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MCV 2025 presentations

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MCV 2025 presentations

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Plenary: Strengthening EU competitiveness and sustainability through policy change and design for resilience: criticality, durability and product performance

LCA in EU policy making. Mauro Cordella, European Commission, DG Environment

How to integrate life cycle thinking into decision-making ?

  1. Sustainable innovation or simple reporting? State of the art in assessing carbon emissions linked to organizational purchasing. Widiene Essouid1, Johannes Zobel2,Philippe Loubet1, Stéphane Trébucq3, Sandra Köhler2, Andrea Thorenz2, Axel Tuma4,Guido Sonnemann1 1: University of Bordeaux - Institute of Molecular Sciences, Cyvi Group; 2: University of Augsburg - Institute of Materials Resource Management, Resource Lab; 3: University of Bordeaux - IAE, IRGO; 4: University of Augsburg - Chair for Production & Supply Chain Management
  2. Variability of portfolio's carbon footprint depending on accounting standards and data sources: a case study. Anne de Bortoli, Elliot Muller, Nicolas Roy-Heppells, Gaël Plagnard, Maxime Agez, CIRAIG
  3. Assessing impacts on biodiversity on an Aquaculture portfolio. Aurore Wermeille1Anne Asselin1, Yassine Bouayad1, Jill Swasey2, Robert Parker2, Maxime Engler2 1: Sayari 2: Aquaculture Stewardship Council
  4. Zoom in/out from product to organization. Selim Youssry, Sapiology
  5. From product LCA to portfolio management: a scalable digital suite for fast, reliable environmental impact assessment. Camille Maeseele, Angel Luis Merchan, Anthesis
  6. Holis - Portfolio lifecycle analysis: progress, difficulties and prospects. Mila Guérin,Martin Besnier, Paul Grédigui, Yohan Lanier, Alice Marchal,Emeline Roch, Guillaume Vizier, Holis (Druantia S.A.S)
  1. From analysis to action: feedback on integrating LCA into a motorway maintenance project. Léa Fischer, Hugo Pley-Leclercq, Florian Ott, ORIS Materials Intelligence
  2. Rethinking the Use of Medical Devices in Operating Rooms: Leveraging Eco-Design to Reduce Environmental Impact without Compromising Surgical Performance. Adam Blalate1François Cluzel1, Benoît Dabouis1, Laure Aubrege2, Antoine Agathon2,  1: Université Paris-Saclay, CentraleSupélec, Industrial Engineering Laboratory; 2: Marie Lannelongue Hospital
  3. LCA as a strategic management tool for committed SMEs. Océane Lannoy1Maxime Pousse1, Yannick Le Guern1, Marguerite Guillou2 , 1: ELYS Conseil; 2: Green Family
  4. Ecodesign at the heart of the paint industry: a successful case study in moving from knowledge to action. Carolina Szablewski1, Sam Herlicq1,Marie Beccat1,Guillaume Szablewski2,Naeem Adibi1, 1: WeLOOP; 2: Ailoop
  5. The need to include the use phase in eco-design: the case of refractory materials for steel production. Sarah Badioli1,2, Thibault Champion2, Marielle Dargaud2,Angélique Léonard1, 1: University of Liège; 2: Saint-Gobain Research Provence
  1. Development of a teaching toolbox for environmental impact assessment: a tool for sustainability training. Walid Ijassi, Peggy Zwolinski, Univ. Grenoble Alpes, CNRS
  2. Setting up an LCA resource center as part of the A2U university alliance. Philippe Rycek1, Noura Rahbani2, Denis Postel1, Christelle Demaretz3, Eric Staniek3, Naeem Adibi2, 1:Université de Picardie Jules Verne (UPJV), France; 2:WeLOOP, France; 3:Région Hauts de France, France
  3. Evaluation of low-tech using a hybrid socio-environmental method based on the Project Footprint method. Martin Lambert, Monika Mousavi, Mathieu Galliou, Aurélie Perrin, EVEA, France
  4. Towards the integration of human behavior in LCA. Paul Carrey1,2, Eléonore Loiseau1,2, Pierre Jouannais1,2, Arnaud Hélias1,2,1:ITAP, Univ Montpellier, INRAE, Institut Agro,; 2:Elsa, Research Group for Environmental Lifecycle and Sustainability Assessment
  1. From Emissions to Dependencies: Evaluating the Impact Transfer in Hydrogen Production Transitions. Yi Li1, Anish Koyamparambath1, Benjamin McLellan2, Emmanuel Mignard1, Guido Sonnemann1 1: Uninersity of Bordeaux, Institut des Sciences Moléculaires(ISM), France; 2: Graduate School of Energy Science, Kyoto University
  2. Decarbonizing with green fuels: analyzing hotspots in the design of a new Power-to-X chemical process using life cycle assessment. Ana carolina eugênio de Oliveira1, Ricardo Moreira dos Santos1, Giovanna Gonzales-Calienes2, Jochem Kamstra3, Bruna Rego de Vasconcelos1, 1: Université de Sherbrooke; 2: National Research Council Canada; 3: Secant Fuel
  3. Understanding the reliability of environmental claims to support urban decision-making. Elorri Igos1, Pierrick Audureau1, Skyler Pandaleon1, Franck Morin1, Alexandre Escudero1, Nicolas Perry2,3,4, Claire Guillebaud2,3, Jacques Chevalier5 1:Nobatek, France; 2:Arts et Metiers Institute of Technology, CNRS, Bordeaux INP, I2M, UMR 5295; 3: Univ. Bordeaux, CNRS, Bordeaux INP, I2M, UMR 5295; 4UTOPII, UAR 2954, CNRS Ingénierie; 5HQE-GBC Alliance
  4. Improving Scope 3 Upstream emissions accounting through automated data integration systems: a case study of Eiffage's ready-mix concrete business. Widiene Essouid1Antonin Falluel Morel2, Bertrand Touzet2, Philippe Loubet1, Stéphane Trébucq3, Guido Sonnemann1, 1: Université de Bordeaux - Institut des Sciences Moléculaires, Cyvi Group, France; 2: Eiffage, Direction des Achats, France; 3: Université de Bordeaux - IAE
  5. Life cycle assessment to determine the environmental sustainability of circular economy strategies in the building sector. Didier Vuarnoz, Didier Beloin-Saint-Pierre, EMPA, Switzerland
  6. BlueOn: a pioneering marketplace for the transparent exchange of LCA data for sustainable purchasing. Bertrand Touzet, Antonin Falluel Morel, Eiffage
  1. Joint environmental and social Life Cycle Analyses of industrial production processes. Cyril Laurié1, Morgane Berthault2, Jean-François Berrée1, Romane Fuvelle21: CEA ; 2: CETI
  2. Is environmental LCA sufficient to guide life cycle management decision-making in the context of cultural heritage? Dieuwertje Schrijvers1Noura Rahbani1,Naeem Adibi1, Marta Cremonesi2, Catarina Pires3, Nan Yang2, Klaas Jan Van den Berg3, Ilaria Bonaduce4, Michaela Florescu5, Nina Olson6, Geert Can der Snickt2, Ana Sobota7, Tomas Markevicius8, Anton Nikiforov8: 1: WeLOOP, France; 2: University of Antwerp, Belgium; 3: University of Amsterdam, the Netherlands; 4: University of Pisa, Italy; 5: Moderna Museet
  3. Coupling of LCA, EEMRIO and social LCA approaches for the environmental and social assessment of consumer product baskets. Aurélie Perrin1,Monika Mousavi1, Maxime Agez2, Elliot Muller2, Xavier Zeitoun3, 1: EVEA; 2: CIRAIG; 3: Université Paris-Saclay, CEA
  4. From multi-criteria impact analysis to decision support: the case of bio-waste management. Frédéric Huet,Olivier Schoefs, Compiègne University of Technology
  5. Sustainable development of biofertilizers: Synergies between Social, Environmental and Economic LCA in the European Sea2Land project. Jean-François Fabre, Claire Vialle, Caroline Sablayrolles, LCA-ENSIACET/INPT-INRAE, France
  6. Towards an Integrated Circularity and Sustainability Assessment Framework: Application to Complex Medical Systems. Valentina Calixto1,2,Francois Cluzel1, Ghada Bouillass1, Robert Heidsieck2, Abdelhamid Boujarif2, Laurent Bourgeois3, Vanessa Brun3 1: Université Paris-Saclay, CentraleSupélec, Laboratoire Genie Industriel, France; 2: GE Healthcare, France; 3: CHU Rennes, France
  1. Record cable with almost 100% recycled materials. Shifa Meyer, NEXANS
  2. The environmental performance of upcycling: A comparative life cycle assessment in the apparel industry. Marie-Sophie Roderich1,Michaël Saidani1, Ana-Luisa Teixeira2, Enrico Benetto1, 1: Luxembourg Institute of Science and Technology; 2: HUT - Hëllef um Terrain a.s.bl.
  3. Towards a circular bio-economy for plastics? LCA as a compass against the illusions of substitution. Bilal Erradhouani,Philippe Loubet, Véronique Coma,Guido Sonnemann, Bordeaux University
  4. LCA for improved practices and communication. Maxime Pousse1,Océane Lannoy1, Claire Pelletier2, 1: ELYS Conseil, France; 2: VALDELIA
  5. Dynamic Material Flow Analysis of Steel Mill Dross in Europe to 2050 for Critical Metals Recovery. Basile Guth,Audrey Philippe, Daniel Monfort, BRGM

  1. Environmental assessment of a research program: proposal for a methodological framework. Myriam Saadé1, Anne-Cécile Orgerie2, Serge Verdeyme3, 1: UTOPII, CNRS, AMU, ENSAM, ENPC, INSA Lyon, Sorbonne University 2: IRISA, CNRS 3: University of Limoges
  2. Background modeling in foresight: a critical review of current practices. Denise Tavares Lima de Almeida1, Gabriel Valencia-Blatière1,2, Bo Pedersen Weidema2, Guilherme Magacho3 , 1: Centre Scientifique et Technique du Bâtiment ; 2: Aalborg University ; 3: Agence Française de Développement
  3. Towards a multi-criteria assessment of the environmental impact of research. André Estevez-Torres1, Anthony Benoist2, Jérôme Mariette3, Philippe Loubet4, 1: Univ. Bordeaux, CNRS, Bordeaux INP, ISM (UMR 5255), Talence; 2: CIRAD, UPR BioWooEB, Saint-Denis, Réunion; 3: INRAE, Toulouse; 4: Université de Lille, CNRS, LASIRE (UMR 8516), Villeneuve d'Ascq
  4. How to Conduct Lab-Scale LCA Meaningfully? Lessons learned from a case study on Photovoltaics. A. Kamal Kamali1,Guido Sonnemann1, Bertrand Laratte2,3 ,  1: Univ. Bordeaux, CNRS, Bordeaux INP, ISM, UMR 5255, Groupe Analyse du Cycle de Vie et Chimie Durable (CyVi); 2: Department of Wood and Forest Sciences, Laval University, Quebec, QC G1V 0A6, Canada; 3: Arts et Métiers Institute of Technology, University of Bordeaux, CNRS, Bordeaux INP, INRAE, I2M Bordeaux, F-33400 Talence, France
  5. Reflections on the absolute environmental sustainability of research infrastructures: positioning on sharing principles. Lucas Riondet1,2, Severin Valla2, Sacha Hodencq2, 1: Univ. Grenoble Alpes, CNRS, Grenoble INP, G-SCOP; 2: Univ. Grenoble Alpes, CNRS, Grenoble INP, G2Elab

Sectors advances

  1. Towards a direct recycling strategy for Li-ion batteries: experimental challenges and environmental assessment applied to different waste streams. Insaf Gaalich1,2,3, Gilles Philippot2,3, Jacob Olchowka2,3,Philippe Loubet1,  1: Univ. Bordeaux, CNRS ; 2: Univ. Bordeaux, CNRS ; 3: RS2E, French Network on Electrochemical Energy Storage
  2. BATTERS: A collaborative platform for competitive lifecycle management in the battery industry. Lucas Madranges1, Paul Pruvost1, Théotime Pagies1, Nathan Douillet1,Guillaume Szablewski1,Carolina Szablewski2,Noura Rahbani2,Emilie Guilvert2,Marie Beccat2,Naeem Adibi2. 1: Ailoop, France; 2: WeLOOP, France
  3. Quantifying eco-design levers for automotive battery packs. Mathis Boutrouelle, Remy Panariello, Lisa-Lou Gracia, Univ. Grenoble Alpes, CEA, LITEN, DEHT
  4. Mecaware's innovative recycling process for building a reliable and sustainable sulfate-free battery industry. Benoît Samanos1, Louis Poyet1,Emilie Guilvert2, Naeem Adibi2, 1: Mecaware; 2: WeLOOP
  5. Applying the Carbon Footprint Formula (CFF) framework to batteries: Overview of the Renault case study. Noura Rahbani1Nadia Chibani2, Yanlong Zhou2, Quentin Nogarede3,Naeem Adibi1, 1: WeLOOP; 2: Ampère; 3: Renault Group
  1. Are LCA standards for eco-design adapted to regulations? Yves Babian, Renault
  2. How to integrate life cycle thinking into decision-making. Karim FradjFabien Denise, Muriel Moreau, Dassault Systèmes
  3. Integrating eco-design into the technological maturity of aircraft engines. Virginie Rouquet, Safran Aircraft Engines
  4. Innovative perspectives in eco-design. Hélène TeulonFrédéric Thébaud, Cécile Charles,Gingko 21
  5. Ecodesign method for electric vehicle batteries based on changing mobility habits. Baptiste Guillaume1,2, Benoit Delinchant2, Anh-Linh Bui Van1, Sacha Hodencq2, 1: Univ. Grenoble Alpes, CEA, LITEN, DEHT; 2: Univ. Grenoble Alpes, CNRS, Grenoble INP, G2Elab
  6. Process LCA mapping tool and data collection aid - Sticker method. Camillot Billot Grima, Evea Conseil
  1. Towards a sustainable space sector - The space mural as a catalyst for change. Matthieu Derrey1, Eliott Marceau2 1: AZURITE ; 2: AERO DECARBO
  2. Advancing life cycle assessment and ecodesign for sustainable space programmes: lessons learned, industry collaboration, and the path forward. Sara Morales1, Enrico Tormena2Aurélie Gallice-Tanguy3, 1: ESOC, Darmstadt ; 2: ESTEC, Noordwijk ; 3: ESA Headquarters
  3. Striking a balance between precision and popularization: the need for simplified tools. Xavier Loizillon1, Adam Le Gal1, Eric Lorigny2,Tristan Debonnet2, 1: Scalian; 2: CNES
  4. Inclusion of LCA in the design of space missions: first applications of the ACT tool developed at the EPFL Space Center. Marnix Verkammen, Mathieu Udriot, Emmanuelle David, EPFL Space Center, Switzerland
  5. Challenges and prospects of ecodesign in the space sector: towards an adaptation of tools and data. Céline Bruin Buisson, Blandine Quélennec, Department of Environmental Sustainability, ArianeGroup
  6. Eco-design of an optical baffle for space missions. Maria Sansa Bernat, Nordin Lebbad,Adrien Mir, MECANO ID
  1. A Life Cycle-based methodology for material tradeoffs in aircraft design. Shantanu Rajendra Sapre1, Joseph Morlier2, Christian Gogu2, Olivier Grellou3, 1: ISAE-SUPAERO, University of Toulouse; 2: ISAE-SUPAERO, ICA, MINES ALBI, UPS, INSA, CNRS; 3: Airbus Operations SAS
  2. Aircraft engine LCA: best practices and methodological gains applied to an aircraft engine manufacturer. Julia AndrieuAudrey Dupont, Safran Aircraft Engines
  3. Development of a knowledge model to promote eco-design in the space sector. François Cluzel1,2,Vincent Holley3,Tristan Debonnet4, Alain Rosak4, 1: Université Paris-Saclay, CentraleSupélec, Laboratoire Genie Industriel ; 2: HyB'RID ; 3: Geeglee ; 4: CNES
  4. The environmental impact of pooling and sharing space missions through life cycle assessment: Space locker. Alban MANUEL de CONDINGUY, Space Locker
  5. MaiaSpace: Feedback on the environmental approach to a partially reusable European launcher. Antoinette Ott,MaiaSpace
  6. Integrating environmental issues with socio-economic pressures in spatial projects. Coralie Lhabitant1,2,3, Victor Dos Santos Paulino2, Christian Gnekpe2, Laurent Deroin1, 1: CNES; 2: TBS Business School; 3: Toulouse School of Management
  1. Lifecycle analysis of hydrogen production in France: impact mapping and trends to 2035-2050. François-Xavier Dezert1,2, Guillaume Batôt1, Myriam Mérad21: IFP Energies nouvelle ; 2: UMR LAMSADE, CNRS
  2. What Is the Most Environmentally Sustainable Strategy to Supply Green Hydrogen to Europe? Salma Serghini1, Emmanuel Mignard1,Stéphanie Muller2,Guido Sonnemann1 1: University of Bordeaux ; 2: BRGM
  3. Using meta-analysis tools in Life Cycle Assessment: Lessons from the case of «greenhouse gas emissions per kWh of nuclear power».». Pierre-Alexis Duvernois1, Denis Le Boulch2, Yannick Le Guern1, Noëmie Payen2 1: ELYS Conseil ; 2: EDF R&D
  4. Coupling dynamic and environmental models for a prospective and spatialized assessment of agrivoltaics: methodological contribution in LCA.. Pierre Jouannais1,4, Lia Rapella2, Mélanie Douziech3,Mathilde Marchand-Lasserre4 1: INRAE-ITAP; 2: Institut Pierre-Simon Laplace, LMD ; 3: Agroscope, Life Cycle Assessment Research Group ; 4: Centre Observation, Impacts, Energie (OIE), MINES Paris - PSL University
  5. EnergyScope-LCA: a multi-sector energy model integrating prospective and regionalized LCA metrics. Matthieu Souttre1, Guillaume Majeau-Bettez1, François Maréchal1,2, Manuele Margni1,3 1:CIRAIG, École Polytechnique de Montreal ; 2:Industrial Process and Energy Systems Engineering group, École Polytechnique Fédérale de Lausanne ; 3: CIRAIG, Institute for Sustainable Energy, University of Applied Sciences Western Switzerland
  1. Applying LCA to the eco-design of urban projects. Charlotte Roux, Patrick Schalbart, Mines Paris, PSL Université, Centre Energie Environnement et Procédés (CEEP)
  2. Improving Life Cycle Assessment for Urban Green Spaces: An Integrated Approach to Decision-Making. Alexandre Mielniczek1,2,Charlotte Roux3, Florence Jacquinod2,4, Adélaïde Feraille1, 1: Navier Laboratory - Ecole des Ponts; 2: LaSTIG - Laboratoire des Sciences et Technologies de l'Information Géographique - IGN; 3: Mines de Paris; 4: EIVP - Ecole des Ingénieurs de la Ville de Paris
  3. Assessment of environmental impacts of open spaces in relation to urban planning. Léonie Friot1,2, Eline Balland1,2, Marie Frapin1, Morgane Colombert1, Rune Andersen2, 1: Efficacity ; 2: DTU
  4. Integration of circular economy levers in upstream LCAs for development projects. Axelle Robert1,2,3,4, Morgane Colombert2, Elodie Macé3, Cedissia About4, Agnès Jullien5, Youssef Diab1,5 1: Lab'Urba, Université Gustave Eiffel, France; 2: Efficacity; 3: CSTB; 4: Ville de Paris; 5: Université Gustave Eiffel
  5. Making urban LCAs more reliable: tools and database for taking uncertainties into account. Benoit Gouraud,Marie-Lise Pannier, Univ Angers, LARIS, SFR MATHSTIC

Methodological advances

  1. SPAREC: Valorization of agro-industrial residues - Lessons from the application of the life cycle approach in the upstream phase of chemical process development. Maxime Pousse1, Yannick Le Guern1, Miguel Ladero Gallan2, 1: ELYS Conseil; 2: Universidad Complutense Madrid, Faculty of Chemical Sciences
  2. LCA and SSbD approaches for more sustainable semiconductor industry. Isabelle Servin, Gabriel Rouvet, Joa-Carlos Lopes-Barbosa, Yannick Rivoira, Laura Vauche, CEA-Leti
  3. Study of the social impacts of hydrogen and solid oxide electrolysis cells. Quentin Aubert, Cyril Laurié, CEA
  4. Taking the environmental dimension into account in adaptation solutions: the example of the Bio4HUMAN project. Perrine Sébastien1, Carolina Szablewski1, Emilie Guilvert1, Clara Casado Coterillo2, Marta Rumayor Villamil2, Carla Bartolomé Rodrigo3, José María Alonso3, Pilar Villanueva Redón4, 1:WeLOOP, France; 2:Universidad de Cantabria; 3:ITENE - Instituto Tecnologico del Embalaje, Transporte y Logistica; 4:AIMPLAS - Asociacion de Investigation de Materiales Plasticos y Conexas
  5. Combining material flow analysis with sustainability assessment: application to plastic products in buildings. Tomás Navarrete Gutiérrez, SUSTAIN research unit, Luxembourg Institute of Science and Technology (LIST)
  1. Making automated LCA of aggregates more reliable: a digital tool designed for verification, standardization and regulatory compliance. Alice BougeardLéa Fischer, ORIS Materials Intelligence
  2. Massification of LCA for the Digital Product Passport: towards operational tools, between internal configurators and external distributors. Marie Beccat,Naeem Adibi,Carolina Szablewski, WeLOOP
  3. Towards intelligent LCA: automating inventories with language models. Anish Koyamparambath2,Naeem Adibi1, 1: WeLOOP; 2: Université de Bordeaux
  4. LCA at scale and automation: insights from Technical Ceramics Industry. Simeng Wang,Claire Delaroa, Saint-Gobain Ceramics
  5. Digitization as a tool for eco-design of physical extraction and refining processes for oil and protein derivatives. Lou Bernard1, Simon Gorecki2, Minh-Phuoc Doan2, Boris Bizet 1: Institut Technique des Corps Gras; 2: Université de Bordeaux
  6. Model4EcoCo: Coupling MBSE and LCA to assess environmental impacts throughout a project. Nancy Prioux, Florent Fabas, Serge Reculeau, Gaëlle Dussoulier, SII Sud-Ouest
  1. Joint application of life cycle assessment and criticality assessment. Dieuwertje Schrijvers1,Emilie Guilvert1, Naeem Adibi1,Anish Koyamparambath2,Guido Sonnemann2, Frédéric Lai3,Marion Devienne4,Philippe Osset4 1: WeLOOP; 2: Université de Bordeaux, ISM-CyVi ; 3: BRGM ; 4: SCORE LCA
  2. Life cycle thinking and mineral resources at BRGM: 30 years of collaborative research and prospects for the future. Stéphanie Muller, Antoine Beylot, BRGM
  3. The dynamic dimension in Life Cycle Assessment. Isabelle Descos, Bernard De Caevel, RDC Environment
  4. InterScores collaborative approach for robust, transparent and comparable scoring. Stephane Morel1,2, Philippe Schiesser3 1: Escp business school ; 2: i4pat ; 3: Ecoefflab
  5. Combining LCA and social assessment to guide and validate CFE strategies. Hélène Teulon1Claire Rebourg1, Vincent Dargenne3, Murielle Chauvel2  1: Gingko 21; 2: ESSEC; 3: ADEME
  1. LCA planetary limits as part of a Score LCA project. Mike Nunes,Aurélie Perrin,Robin Sales, EVEA
  2. Towards absolute environmental sustainability through the circular economy? Erwan de Bantel, Ghada Bouillass, Marija Jankovic, Bernard Yannou, Industrial Engineering Laboratory, CentraleSupélec, Université Paris-Saclay
  3. Proposal for a methodological framework for LCA of products from reuse and the circular economy. Maixent Tignon1,Robin Sales1, Quentin Badonnel2,Aurélie Perrin1 1: EVEA, France; 2: DECATHLON, France
  4. Development of a circularity indicator for reusable packaging. Justine Gloz1, Stuart Walker2, Damien Giraud1, Rachael Rothman2, Maryam Hoseini2, 1: CT IPC ; 2: University of Sheffield
  5. Enrich eco-design practices through absolute assessment of environmental sustainability. Mélissa Bounouar1,2,3,Natacha Gondran2,Gonzalo Huaroc3 1: Agence de l'Environnement et de la Maîtrise de l'Energie ; 2: Mines Saint-Etienne, CNRS, Univ Jean Monnet, Univ Lumière Lyon 2, Univ Lyon 3 Jean Moulin, ENS Lyon, ENTPE, ENSA Lyon ; 3: Eco-design and Lifecycle Management cluster
  1. What if the bioeconomy were not immune to criticality risks? Dieuwertje Schrijvers1,Naeem Adibi1, Thomas Schaubroeck2, Tomas Rydberg5, Eduardo Entrena4, Milena Amaral3 1: WeLOOP ; 2: Luxembourg Institute of Science and Technology (LIST) ; 3: Neovili ; 4: Contactica, Spain; 5: IVL Swedish Environmental Research Institute
  2. Analysis of the methodological challenges of Life Cycle Assessment for the environmental evaluation of organic fertilization in agriculture. Antoine Esnouf, Héloïse Wolff,Jeanne Serre, EVEA
  3. Improving the Accountability of Green Water Flows and Stocks in Agricultural Life Cycle Assessment. Tamara Schmidt1, Natalja Čerkasova2, Joaquim Bellvert1, Laia Estrada3, Montse Nuñez : 1: IRTA, Spain; 2: AgriLife Blackland Research, USA; 3: ICRA
  4. Life Cycle Assessment of Agricultural Mulches: are biodegradable films a better option? Takunda Yeukai Chitaka,Guido Sonnemann, University of Bordeaux
  5. Development of plant protection product inventories for LCA: towards better integration of toxicity in the environmental assessment of French agricultural production. Joséphine Gatin, Anne-Claire Asselin, Sayari
  6. Characterization of land use impacts on soil biodiversity. Adrien Burg1,2, Amandine Pastor1,2,Arnaud Hélias1,2 1: ITAP, Univ Montpellier, INRAE, Institut Agro; 2: Elsa, Research Group for Environmental Lifecycle and Sustainability Assessment