mendoza Beltran & Brian Cox & Chris Mutel & Detlef P. van Vuuren & David Font Vivanco & Sebastiaan Deetman & Oreane Y. Edelenbosch & Jeroen Guinée & Arnold Tukker - 80-89 Understanding the future of lithium: Part 1, resource model
by Hanjiro Ambrose & Alissa Kendall - 90-100 Understanding the future of lithium: Part 2, temporally and spatially resolved life‐cycle assessment modeling
by Hanjiro Ambrose & Alissa Kendall - 101-115 Life cycle assessment of emerging environmental technologies in the early stage of development: A case study on nanostructured materials
by Irene Bartolozzi & Tiberio Daddi & Carlo Punta & Andrea Fiorati & Fabio Iraldo - 116-127 Life cycle assessment of 3D printing geo‐polymer concrete: An ex‐ante study
by Yue Yao & Mingming Hu & Francesco Di Maio & Stefano Cucurachi - 128-137 Economic assessment and carbon footprint of recycling rare earths from magnets: Evaluation at lab scale paving the way toward industrialization
by Antoine Beylot & Nour‐Eddine Ménad & Alain Seron & Michel Delain & Alice Bizouard & Yannick Ménard & Jacques Villeneuve - 138-148 Life cycle assessment to quantify the impact of technology improvements in bike‐sharing systems
by Ricardo Javier Bonilla‐Alicea & Bryan C. Watson & Ziheng Shen & Laura Tamayo & Cassandra Telenko - 149-164 Life cycle sustainability assessment of autonomous heavy‐duty trucks
by Burak Sen & Murat Kucukvar & Nuri C. Onat & Omer Tatari - 165-177 Technoecological analysis of energy carriers for long‐haul transportation
by Sebastian Wolff & Michael Fries & Markus Lienkamp - 178-192 Using anticipatory life cycle assessment to enable future sustainable construction
by Verena Göswein & Carla Rodrigues & José D. Silvestre & Fausto Freire & Guillaume Habert & Jakob König - 193-204 Life cycle assessment of emerging technologies at the lab scale: The case of nanowire‐based solar cells
by Georgios Pallas & Martina G. Vijver & Willie J. G. M. Peijnenburg & Jeroen Guinée - 205-216 Environmental impacts and limitations of third‐generation biobutanol: Life cycle assessment of n‐butanol produced by genetically engineered cyanobacteria
by Astrid Nilsson & Kiyan Shabestary & Miguel Brandão & Elton P. Hudson - 217-233 A region‐specific environmental analysis of technology implementation of hydrogen energy in Japan based on life cycle assessment
by Teruyuki Shimizu & Kei Hasegawa & Manabu Ihara & Yasunori Kikuchi - 234-247 Environmental and economic impacts of solar‐powered integrated greenhouses
by Joseph A. Hollingsworth & Eshwar Ravishankar & Brendan O'Connor & Jeremiah X. Johnson & Joseph F. DeCarolis - 248-262 Site‐specific life cycle assessment of a pilot floating offshore wind farm based on suppliers’ data and geo‐located wind data
by Baptiste Poujol & Anne Prieur‐Vernat & Jean Dubranna & Romain Besseau & Isabelle Blanc & Paula Pérez‐López
December 2019, Volume 23, Issue 6
- 1316-1327 Why academics should study the supply chains of individual corporations
by Benjamin Goldstein & Joshua P. Newell - 1328-1343 Spatial analysis of urban material stock with clustering algorithms: A Northern European case study
by Paul Gontia & Liane Thuvander & Babak Ebrahimi & Victor Vinas & Leonardo Rosado & Holger Wallbaum - 1344-1352 Potential for industrial ecology to support healthcare sustainability: Scoping review of a fragmented literature and conceptual framework for future research
by Alexander Cimprich & Jair Santillán‐Saldivar & Cassandra L. Thiel & Guido Sonnemann & Steven B. Young - 1353-1362 The metabolism of U.S. cities 2.0
by Christopher M. Chini & Ashlynn S. Stillwell - 1363-1380 Modeling copper demand in China up to 2050: A business‐as‐usual scenario based on dynamic stock and flow analysis
by Di Dong & Arnold Tukker & Ester Van der Voet - 1381-1395 Can smart factories bring environmental benefits to their products?: A case study of household refrigerators
by Wujie Zhang & Fu Gu & Jianfeng Guo - 1396-1409 Material flow analysis and material use efficiency of Brazil's mortar and concrete supply chain
by Daniel da Costa Reis & Yazmin Mack‐Vergara & Vanderley Moacyr John - 1410-1424 Method for endogenizing capital in the United States Environmentally‐Extended Input‐Output model
by T. Reed Miller & Peter Berrill & Paul Wolfram & Ranran Wang & Yookyung Kim & Xinzhu Zheng & Edgar G. Hertwich - 1425-1438 Regional material flow accounts for China: Examining China's natural resource use at the provincial and national level
by Heming Wang & Heinz Schandl & Guoqiang Wang & Lin Ma & Yao Wang - 1439-1455 Unravelling the anthropogenic pathways of phosphorus in the food production and consumption system of Bangladesh through the lens of substance flow analysis
by Bidhan Bhuson Roy & Rubel Biswas Chowdhury & Amit Robert Baroi & Shupa Rahman & Stephen M. Powers & Nick Milne & Mohammad Sujauddin - 1456-1469 A hybrid material flow analysis for quantifying multilevel anthropogenic resources
by Kuang‐Ly Cheng & Shu‐Chien Hsu & Cathy C. W. Hung & Pi‐Cheng Chen & Hwong‐wen Ma - 1470-1482 Industrial symbiosis in the forestry sector: A case study in southern Brazil
by Júlia Wahrlich & Flávio José Simioni
October 2019, Volume 23, Issue 5
- 1006-1015 Infrastructure and the environment in the Anthropocene
by Mikhail V. Chester & Samuel Markolf & Braden Allenby - 1016-1027 A general data model for socioeconomic metabolism and its implementation in an industrial ecology data commons prototype
by Stefan Pauliuk & Niko Heeren & Mohammad Mahadi Hasan & Daniel B. Müller - 1028-1038 Noise footprint from personal land‐based mobility
by Stefano Cucurachi & Samuel Schiess & Andreas Froemelt & Stefanie Hellweg - 1039-1051 Environmental analysis of producing biochar and energy recovery from pulp and paper mill biosludge
by Ali Mohammadi & Maria Sandberg & G. Venkatesh & Samieh Eskandari & Tommy Dalgaard & Stephen Joseph & Karin Granström - 1052-1061 Working conditions in hydrogen production: A social life cycle assessment
by Jasmin Werker & Christina Wulf & Petra Zapp - 1062-1076 Integrating lifecycle assessment and urban metabolism at city level: Comparison between Spanish cities
by Sara González‐García & Ana Claudia Dias - 1077-1086 Life cycle assessment of recirculating aquaculture systems: A case of Atlantic salmon farming in China
by Xingqiang Song & Ying Liu & Johan Berg Pettersen & Miguel Brandão & Xiaona Ma & Stian Røberg & Björn Frostell - 1087-1108 Tools for promoting industrial symbiosis: A systematic review
by Zhiquan Yeo & Donato Masi & Jonathan Sze Choong Low & Yen Ting Ng & Puay Siew Tan & Stuart Barnes - 1109-1120 Assessment of secondary zinc reserves of nations
by Kyaw Nyunt Maung & Cherry Myo Lwin & Seiji Hashimoto - 1121-1132 Using spatially explicit commodity flow and truck activity data to map urban material flows
by Lih Wei Yeow & Lynette Cheah - 1133-1142 Potential net primary production footprint of agriculture: A global trade analysis
by Jan Weinzettel & Dava Vačkářů & Helena Medková - 1143-1158 Closing the loop on platinum from catalytic converters: Contributions from material flow analysis and circularity indicators
by Michael Saidani & Alissa Kendall & Bernard Yannou & Yann Leroy & François Cluzel - 1159-1171 The global economic costs of substituting dietary protein from fish with meat, grains and legumes, and dairy
by Ignacio Cazcarro & Carlos A. López‐Morales & Faye Duchin - 1172-1185 Assessment of lignocellulosic biorefineries in Germany using a hybrid LCA multi‐objective optimization model
by Maik Budzinski & Otávio Cavalett & Roy Nitzsche & Anders Hammer Strømman - 1186-1195 The influence of consumer behavior on energy, greenhouse gas, and water footprints of showering
by Sadegh Shahmohammadi & Zoran Steinmann & Henry King & Hilde Hendrickx & Mark A.J. Huijbregts - 1196-1210 The impacts of Japanese food losses and food waste on global natural resources and greenhouse gas emissions
by Yosuke Munesue & Toshihiko Masui - 1211-1225 Industrial ecology and the boundaries of the manufacturing firm
by Thomas Magnusson & Hans Andersson & Mikael Ottosson - 1226-1236 Raw material criticality assessment as a complement to environmental life cycle assessment: Examining methods for product‐level supply risk assessment
by Alexander Cimprich & Vanessa Bach & Christoph Helbig & Andrea Thorenz & Dieuwertje Schrijvers & Guido Sonnemann & Steven B. Young & Thomas Sonderegger & Markus Berger - 1237-1252 Life cycle assessment and socioeconomic evaluation of the illicit crop substitution policy in Colombia
by Juanita Barrera‐Ramírez & Valentina Prado & Håvar Solheim - 1253-1263 Environmental analysis of packaging‐derived changes in food production and consumer behavior
by Naoki Yokokawa & Emi Kikuchi‐Uehara & Eri Amasawa & Hirokazu Sugiyama & Masahiko Hirao - 1264-1277 Toward a dynamic evaluation of mineral criticality: Introducing the framework of criticality systems
by Ye Yuan & Mohan Yellishetty & Mario A. Muñoz & Stephen A. Northey - 1278-1291 How to monitor environmental pressures of a circular economy: An assessment of indicators
by Hanna Helander & Anna Petit‐Boix & Sina Leipold & Stefan Bringezu - 1292-1310 End‐of‐life product management as a resilience driver for developing countries: A policy experiment for used tires in Ecuador
by Andrea Cecchin & Mathieu Lamour & Michael Joseph Maks Davis & David Jácome Polit
August 2019, Volume 23, Issue 4
- 744-750 Operational Perspectives on Extended Producer Responsibility
by Atalay Atasu - 751-766 The future in and of criticality assessments
by Dimitra Ioannidou & Niko Heeren & Guido Sonnemann & Guillaume Habert - 767-780 Towards Productive Cities: Environmental Assessment of the Food‐Energy‐Water Nexus of the Urban Roof Mosaic
by Susana Toboso‐Chavero & Ana Nadal & Anna Petit‐Boix & Oriol Pons & Gara Villalba & Xavier Gabarrell & Alejandro Josa & Joan Rieradevall - 781-795 Linking city‐level input–output table to urban energy footprint: Construction framework and application
by Heran Zheng & Jing Meng & Zhifu Mi & Malin Song & Yuli Shan & Jiamin Ou & Dabo Guan - 796-807 Transferability of Material Composition Indicators for Residential Buildings: A Conceptual Approach Based on a German‐Japanese Comparison
by Georg Schiller & Alessio Miatto & Karin Gruhler & Regine Ortlepp & Clemens Deilmann & Hiroki Tanikawa