Sustainable Urban Planning
Parsa, A., Van De Wiel, M., Schmutz, U., Fried, J., Black, D., & Roderick, I. (2023). Challenging the food waste hierarchy. Journal of Environmental Management, 344, 118554.
Winter, K., Paytan, A., Charlesworth, S., & Fried, J. (2023). Solutions to waste management in informal settlements in South Africa. Open Access Government, 37(1), 464-465.
European Social Innovation Competition (2020). Social innovation playbook.
Leminen, S., Westerlund, M., & Nyström, A. G. (2012). Living Labs as open-innovation networks.
Ballon, P., Van Hoed, M., & Schuurman, D. (2018). The effectiveness of involving users in digital innovation: Measuring the impact of living labs. Telematics Informatics, 35(5), 1201-1214.
Remøy, H., Wandl, A., Ceric, D., & van Timmeren, A. (2019). Facilitating Circular Economy in Urban Planning. Urban Planning, 4(3), 1-4.
Amenta, L., Attademo, A., Remøy, H., Berruti, G., Cerreta, M., Formato, E., Palestino, M.F. and Russo, M., 2019. Managing the transition towards circular metabolism: Living labs as a co-creation approach. Urban Planning, 4(3), pp.5-18.
Obersteg, A., Arlati, A., Acke, A., Berruti, G., Czapiewski, K., Dabrowski, M., Heurkens, E., Mezei, C., Palestino, M.F. and Varjú, V., 2019. Urban regions shifting to circular economy: Understanding challenges for new ways of governance. Urban Planning, 4(3), pp.1-13.
Arciniegas, G., Šileryté, R., Dąbrowski, M., Wandl, A., Dukai, B., Bohnet, M. and Gutsche, J.M., 2019. A geodesign decision support environment for integrating management of resource flows in spatial planning. Urban Planning, 4(3), pp.32-51.
Varjú, V., Dabrowski, M. and Amenta, L., 2019. Transferring circular economy solutions across differentiated territories: Understanding and overcoming the barriers for knowlege transfer. Urban Planning, 4(3), pp.1-7.
Wandl, A., Balz, V., Qu, L., Furlan, C., Arciniegas, G. and Hackauf, U., 2019. The circular economy concept in design education: Enhancing understanding and innovation by means of situated learning. Urban Planning, 4(3), pp.63-75.
Mukhtar-Landgren, D., Kronsell, A., Voytenko Palgan, Y., & von Wirth, T. (2019). Municipalities as enablers in urban experimentation. Journal of Environmental Policy & Planning, 21(6), 718-733.
Di Masso, A., Williams, D. R., Raymond, C. M., Buchecker, M., Degenhardt, B., Devine-Wright, P., ... & Stedman, R. (2019). Between fixities and flows: Navigating place attachments in an increasingly mobile world. Journal of environmental psychology, 61, 125-133.
Winter, K., Paytan, A., Charlesworth, S., & Fried, J. (2023). Solutions to waste management in informal settlements in South Africa. Open Access Government, 37(1), 464-465.
European Social Innovation Competition (2020). Social innovation playbook.
Leminen, S., Westerlund, M., & Nyström, A. G. (2012). Living Labs as open-innovation networks.
Ballon, P., Van Hoed, M., & Schuurman, D. (2018). The effectiveness of involving users in digital innovation: Measuring the impact of living labs. Telematics Informatics, 35(5), 1201-1214.
Remøy, H., Wandl, A., Ceric, D., & van Timmeren, A. (2019). Facilitating Circular Economy in Urban Planning. Urban Planning, 4(3), 1-4.
Amenta, L., Attademo, A., Remøy, H., Berruti, G., Cerreta, M., Formato, E., Palestino, M.F. and Russo, M., 2019. Managing the transition towards circular metabolism: Living labs as a co-creation approach. Urban Planning, 4(3), pp.5-18.
Obersteg, A., Arlati, A., Acke, A., Berruti, G., Czapiewski, K., Dabrowski, M., Heurkens, E., Mezei, C., Palestino, M.F. and Varjú, V., 2019. Urban regions shifting to circular economy: Understanding challenges for new ways of governance. Urban Planning, 4(3), pp.1-13.
Arciniegas, G., Šileryté, R., Dąbrowski, M., Wandl, A., Dukai, B., Bohnet, M. and Gutsche, J.M., 2019. A geodesign decision support environment for integrating management of resource flows in spatial planning. Urban Planning, 4(3), pp.32-51.
Varjú, V., Dabrowski, M. and Amenta, L., 2019. Transferring circular economy solutions across differentiated territories: Understanding and overcoming the barriers for knowlege transfer. Urban Planning, 4(3), pp.1-7.
Wandl, A., Balz, V., Qu, L., Furlan, C., Arciniegas, G. and Hackauf, U., 2019. The circular economy concept in design education: Enhancing understanding and innovation by means of situated learning. Urban Planning, 4(3), pp.63-75.
Mukhtar-Landgren, D., Kronsell, A., Voytenko Palgan, Y., & von Wirth, T. (2019). Municipalities as enablers in urban experimentation. Journal of Environmental Policy & Planning, 21(6), 718-733.
Di Masso, A., Williams, D. R., Raymond, C. M., Buchecker, M., Degenhardt, B., Devine-Wright, P., ... & Stedman, R. (2019). Between fixities and flows: Navigating place attachments in an increasingly mobile world. Journal of environmental psychology, 61, 125-133.
Food Energy Water Nexus
Paytan, A. (2022). Searching for inefficiencies in the food–energy–water nexus. Research Features, (139).
Black, D., Charlesworth, S., Dal Poz, M. E., Francisco, E. C., Paytan, A., Roderick, I., ... & Winter, K. (2023). Comparing Societal Impact Planning and Evaluation Approaches across Four Urban Living Labs (in Food-Energy-Water Systems). Sustainability, 15(6), 5387.
Parsa, A., Van De Wiel, M. J., & Schmutz, U. (2021). Intersection, interrelation or interdependence? The relationship between circular economy and nexus approach. Journal of Cleaner Production, 127794.
Greer, R., von Wirth, T., & Loorbach, D. (2021). The Waste-Resource Paradox: Practical dilemmas and societal implications in the transition to a circular economy. Journal of Cleaner Production, 303, 126831.
Greer, R., von Wirth, T., & Loorbach, D. (2020). The diffusion of circular services: Transforming the Dutch catering sector. Journal of Cleaner Production, 267, 121906.
Albrecht, T. R., Crootof, A., & Scott, C. A. (2018) The Water-Energy-Food Nexus: A systematic review of methods for nexus
assessment. Environmental Research Letters13 (4).
Allan, T., et al. (2015). The water–food–energy nexus: an introduction to nexus concepts and some conceptual and operational problems. International Journal of Water Resources Development 31: 301-311.
Artioli, Francesca, Michele Acuto, and Jenny Mcarthur (2016) The water-energy-food nexus: An integration agenda and
implications for urban governance. Political Geography 61: 215-223.
Bhaduri, A., et al. (2015). Sustainability in the water–energy–food nexus. Water International 40: 723-732.
Biggs, E. M., et al. (2015). Sustainable development and the water–energy–food nexus: A perspective on livelihoods.
Environmental Science & Policy 54: 389-397.
Daher, B., et al. (2019). Toward creating an environment of cooperation between water, energy, and food stakeholders in San
Antonio. Science of the Total Environment 651: 2913-2926.
Davidson (2017) The food-energy-water nexus and urban complexity. Nature Climate Change 7.4.
Ellen MacArthur Foundation, Cities and Circular Economy for Food: São Paulo, Brasil (2019)
Endo, A., Burnett, K., Orencio, P., Kumazawa, T., Wada, C., Ishii, A., Tsurita, I. and Taniguchi, M., (2015) Methods of the water-
energy-food nexus. Water, 7 (10): 5806-5830.
Endo, A., Tsurita, I., Burnett, K., & Orencio, P. M. (2017). A review of the current state of research on the water, energy, and food
nexus. Journal of Hydrology: Regional Studies, 11: 20-30.
Gulati, M., et al. (2013). The water-energy-food security nexus: Challenges and opportunities for food security in South Africa.
Aquatic Procedia 1: 150-164.
Halbe, J., et al. (2015). Governance of transitions towards sustainable development – the water-energy-food nexus in Cyprus.
Water International 40: 877-894.
Liu, J., et al. (2017). Challenges in operationalizing the water–energy–food nexus. Hydrological Sciences Journal 62: 1714-
1720.
Machell, J., et al. (2015). The water energy food nexus – challenges and emerging solutions.Environmental Science : Water
Research & Technology 1: 15-16.
Mabhaudhi, T., Simpson, G., Badenhorst, J., Mohammed, M., Motongera, T., Senzanje, A., Jewitt, A., Naidoo, D. and Mpandeli,
S., (2018) Assessing the State of the Water-Energy-Food (WEF) Nexus in South Africa.
Mohtar, R. H., & Lawford, R. (2016) Present and future of the water-energy-food nexus and the role of the community of
practice. Journal of Environmental Studies and Sciences, 6 (1): 192-199.
Mohtar, R. and B. Daher (2016). "Water-Energy-Food Nexus Framework for facilitating multi-stakeholder dialogue." Water
International 41: 655-661.
Rasul, G. and B. Sharma (2016). "The nexus approach to water–energy–food security: an option for adaptation to climate
change." Climate Policy 16: 682-702.
Shannak, S., et al. (2018). "Moving from theory to practice in the water–energy–food nexus: An evaluation of existing models
and frameworks."Water-Energy Nexus 1: 17-25.
Smajgl, A., et al. (2016). "The water–food–energy Nexus – Realising a new paradigm." Journal of Hydrology 533: 533-540.
Weitz, Nina, et al. (2017) Closing the governance gaps in the water-energy-food nexus: Insights from integrative governance."
Global Environmental Change 45 (2017): 165-173.
Wichelns, D. (2017). "The water-energy-food nexus: Is the increasing attention warranted, from either a research or policy perspective?" Environmental Science & Policy 69: 113-123.
Zhang, C., et al. (2018). "Water-energy-food nexus: Concepts, questions and methodologies." Journal of Cleaner Production 195: 625-638.
Seidl, R., Von Wirth, T., & Krütli, P. (2019). Social acceptance of distributed energy systems in Swiss, German, and Austrian energy transitions. Energy Research & Social Science, 54, 117-128.
Loorbach, D., Wittmayer, J., Avelino, F., von Wirth, T., & Frantzeskaki, N. (2020). Transformative innovation and translocal diffusion. Environmental Innovation and Societal Transitions.
Wei, T., Black, D., Greer, R., Von Wirth, T., Schmutz, U., Fried, J. (2020). Estimating income effect of food waste reduction at the food-energy-water nexus. DNC 2020.
Elmqvist, T., Andersson, E., Frantzeskaki, N., McPhearson, T., Olsson, P., Gaffney, O., ... & Folke, C. (2019). Sustainability and resilience for transformation in the urban century. Nature sustainability, 2(4), 267-273.
Liu, J., Hull, V., Godfray, H. C. J., Tilman, D., Gleick, P., Hoff, H., ... & Li, S. (2018). Nexus approaches to global sustainable development. Nature Sustainability, 1(9), 466-476.
Guillaume, J. H., Kummu, M., Eisner, S., & Varis, O. (2015). Transferable principles for managing the nexus: Lessons from historical global water modelling of central Asia. Water, 7(8), 4200-4231.
De Strasser, L., Lipponen, A., Howells, M., Stec, S., & Bréthaut, C. (2016). A methodology to assess the water energy food ecosystems nexus in transboundary river basins. Water, 8(2), 59.
Wolfe, M. L., Ting, K. C., Scott, N., Sharpley, A., Jones, J. W., & Verma, L. (2016). Engineering solutions for food-energy-water systems: it is more than engineering. Journal of Environmental Studies and Sciences, 6(1), 172-182.
Endo, A., Burnett, K., Orencio, P. M., Kumazawa, T., Wada, C. A., Ishii, A., ... & Taniguchi, M. (2015). Methods of the water-energy-food nexus. Water, 7(10), 5806-5830.
Black, D., Charlesworth, S., Dal Poz, M. E., Francisco, E. C., Paytan, A., Roderick, I., ... & Winter, K. (2023). Comparing Societal Impact Planning and Evaluation Approaches across Four Urban Living Labs (in Food-Energy-Water Systems). Sustainability, 15(6), 5387.
Parsa, A., Van De Wiel, M. J., & Schmutz, U. (2021). Intersection, interrelation or interdependence? The relationship between circular economy and nexus approach. Journal of Cleaner Production, 127794.
Greer, R., von Wirth, T., & Loorbach, D. (2021). The Waste-Resource Paradox: Practical dilemmas and societal implications in the transition to a circular economy. Journal of Cleaner Production, 303, 126831.
Greer, R., von Wirth, T., & Loorbach, D. (2020). The diffusion of circular services: Transforming the Dutch catering sector. Journal of Cleaner Production, 267, 121906.
Albrecht, T. R., Crootof, A., & Scott, C. A. (2018) The Water-Energy-Food Nexus: A systematic review of methods for nexus
assessment. Environmental Research Letters13 (4).
Allan, T., et al. (2015). The water–food–energy nexus: an introduction to nexus concepts and some conceptual and operational problems. International Journal of Water Resources Development 31: 301-311.
Artioli, Francesca, Michele Acuto, and Jenny Mcarthur (2016) The water-energy-food nexus: An integration agenda and
implications for urban governance. Political Geography 61: 215-223.
Bhaduri, A., et al. (2015). Sustainability in the water–energy–food nexus. Water International 40: 723-732.
Biggs, E. M., et al. (2015). Sustainable development and the water–energy–food nexus: A perspective on livelihoods.
Environmental Science & Policy 54: 389-397.
Daher, B., et al. (2019). Toward creating an environment of cooperation between water, energy, and food stakeholders in San
Antonio. Science of the Total Environment 651: 2913-2926.
Davidson (2017) The food-energy-water nexus and urban complexity. Nature Climate Change 7.4.
Ellen MacArthur Foundation, Cities and Circular Economy for Food: São Paulo, Brasil (2019)
Endo, A., Burnett, K., Orencio, P., Kumazawa, T., Wada, C., Ishii, A., Tsurita, I. and Taniguchi, M., (2015) Methods of the water-
energy-food nexus. Water, 7 (10): 5806-5830.
Endo, A., Tsurita, I., Burnett, K., & Orencio, P. M. (2017). A review of the current state of research on the water, energy, and food
nexus. Journal of Hydrology: Regional Studies, 11: 20-30.
Gulati, M., et al. (2013). The water-energy-food security nexus: Challenges and opportunities for food security in South Africa.
Aquatic Procedia 1: 150-164.
Halbe, J., et al. (2015). Governance of transitions towards sustainable development – the water-energy-food nexus in Cyprus.
Water International 40: 877-894.
Liu, J., et al. (2017). Challenges in operationalizing the water–energy–food nexus. Hydrological Sciences Journal 62: 1714-
1720.
Machell, J., et al. (2015). The water energy food nexus – challenges and emerging solutions.Environmental Science : Water
Research & Technology 1: 15-16.
Mabhaudhi, T., Simpson, G., Badenhorst, J., Mohammed, M., Motongera, T., Senzanje, A., Jewitt, A., Naidoo, D. and Mpandeli,
S., (2018) Assessing the State of the Water-Energy-Food (WEF) Nexus in South Africa.
Mohtar, R. H., & Lawford, R. (2016) Present and future of the water-energy-food nexus and the role of the community of
practice. Journal of Environmental Studies and Sciences, 6 (1): 192-199.
Mohtar, R. and B. Daher (2016). "Water-Energy-Food Nexus Framework for facilitating multi-stakeholder dialogue." Water
International 41: 655-661.
Rasul, G. and B. Sharma (2016). "The nexus approach to water–energy–food security: an option for adaptation to climate
change." Climate Policy 16: 682-702.
Shannak, S., et al. (2018). "Moving from theory to practice in the water–energy–food nexus: An evaluation of existing models
and frameworks."Water-Energy Nexus 1: 17-25.
Smajgl, A., et al. (2016). "The water–food–energy Nexus – Realising a new paradigm." Journal of Hydrology 533: 533-540.
Weitz, Nina, et al. (2017) Closing the governance gaps in the water-energy-food nexus: Insights from integrative governance."
Global Environmental Change 45 (2017): 165-173.
Wichelns, D. (2017). "The water-energy-food nexus: Is the increasing attention warranted, from either a research or policy perspective?" Environmental Science & Policy 69: 113-123.
Zhang, C., et al. (2018). "Water-energy-food nexus: Concepts, questions and methodologies." Journal of Cleaner Production 195: 625-638.
Seidl, R., Von Wirth, T., & Krütli, P. (2019). Social acceptance of distributed energy systems in Swiss, German, and Austrian energy transitions. Energy Research & Social Science, 54, 117-128.
Loorbach, D., Wittmayer, J., Avelino, F., von Wirth, T., & Frantzeskaki, N. (2020). Transformative innovation and translocal diffusion. Environmental Innovation and Societal Transitions.
Wei, T., Black, D., Greer, R., Von Wirth, T., Schmutz, U., Fried, J. (2020). Estimating income effect of food waste reduction at the food-energy-water nexus. DNC 2020.
Elmqvist, T., Andersson, E., Frantzeskaki, N., McPhearson, T., Olsson, P., Gaffney, O., ... & Folke, C. (2019). Sustainability and resilience for transformation in the urban century. Nature sustainability, 2(4), 267-273.
Liu, J., Hull, V., Godfray, H. C. J., Tilman, D., Gleick, P., Hoff, H., ... & Li, S. (2018). Nexus approaches to global sustainable development. Nature Sustainability, 1(9), 466-476.
Guillaume, J. H., Kummu, M., Eisner, S., & Varis, O. (2015). Transferable principles for managing the nexus: Lessons from historical global water modelling of central Asia. Water, 7(8), 4200-4231.
De Strasser, L., Lipponen, A., Howells, M., Stec, S., & Bréthaut, C. (2016). A methodology to assess the water energy food ecosystems nexus in transboundary river basins. Water, 8(2), 59.
Wolfe, M. L., Ting, K. C., Scott, N., Sharpley, A., Jones, J. W., & Verma, L. (2016). Engineering solutions for food-energy-water systems: it is more than engineering. Journal of Environmental Studies and Sciences, 6(1), 172-182.
Endo, A., Burnett, K., Orencio, P. M., Kumazawa, T., Wada, C. A., Ishii, A., ... & Taniguchi, M. (2015). Methods of the water-energy-food nexus. Water, 7(10), 5806-5830.
System Dynamics Modelling (NEXUS and non-NEXUS topics)
System dynamics modelling (SDM) and agent-based modelling (ABM) are two potentially powerful methods for simulating dynamics in complex systems, such as the food-energy-water nexus.
Parsa, A., Van De Wiel, M. J., & Schmutz, U. (2021). Intersection, interrelation or interdependence? The relationship between circular economy and nexus approach. Journal of Cleaner Production, 127794.
Larsen, M. A. D. and M. Drews (2019). "Water use in electricity generation for water-energy nexus analyses: The European case." Science of the
Total Environment 651: 2044-2058.
Morcillo, J. D., et al. (2018). "Simulation of demand growth scenarios in the Colombian electricity market: An integration of system dynamics and
dynamic systems." Applied Energy 216: 504-520.
Chhippi-Shrestha, G., et al. (2017). "Water–energy–carbon nexus modeling for urban water systems: system dynamics approach." Journal for Water Resource Planning and Management 143: 04017016.
Hussien, W. A., et al. (2017). "An integrated model to evaluate water-energy-food nexus at a household scale." Environmental Modelling &
Software 93: 366-380.
Mutingi, M., et al. (2017). "System dynamics approaches to energy policy modelling and simulation." Energy Procedia 141: 532-539.
Ahamd, S., et al. (2016). "Application of system dynamics approach in electricity sector modelling: A review." Renewable and Sustainable Energy
Reviews5: 29-37.
Duggan, J. (2016). System Dynamics Modeling with R. Switzerland, Springer.
Feng, M., et al. (2016). "Modeling the nexus across water supply, power generation and environment systems using the system dynamics approach: Hehuang Region, China." Journal of Hydrology 543: 344-359.
Guo, H., et al. (2016). "System dynamics-based evaluation of interventions to promote appropriate waste disposal behaviors in low-income urban
areas: A Baltimore case study." Waste Management 56: 547-560.
Jeong, H. and J. Adamowski (2016). "A system dynamics based socio-hydrological model for agricultural wastewater reuse at the watershed
scale." Agricultural Water Management 171: 89-107.
Sukholthaman, P. and A. Sharp (2016). "A system dynamics model to evaluate effects of source separation of municipal solid waste management:
A case of Bangkok, Thailand." Waste Management 52: 50-61.
Wei, T., et al. (2016). "A system dynamics urban water management model for Macau, China." Journal of Environmental Sciences 50: 117-126.
Yearworth, M. and S.E. Cornell (2016) "Contested modelling: a critical examination of expert modelling in sustainability." Systems Research and
Behavioral Science 33 (1): 45-63.
Park, S., et al. (2015). "A system dynamics computer model to assess the effects of developing an alternate water source on the water supply
systems management." Procedia Engineering 119: 753-760.
Hovmand, P. S. (2014). Community Based System Dynamics. Heidelberg, Germany, Springer.
Park, S., et al. (2014). "Simulation methods of a system dynamics model for efficient operations and planning of capacity expansion of activated-
sludge wastewater treatment plants." Procedia Engineering 70: 1289-1295.
Vafa-Arani, H., et al. (2014). "A system dynamics modeling for urban air pollution: A case study of Tehran, Iran." Transportation Research D 31: 21-
36.
Xi, X. and K. L. Poh (2013). "Using system dynamics for sustainable water resources management in Singapore." Procedia Computer Science 16:
157-166.
Feng, Y. Y., et al. (2013). "System dynamics modeling for urban energy consumption and CO2 emissions: A case study of Beijing, China." Ecological Modelling 252: 44-52.
Qudrat-Ullah, H. (2013). "Understanding the dynamics of electricity generation capacity in Canada: A system dynamics approach." Energy 59: 285-
294.
Zarghami, M. and S. Akbariyeh (2012). "System dynamics modeling for complex urban water systems: Application to the city of Tabriz, Iran."
Resources, Conservation and Recycling 60: 99-106.
Newell, B., et al. (2011). "Enhancing the resilience of the Australian national electricity market: Taking a systems approach in policy development."
Ecology and Society 16: 15.
Qi, C. and N.-B. Chang (2011). "System dynamics modeling for municipal water demand estimation in an urban region under uncertain economic
impacts." Journal of Environmental Management 92: 1628-1641.
Cheng, L. (2010). "System dynamics model of Suzhou water resources carrying capacity and its application." Water Science and Engineering 3: 144-155.
Kollikkathara, N., et al. (2010). "A system dynamic modeling approach for evaluating municipal solid waste generation, landfill capacity and related
cost management issues." Waste Management 30: 2194-2203.
Winz, I., et al. (2009). "The use of system dynamics simulation in water resources management." Water Resources Management 23: 1301-1323.
Sufian, M. A. and B. K. Bala (2006). "Modelling of electrical energy recovery from urban solid waste system: The case of Dhaka city." Renewable
Energy 31: 1573-1580.
Coyle, G. (2000). "Qualitative and quantitative modelling in system dynamics: some research questions." System Dynamics Review 16: 225-244.
Forrester, J. W. (1994). "System dynamics, systems thinking, and soft OR." System Dynamics Review 10: 245-256.
Dyner, I., et al. (1995). "System dynamics modelling for residential energy efficiency analysis and management." Journal of the Operational Research Society 46: 1163-1173.
Larsen, M. A. D. and M. Drews (2019). "Water use in electricity generation for water-energy nexus analyses: The European case." Science of the
Total Environment 651: 2044-2058.
Morcillo, J. D., et al. (2018). "Simulation of demand growth scenarios in the Colombian electricity market: An integration of system dynamics and
dynamic systems." Applied Energy 216: 504-520.
Chhippi-Shrestha, G., et al. (2017). "Water–energy–carbon nexus modeling for urban water systems: system dynamics approach." Journal for Water Resource Planning and Management 143: 04017016.
Hussien, W. A., et al. (2017). "An integrated model to evaluate water-energy-food nexus at a household scale." Environmental Modelling &
Software 93: 366-380.
Mutingi, M., et al. (2017). "System dynamics approaches to energy policy modelling and simulation." Energy Procedia 141: 532-539.
Ahamd, S., et al. (2016). "Application of system dynamics approach in electricity sector modelling: A review." Renewable and Sustainable Energy
Reviews5: 29-37.
Duggan, J. (2016). System Dynamics Modeling with R. Switzerland, Springer.
Feng, M., et al. (2016). "Modeling the nexus across water supply, power generation and environment systems using the system dynamics approach: Hehuang Region, China." Journal of Hydrology 543: 344-359.
Guo, H., et al. (2016). "System dynamics-based evaluation of interventions to promote appropriate waste disposal behaviors in low-income urban
areas: A Baltimore case study." Waste Management 56: 547-560.
Jeong, H. and J. Adamowski (2016). "A system dynamics based socio-hydrological model for agricultural wastewater reuse at the watershed
scale." Agricultural Water Management 171: 89-107.
Sukholthaman, P. and A. Sharp (2016). "A system dynamics model to evaluate effects of source separation of municipal solid waste management:
A case of Bangkok, Thailand." Waste Management 52: 50-61.
Wei, T., et al. (2016). "A system dynamics urban water management model for Macau, China." Journal of Environmental Sciences 50: 117-126.
Yearworth, M. and S.E. Cornell (2016) "Contested modelling: a critical examination of expert modelling in sustainability." Systems Research and
Behavioral Science 33 (1): 45-63.
Park, S., et al. (2015). "A system dynamics computer model to assess the effects of developing an alternate water source on the water supply
systems management." Procedia Engineering 119: 753-760.
Hovmand, P. S. (2014). Community Based System Dynamics. Heidelberg, Germany, Springer.
Park, S., et al. (2014). "Simulation methods of a system dynamics model for efficient operations and planning of capacity expansion of activated-
sludge wastewater treatment plants." Procedia Engineering 70: 1289-1295.
Vafa-Arani, H., et al. (2014). "A system dynamics modeling for urban air pollution: A case study of Tehran, Iran." Transportation Research D 31: 21-
36.
Xi, X. and K. L. Poh (2013). "Using system dynamics for sustainable water resources management in Singapore." Procedia Computer Science 16:
157-166.
Feng, Y. Y., et al. (2013). "System dynamics modeling for urban energy consumption and CO2 emissions: A case study of Beijing, China." Ecological Modelling 252: 44-52.
Qudrat-Ullah, H. (2013). "Understanding the dynamics of electricity generation capacity in Canada: A system dynamics approach." Energy 59: 285-
294.
Zarghami, M. and S. Akbariyeh (2012). "System dynamics modeling for complex urban water systems: Application to the city of Tabriz, Iran."
Resources, Conservation and Recycling 60: 99-106.
Newell, B., et al. (2011). "Enhancing the resilience of the Australian national electricity market: Taking a systems approach in policy development."
Ecology and Society 16: 15.
Qi, C. and N.-B. Chang (2011). "System dynamics modeling for municipal water demand estimation in an urban region under uncertain economic
impacts." Journal of Environmental Management 92: 1628-1641.
Cheng, L. (2010). "System dynamics model of Suzhou water resources carrying capacity and its application." Water Science and Engineering 3: 144-155.
Kollikkathara, N., et al. (2010). "A system dynamic modeling approach for evaluating municipal solid waste generation, landfill capacity and related
cost management issues." Waste Management 30: 2194-2203.
Winz, I., et al. (2009). "The use of system dynamics simulation in water resources management." Water Resources Management 23: 1301-1323.
Sufian, M. A. and B. K. Bala (2006). "Modelling of electrical energy recovery from urban solid waste system: The case of Dhaka city." Renewable
Energy 31: 1573-1580.
Coyle, G. (2000). "Qualitative and quantitative modelling in system dynamics: some research questions." System Dynamics Review 16: 225-244.
Forrester, J. W. (1994). "System dynamics, systems thinking, and soft OR." System Dynamics Review 10: 245-256.
Dyner, I., et al. (1995). "System dynamics modelling for residential energy efficiency analysis and management." Journal of the Operational Research Society 46: 1163-1173.
Agent-based Modelling (NEXUS and non-NEXUS topics)
Ali, A. M., et al. (2017). "Agent-based modeling to simulate the dynamics of urban water supply: Climate, population growth, and water shortages."
Sustainable Cities and Society 28: 420-434.
Du, E., et al. (2017). "Evaluating the impacts of farmers’ behaviors on a hypothetical agricultural water market based on double auction." Water
Resources Research 53: 4053-4072.
Elsawah, S., et al. (2015). "A methodology for eliciting, representing, and analysing stakeholder knowledge for decision making on complex socio-
ecological systems: From cognitive maps to agent-based models." Journal of Environmental Management 151: 500-516.
Groeneveld, J., et al. (2017). "Theoretical foundations of human decision-making in agent-based land use models - A review." Environmental
Modelling & Software 87: 39-48.
Khan, H. F., et al. (2017). "A coupled modeling framework for sustainable watershed management in transboundary river basins." Hydrology and
Earth System Science 21: 6275-6288.
Koutiva, I. and C. Makropoulos (2016). "Modelling domestic water demand: An agent based approach." Environmental Modelling & Software 79:
35-54.
Macal, C. M. (2016). "Everything you need to know about agent-based modelling and simulation." Journal of Simulation 10: 144-156.
Macal, C. M. and M. J. North (2010). "Tutorial on agent-based modelling and simulation." Journal of Simulation 4: 151-162.
Siebers, P. O., et al. (2010). "Discrete-event simulation is dead, long live agent-based simulation!" Journal of Simulation 4: 204-210.
Tesfatsion, L., et al. (2017). "An agent-based platform for the study of watersheds as coupled natural and human systems." Environmental
Modelling & Software 89: 40-60.
Sustainable Cities and Society 28: 420-434.
Du, E., et al. (2017). "Evaluating the impacts of farmers’ behaviors on a hypothetical agricultural water market based on double auction." Water
Resources Research 53: 4053-4072.
Elsawah, S., et al. (2015). "A methodology for eliciting, representing, and analysing stakeholder knowledge for decision making on complex socio-
ecological systems: From cognitive maps to agent-based models." Journal of Environmental Management 151: 500-516.
Groeneveld, J., et al. (2017). "Theoretical foundations of human decision-making in agent-based land use models - A review." Environmental
Modelling & Software 87: 39-48.
Khan, H. F., et al. (2017). "A coupled modeling framework for sustainable watershed management in transboundary river basins." Hydrology and
Earth System Science 21: 6275-6288.
Koutiva, I. and C. Makropoulos (2016). "Modelling domestic water demand: An agent based approach." Environmental Modelling & Software 79:
35-54.
Macal, C. M. (2016). "Everything you need to know about agent-based modelling and simulation." Journal of Simulation 10: 144-156.
Macal, C. M. and M. J. North (2010). "Tutorial on agent-based modelling and simulation." Journal of Simulation 4: 151-162.
Siebers, P. O., et al. (2010). "Discrete-event simulation is dead, long live agent-based simulation!" Journal of Simulation 4: 204-210.
Tesfatsion, L., et al. (2017). "An agent-based platform for the study of watersheds as coupled natural and human systems." Environmental
Modelling & Software 89: 40-60.
Other NEXUS Modelling (NEXUS topics only)
Bazilian, M., et al. (2011). "Considering the energy, water and food nexus: Towards an integrated modelling approach." Energy Policy 39: 7896-
7906.
Bieber, N., et al. (2018). "Sustainable planning of the energy-water-food nexus using decision making tools." Energy Policy 113: 584-607.
Brouwer, F., et al. (2018). "Energy modelling and the Nexus concept." Energy Strategy Reviews 19: 1-6.
Daher, B. T. and R. H. Mohtar (2015). "Water–energy–food (WEF) Nexus Tool 2.0: guiding integrative resource planning and decision-making."
Water International 40: 748-771.
Fang, D. and B. Chen (2017). "Linkage analysis for the water–energy nexus of city." Applied Energy 189: 770-779.
Kaddoura, S. and S. El Khatib (2017). "Review of water-energy-food Nexus tools to improve the Nexus modelling approach for integrated policy
making." Environmental Science & Policy 77: 114-121.
Karan, E. and S. Asadi (2018). "Quantitative modeling of interconnections associated with sustainable food, energy and water (FEW) systems."
Journal of Cleaner Production 200: 86-99.
Martinez-Hernandez, E., et al. (2017). "Understanding water-energy-food and ecosystem interactions using the nexus simulation tool NexSym."
Applied Energy 206: 1009-1021.
Zhang, X. and V. V. Vesselinov (2017). "Integrated modeling approach for optimal management of water, energy and food security nexus."
Advances in Water Resources 101: 1-10.
7906.
Bieber, N., et al. (2018). "Sustainable planning of the energy-water-food nexus using decision making tools." Energy Policy 113: 584-607.
Brouwer, F., et al. (2018). "Energy modelling and the Nexus concept." Energy Strategy Reviews 19: 1-6.
Daher, B. T. and R. H. Mohtar (2015). "Water–energy–food (WEF) Nexus Tool 2.0: guiding integrative resource planning and decision-making."
Water International 40: 748-771.
Fang, D. and B. Chen (2017). "Linkage analysis for the water–energy nexus of city." Applied Energy 189: 770-779.
Kaddoura, S. and S. El Khatib (2017). "Review of water-energy-food Nexus tools to improve the Nexus modelling approach for integrated policy
making." Environmental Science & Policy 77: 114-121.
Karan, E. and S. Asadi (2018). "Quantitative modeling of interconnections associated with sustainable food, energy and water (FEW) systems."
Journal of Cleaner Production 200: 86-99.
Martinez-Hernandez, E., et al. (2017). "Understanding water-energy-food and ecosystem interactions using the nexus simulation tool NexSym."
Applied Energy 206: 1009-1021.
Zhang, X. and V. V. Vesselinov (2017). "Integrated modeling approach for optimal management of water, energy and food security nexus."
Advances in Water Resources 101: 1-10.
Sustainability Transitions
Fried, J., & Paytan, A. (2022). Sustainable urban systems and just FEW nexus transitions. Open Access Government, ISSN 2516-3817.
Black, D., Roderick, I., Paytan, A., Charlesworth, S., & Carey, J. (2023). Zero food waste city 2049: Identifying barriers to transition pathways. Open Access Government, 490-491.
Dal Poz, M. E., Francisco, E. C., Paytan, A., Von Wirth, T., Charlesworth, S., & Fried, J. (2023). Urban living laboratories: Opportunities for modelling sustainability transitions. Open Access Government.
Greer, R., von Wirth, T., & Loorbach, D. (2021). The Waste-Resource Paradox: Practical dilemmas and societal implications in the transition to a circular economy. Journal of Cleaner Production, 303, 126831. [IMAGE]
Author Unknown. (unpublished) To what extent is UK CEA pursuing synergies with waste streams from the urban context and what are stakeholder opinions regarding this, in the UK CEA sector and at the city level, in Bristol [PODCAST]
Greer, R., von Wirth, T., & Loorbach, D. (2020). The diffusion of circular services: Transforming the Dutch catering sector. Journal of Cleaner Production, 121906.
Hansen, T., & Coenen, L. (2015). The geography of sustainability transitions: Review, synthesis and reflections on an emergent research field. Environmental innovation and societal transitions, 17, 92-109.
Coenen, L., & Truffer, B. (2012). Places and spaces of sustainability transitions: Geographical contributions to an emerging research and policy field. European Planning Studies, 20(3), 367-374.
Avelino, F. (2017). Power in sustainability transitions: Analysing power and (dis) empowerment in transformative change towards sustainability. Environmental Policy and Governance, 27(6), 505-520.
Avelino, F., & Wittmayer, J. M. (2016). Shifting power relations in sustainability transitions: a multi-actor perspective. Journal of Environmental Policy & Planning, 18(5), 628-649.
Wieczorek, A. J. (2018). Sustainability transitions in developing countries: Major insights and their implications for research and policy. Environmental Science & Policy, 84, 204-216.
Swilling, M., Musango, J., & Wakeford, J. (2016). Developmental states and sustainability transitions: prospects of a just transition in South Africa. Journal of Environmental Policy & Planning, 18(5), 650-672.
Black, D., Roderick, I., Paytan, A., Charlesworth, S., & Carey, J. (2023). Zero food waste city 2049: Identifying barriers to transition pathways. Open Access Government, 490-491.
Dal Poz, M. E., Francisco, E. C., Paytan, A., Von Wirth, T., Charlesworth, S., & Fried, J. (2023). Urban living laboratories: Opportunities for modelling sustainability transitions. Open Access Government.
Greer, R., von Wirth, T., & Loorbach, D. (2021). The Waste-Resource Paradox: Practical dilemmas and societal implications in the transition to a circular economy. Journal of Cleaner Production, 303, 126831. [IMAGE]
Author Unknown. (unpublished) To what extent is UK CEA pursuing synergies with waste streams from the urban context and what are stakeholder opinions regarding this, in the UK CEA sector and at the city level, in Bristol [PODCAST]
Greer, R., von Wirth, T., & Loorbach, D. (2020). The diffusion of circular services: Transforming the Dutch catering sector. Journal of Cleaner Production, 121906.
Hansen, T., & Coenen, L. (2015). The geography of sustainability transitions: Review, synthesis and reflections on an emergent research field. Environmental innovation and societal transitions, 17, 92-109.
Coenen, L., & Truffer, B. (2012). Places and spaces of sustainability transitions: Geographical contributions to an emerging research and policy field. European Planning Studies, 20(3), 367-374.
Avelino, F. (2017). Power in sustainability transitions: Analysing power and (dis) empowerment in transformative change towards sustainability. Environmental Policy and Governance, 27(6), 505-520.
Avelino, F., & Wittmayer, J. M. (2016). Shifting power relations in sustainability transitions: a multi-actor perspective. Journal of Environmental Policy & Planning, 18(5), 628-649.
Wieczorek, A. J. (2018). Sustainability transitions in developing countries: Major insights and their implications for research and policy. Environmental Science & Policy, 84, 204-216.
Swilling, M., Musango, J., & Wakeford, J. (2016). Developmental states and sustainability transitions: prospects of a just transition in South Africa. Journal of Environmental Policy & Planning, 18(5), 650-672.