A. Athanassiadis, G. Fernandez, J. Meirelles, F. Meinherz, P. Hoekman et al., Exploring the energy use drivers of 10 cities at microscale level. Energy Procedia, International ConferenceFuture Buildings & Districts -Energy Efficiency from Nano to Urban Scale, vol.122, pp.709-714, 2017.

, Stratégie de développement des énergies renouvelables sur le territoire de la CARENE (Strategy for the development of renewable energies on Saint-Nazaire metropolitan area), AXENNE, 2016.

L. Baas, Industrial symbiosis in the Rotterdam Harbour and Industry Complex: reflections on the interconnection of the techno-sphere with the social system, Business Strategy and the Environment, vol.17, pp.330-340, 2008.

J. Bahers, S. Barles, and M. Durand, Urban Metabolism of Intermediate Cities: The Material Flow Analysis, Hinterlands and the Logistics-Hub Function of Rennes and Le Mans (France), Journal of Industrial Ecology
URL : https://hal.archives-ouvertes.fr/halshs-02195025

J. Bahers, M. Durand, and H. Beraud, Quelle territorialité pour l'économie circulaire ? Interprétation des typologies de proximité dans la gestion des déchets, pp.129-141, 2017.

J. Bahers and G. Giacchè, Towards a metabolic rift analysis: The case of urban agriculture and organic waste management in Rennes (France), Geoforum, vol.98, pp.97-107, 2019.
URL : https://hal.archives-ouvertes.fr/hal-01961672

J. Baka and R. Bailis, Wasteland energy-scapes: A comparative energy flow analysis of India's biofuel and biomass economies, Ecological Economics, vol.108, pp.8-17, 2014.

J. E. Baka, Political-industrial ecologies of energy, 2017.

S. Barles, Regional database of energy consumption and greenhouse gas emissions from Air Pays de la Loire, Journal of Industrial Ecology, vol.13, pp.898-913, 2009.

G. Billen, J. Garnier, and S. Barles, History of the urban environmental imprint: introduction to a multidisciplinary approach to the long-term relationships between Western cities and their hinterland, Reg Environ Change, vol.12, pp.249-253, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00808437

F. Boons, W. Spekkink, and Y. Mouzakitis, The dynamics of industrial symbiosis: a proposal for a conceptual framework based upon a comprehensive literature review, Journal of Cleaner Production, vol.19, pp.905-911, 2011.

R. Bosman, D. Loorbach, J. Rotmans, and R. Van-raak, Carbon Lock-Out: Leading the Fossil Port of Rotterdam into Transition, Sustainability, vol.10, 2018.

J. Boudreau, P. Hamel, B. Jouve, and R. Keil, Comparing metropolitan governance: The cases of Montreal and Toronto, Progress in Planning, vol.66, pp.7-59, 2006.

H. L. Breetz, Political-industrial ecology: Integrative, complementary, and critical approaches, Geoforum, vol.85, pp.392-395, 2017.

N. Brenner, Implosions/Explosions: Towards a Study of Planetary Urbanization, City, vol.13, pp.198-207, 2009.

V. C. Broto, A. Allen, and E. Rapoport, Interdisciplinary perspectives on urban metabolism, Journal of Industrial Ecology, vol.16, pp.851-861, 2012.

H. Bulkeley, V. Castán-broto, and A. Maassen, Low-carbon Transitions and the Reconfiguration of Urban Infrastructure, Urban Studies, vol.51, pp.1471-1486, 2014.

R. Camagni, Seminal Studies in Regional and Urban Economics: Contributions from an Impressive Mind, pp.115-131, 2017.

A. Carpenter, R. Lozano, K. Sammalisto, and L. Astner, Securing a port's future through Circular Economy: Experiences from the Port of Gävle in contributing to sustainability, Marine Pollution Bulletin, vol.128, pp.539-547, 2018.

J. Cerceau, N. Mat, G. Junqua, L. Lin, V. Laforest et al., Implementing industrial ecology in port cities: international overview of case studies and cross-case analysis, Journal of Cleaner Production, vol.74, pp.1-16, 2014.
URL : https://hal.archives-ouvertes.fr/emse-01086939

C. Restrepo, J. D. Morales-pinzón, and T. , Urban metabolism and sustainability: Precedents, genesis and research perspectives. Resources, Conservation and Recycling 131, pp.216-224, 2018.

M. R. Chertow, Uncovering" Industrial Symbiosis, Journal of Industrial Ecology, vol.11, pp.11-30, 2007.

J. J. Cousins, Volume control: Stormwater and the politics of urban metabolism, Geoforum, vol.85, pp.368-380, 2017.

J. J. Cousins and J. P. Newell, A political-industrial ecology of water supply infrastructure for Los Angeles, Geoforum, vol.58, pp.38-50, 2015.

O. Coutard, R. Hanley, and R. Zimmerman, Sustaining Urban Networks: The Social Diffusion of Large Technical Systems, 2004.
URL : https://hal.archives-ouvertes.fr/halshs-00439024

X. Cui, How can cities support sustainability: A bibliometric analysis of urban metabolism, Ecological Indicators, vol.93, pp.704-717, 2018.

P. K. Currie and J. K. Musango, African Urbanization: Assimilating Urban Metabolism into Sustainability Discourse and Practice, Journal of Industrial Ecology, vol.21, pp.1262-1276, 2017.

T. Dai, A study on material metabolism in Hebei iron and steel industry analysis. Resources, Conservation and Recycling 95, pp.183-192, 2015.

F. Demaria and S. Schindler, Contesting Urban Metabolism: Struggles Over Waste-to-Energy in Delhi, India. Antipode, vol.48, pp.293-313, 2016.

P. Deutz, H. Baxter, D. Gibbs, W. M. Mayes, and H. I. Gomes, Resource recovery and remediation of highly alkaline residues: A political-industrial ecology approach to building a circular economy, Geoforum, vol.85, pp.336-344, 2017.

M. Dijst, E. Worrell, L. Böcker, P. Brunner, S. Davoudi et al., Exploring urban metabolism-Towards an interdisciplinary perspective. Resources, Conservation and Recycling, vol.132, pp.190-203, 2018.

C. Emelianoff, Local Energy Transition and Multilevel Climate Governance: The Contrasted Experiences of Two Pioneer Cities, Urban Studies, vol.51, pp.1378-1393, 2014.

, Open database from the national electricity distributor (ENEDIS), ENEDIS, 2015.

M. Engelken, B. Römer, M. Drescher, and I. Welpe, Transforming the energy system: Why municipalities strive for energy self-sufficiency, Energy Policy, vol.98, pp.365-377, 2016.

P. Ferrao and J. E. Fernández, Sustainable Urban Metabolism, 2013.

M. Fischer-kowalski and H. Haberl, Socioecological Transitions and Global Change: Trajectories of Social Metabolism and Land Use, 2007.

R. Frischknecht, F. Wyss, S. Büsser-knöpfel, and M. Balouktsi, Cumulative energy demand in LCA: the energy harvested approach, The International Journal of Life Cycle Assessment, vol.7, pp.957-960, 2015.

Y. Geng, Y. Liu, D. Liu, H. Zhao, and B. Xue, Regional societal and ecosystem metabolism analysis in China: A multi-scale integrated analysis of societal metabolism(MSIASM) approach. Energy, PRES, vol.36, pp.4799-4808, 2010.

. Grdf, Open database from the national natural gas distributor (GRDF), 2015.

L. Guibrunet, M. Sanzana-calvet, and V. Castán-broto, Flows, system boundaries and the politics of urban metabolism: Waste management in Mexico City and Santiago de Chile, 2016.

H. Haberl, M. Fischer-kowalski, and F. Krausmann, Social Ecology, p.2016

H. Haberl, D. Wiedenhofer, S. Pauliuk, F. Krausmann, D. B. Müller et al., Contributions of sociometabolic research to sustainability science, Nature Sustainability, vol.2, 2019.

M. Hammer, S. Giljum, and F. Hinterberger, Material flow analysis of the City of Hamburg, 2003.

A. Harjanne and J. M. Korhonen, Abandoning the concept of renewable energy, Energy Policy, vol.127, pp.330-340, 2019.

R. R. Heeres, W. J. Vermeulen, and F. B. De-walle, Eco-industrial park initiatives in the USA and the Netherlands: first lessons, Journal of Cleaner Production, Applications of Industrial Ecology, vol.12, pp.985-995, 2004.

R. M. Hollen, . Van-den, F. A. Bosch, and H. W. Volberda, Strategic levers of port authorities for industrial ecosystem development, Marit Econ Logist, vol.17, pp.79-96, 2015.

Q. Huang, X. Zheng, F. Liu, Y. Hu, and Y. Zuo, Dynamic analysis method to open the "black box" of urban metabolism. Resources, Conservation and Recycling 139, pp.377-386, 2018.

M. T. Huber, Energizing historical materialism: Fossil fuels, space and the capitalist mode of production, Themed Issue: Postcoloniality, Responsibility and Care, vol.40, pp.105-115, 2009.

P. D. Jensen, L. Basson, E. E. Hellawell, M. R. Bailey, and M. Leach, Quantifying 'geographic proximity': experiences from the United Kingdom's national industrial symbiosis programme. Resources, Conservation and Recycling, vol.55, pp.703-712, 2011.

B. John, C. Luederitz, D. J. Lang, and H. Von-wehrden, Toward Sustainable Urban Metabolisms. From System Understanding to System Transformation, Ecological Economics, vol.157, pp.402-414, 2019.

C. Kennedy, J. Cuddihy, and J. Engel-yan, The Changing Metabolism of Cities, Journal of Industrial Ecology, vol.11, pp.43-59, 2007.

C. Kennedy and D. Hoornweg, Mainstreaming Urban Metabolism, Journal of Industrial Ecology, vol.16, pp.780-782, 2012.

C. Kennedy, S. Pincetl, and P. Bunje, The study of urban metabolism and its applications to urban planning and design, Pollution: Overcoming Obstacles to Sustainability and Quality of Life (UEP2010), vol.159, pp.1965-1973, 2010.

C. A. Kennedy, Taking Stock of Industrial Ecology, pp.69-86, 2016.

E. Kim and S. Barles, The energy consumption of Paris and its supply areas from the eighteenth century to the present, Regional Environmental Change, vol.12, pp.295-310, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00808441

F. Krausmann, A City and Its Hinterland: Vienna's Energy Metabolism 1800-2006, in: Long Term Socio-Ecological Research, Human-Environment Interactions, pp.247-268, 2013.

J. Lenhart, B. Van-vliet, and A. P. Mol, New roles for local authorities in a time of climate change: the Rotterdam Energy Approach and Planning as a case of urban symbiosis, Journal of Cleaner Production, vol.107, pp.593-601, 2015.

Y. Li, Y. Zhang, and N. Yang, Ecological network model analysis of China's endosomatic and exosomatic societal metabolism, Procedia Environmental Sciences, International Conference on Ecological Informatics and Ecosystem Conservation (ISEIS 2010), vol.2, pp.1400-1406, 2010.

J. Linton and J. Budds, The hydrosocial cycle: Defining and mobilizing a relational-dialectical approach to water, Geoforum, vol.57, pp.170-180, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01134992

A. Malm, Fossil Capital: The Rise of Steam Power and the Roots of Global Warming, 2016.

J. Martinez-alier, L. Temper, F. Demaria, N. Ghosh, P. Mukhopadhyay et al., Social Metabolism and Environmental Conflicts in India, Nature, Economy and Society: Understanding the Linkages, pp.19-49, 2016.

N. Mat, J. Cerceau, L. Shi, H. Park, G. Junqua et al., Socio-ecological transitions toward low-carbon port cities: trends, changes and adaptation processes in Asia and Europe, Towards Post Fossil Carbon Societies: Regenerative and Preventative Eco-Industrial Development, vol.114, pp.362-375, 2016.

N. Mcclintock, Why farm the city? Theorizing urban agriculture through a lens of metabolic rift, Cambridge J Regions Econ Soc, vol.3, pp.191-207, 2010.

R. Mckenna, The double-edged sword of decentralized energy autonomy, Energy Policy, vol.113, pp.747-750, 2018.

, Ministry of ecological and solidarity transition, Chiffre clés des énergies renouvelables -Edition, 2018.

D. S. Moon, J. K. Woo, and T. G. Kim, Corporate Social Responsibility in the Maritime Industry, WMU Studies in Maritime Affairs, pp.167-184, 2018.

J. P. Newell and J. J. Cousins, The boundaries of urban metabolism: Towards a political-industrial ecology, Progress in Human Geography, vol.39, pp.702-728, 2015.

P. W. Newman, Sustainability and cities: extending the metabolism model, Landscape and Urban Planning, vol.44, pp.219-226, 1999.

U. Persson and S. Werner, District heating in sequential energy supply, Applied Energy, vol.95, pp.123-131, 2012.

S. Pincetl, P. Bunje, and T. Holmes, An expanded urban metabolism method: Toward a systems approach for assessing urban energy processes and causes, Landscape and Urban Planning, vol.107, pp.193-202, 2012.

S. Pincetl and J. P. Newell, Why data for a political-industrial ecology of cities? Geoforum, 2017.

C. Rae and F. Bradley, Energy autonomy in sustainable communities-A review of key issues, Renewable and Sustainable Energy Reviews, vol.16, pp.6497-6506, 2012.

J. Ramos-martin, M. Giampietro, and K. Mayumi, On China's exosomatic energy metabolism: An application of multi-scale integrated analysis of societal metabolism (MSIASM), Ecological Economics, vol.63, pp.174-191, 2007.

L. Rosado, Y. Kalmykova, and J. Patrício, Urban metabolism profiles. An empirical analysis of the material flow characteristics of three metropolitan areas in Sweden, Journal of Cleaner Production, vol.126, pp.206-217, 2016.

J. Rosales-carreón and E. Worrell, Urban energy systems within the transition to sustainable development. A research agenda for urban metabolism. Resources, Conservation and Recycling, vol.132, pp.258-266, 2018.

. Rte, Bilans électriques et perspectives -Pays de la Loire (Electricity assessment and perspectives -Pays de la Loire region), 2016.

, Suivi des vracs solides et liquides importés et exportés (Account on solids and liquids products imported and exported) -Base year, 2015.

F. Schiller, A. Penn, A. Druckman, L. Basson, and K. Royston, Exploring Space, Exploiting Opportunities, Journal of Industrial Ecology, vol.18, pp.792-798, 2014.

M. Schneider and P. Mcmichael, Deepening, and repairing, the metabolic rift, The Journal of Peasant Studies, vol.37, pp.461-484, 2010.

V. Smil, M. Swilling, M. Hajer, T. Baynes, J. Bergesen et al., The weight of cities-Resource requirements of future urbanisation, UN Environment/International Resource Panel (IRP), 2015.

R. Van-berkel, T. Fujita, S. Hashimoto, and Y. Geng, Industrial and urban symbiosis in Japan: Analysis of the Eco-Town program 1997-2006, Journal of Environmental Management, vol.90, pp.1544-1556, 2009.

I. M. Voskamp, S. Stremke, M. Spiller, D. Perrotti, J. P. Van-der-hoek et al., Enhanced Performance of the Eurostat Method for Comprehensive Assessment of Urban Metabolism: A Material Flow Analysis of Amsterdam, Journal of Industrial Ecology, vol.21, pp.887-902, 2017.

I. M. Voskamp, S. Stremke, M. Spiller, D. Perrotti, J. P. Van-der-hoek et al., Enhanced Performance of the Eurostat Method for Comprehensive Assessment of Urban Metabolism: A Material Flow Analysis of Amsterdam, Journal of Industrial Ecology, vol.21, pp.887-902, 2017.

D. Wachsmuth, Three Ecologies: Urban Metabolism and the Society-Nature Opposition: Three Ecologies, The Sociological Quarterly, vol.53, pp.506-523, 2012.

M. R. Wilby, A. B. Rodríguez-gonzález, and J. J. Vinagre-díaz, Empirical and dynamic primary energy factors, Energy, vol.73, pp.771-779, 2014.

M. Yalç?n-riollet, I. Garabuau-moussaoui, and M. Szuba, Energy autonomy in Le Mené: A French case of grassroots innovation, Energy Policy, vol.69, pp.347-355, 2014.

Y. Zhang, Y. Li, and H. Zheng, Ecological network analysis of energy metabolism in the BeijingTianjin-Hebei (Jing-Jin-Ji) urban agglomeration, Ecological Modelling, vol.351, pp.51-62, 2017.

Y. Zhang, L. Xia, B. D. Fath, Z. Yang, X. Yin et al., Development of a spatially explicit network model of urban metabolism and analysis of the distribution of ecological relationships: case study of Beijing, China. Journal of Cleaner Production, vol.112, pp.4304-4317, 2016.

Y. Zhang, Z. Yang, and X. Yu, Urban Metabolism: A Review of Current Knowledge and Directions for Future Study, Environ. Sci. Technol, vol.49, pp.11247-11263, 2015.

Y. Zhang, H. Zheng, and B. D. Fath, Analysis of the energy metabolism of urban socioeconomic sectors and the associated carbon footprints: Model development and a case study for Beijing, Energy Policy, vol.73, pp.540-551, 2014.