Assessing Urban Sustainability through Participatory Multi-Criteria Approaches (PMCAs): An Updated Comparative Analysis

9 - Assessing Urban Sustainability through Participatory Multi-Criteria Approaches (PMCAs): An Updated Comparative Analysis

from Part II - Integrative Approaches for Sustainability Assessment

Published online by Cambridge University Press: 27 March 2020

Edited by

Romano Wyss and

Claudia R. Binder: Affiliation:
École Polytechnique Fédérale de Lausanne
Romano Wyss: Affiliation:
École Polytechnique Fédérale de Lausanne
Emanuele Massaro: Affiliation:
École Polytechnique Fédérale de Lausanne

Book contents

Get access

Summary

This chapter presents a comparative analysis of four Participatory Multi-Criteria Approaches (PMCAs) usually applied in sustainability assessments (SMCE, MCM, 3-SPM, and INTEGRAAL). Such approaches are presented in detail and subsequently compared to each other according to three elementary yet crucial questions: who assesses?; what is assessed?; and how is it assessed? The results outline potential synergies and theoretical incompatibilities between the four approaches. The analysis also supports future PMCA applications when choosing one particular approach according to: key meta-principles (i.e., epistemological stance, methodological emphasis); logistical constraints (e.g., time, budget); local idiosyncrasies (e.g., pertinent geographical scales, power asymmetries); and organisational factors.

Keywords

Sustainability Solution Space urban sustainability indicator sustainability assessment participatory expert trade-offs systemic normative

Type: Chapter
Information: Sustainability Assessment of Urban Systems , pp. 209 - 238

DOI: https://doi.org/10.1017/9781108574334 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2020

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Alberti, M., & Susskind, L. (1996). Managing urban sustainability: An introduction to the Special Issue. Environmental Impact Assessment Review, 16, 213–221.CrossRef Google Scholar

Banville, C., Landry, M., Martel, J. M., & Boulaire, C. (1998). A stakeholder approach to MCDA. Systems Research and Behavioral Science, 15, 15–32.3.0.CO;2-B>CrossRef Google Scholar

Bellamy, R., Chilvers, J., Vaughan, N. E., & Lenton, T. M. (2013). Opening up geoengineering appraisal: Multi-criteria mapping of options for tackling climate change. Global Environmental Change, 23, 926–937.Google Scholar

Bromley, D. W. (2007). Environmental regulations and the problem of sustainability: Moving beyond “market failure.” Ecological Economics, 63, 676–683.CrossRef Google Scholar

Bromley, D. W., & Paavola, J. (2002). Economics, Ethics, and Environmental Policy. In Bromley, D. W. & Paavola, J, (eds.), Economics, Ethics, and Environmental Policy: Contested Choices. Oxford: Blackwell Publishing, pp. 261–276.CrossRef Google Scholar

Bulkeley, H., & Betsill, M. (2005). Rethinking sustainable cities: Multilevel governance and the “urban” politics of climate change. Environmental Politics, 14(1), 42–63.Google Scholar

Chamaret, A. (2007). Une démarche top‐down / bottom‐up pour l”évaluation en termes multicritères et multiacteurs des projets miniers dans l”optique du développement durable. Application sur les mines d”Uranium d”Arlit (Niger). PhD Dissertation. University of Versailles Saint‐Quentin-en‐ Yvelines, Guyancourt.Google Scholar

Cole, J., Sharvelle, S., Grigg, N., Pivo, G., & Haukaas, J. (2018). Collaborative, risk-informed, triple bottom line, multi-criteria decision analysis planning framework for integrated urban water management. Water, 10(12), 1722.Google Scholar

De Marchi, B., Funtowicz, S. O., Lo Cascio, S., & Munda, G. (2000). Combining participative and institutional approaches with multicriteria evaluation: An empirical study for water issues in Troina, Sicily. Ecological Economics, 34, 267–282.CrossRef Google Scholar

De Montis, A., De Toro, P., Droste-Franke, B., Omann, I., & Stagl, S. (2000). Criteria for quality assessment of MCDA methods. Paper presented at the 3^rd Conference of the ESEE, May 3–6, Vienna.Google Scholar

De Montis, A., & Lai, S. (2008). Multi-criteria evaluation and planning support choosing among alternative scenarios for an urban natural park in Sardinia, Italy. In Vreeker, R, Deakin, M, & Curwell, S (eds.), Sustainable Urban Development, Volume 3: The Toolkit for Assessment, London: Routledge, pp. 62–82.Google Scholar

Da Cunha, C. (2010). Quelle prise en compte de la diversité dans les enjeux de performances de l’activité agricole en Ile de France? : expérimentation d’une démarche d’évaluation participative multicritère. PhD Dissertation. University of Versailles Saint‐Quentin-en‐ Yvelines, Guyancourt.Google Scholar

Dodgson, J., Spackman, M., Pearman, A., & Phillips, L. (2009). Multi-criteria analysis: A manual. London: Department for Communities and Local Government.Google Scholar

Domenèch, L., March, H., & Saurí, D. (2011). Degrowth initiatives in the urban water sector? A social multi-criteria evaluation of non-conventional water alternatives in Metropolitan Barcelona. Journal of Cleaner Production, 38, 44–55.Google Scholar

Finco, A., & Nijkamp, P. (2001). Pathways to urban sustainability. Journal of Environmental Policy & Planning, 3, 289–302.CrossRef Google Scholar

Foster, J. (Ed.). (1997). Valuing Nature? Economics, Ethics and Environment, Routledge, London.Google Scholar

Gamboa, G. (2006). Social multi-criteria evaluation of different development scenarios of the Aysén region, Chile. Ecological Economics, 59, 157–170.Google Scholar

Fritz, L., & Meinherz, F. (2020). The politics of participatory sustainability assessments: an analysis of power. In Binder, C. R., Massaro, E, & Wyss, R (eds.), Sustainability Assessment in Urban Systems. Cambridge University Press, pp. 87–122.Google Scholar

Gamboa, G., & Munda, G. (2007). The problem of windfarm location: A social multi-criteria evaluation framework. Energy Policy, 35, 1564–1583.Google Scholar

Garmendia, E., Gamboa, G., Franco, J., Garmendia, J. M., Liria, P., & Olazabal, M. (2010). Social multi-criteria evaluation as a decision support tool for integrated coastal zone management. Ocean & Coastal Management, 53(7), 385–403.CrossRef Google Scholar

Gerber, J. -F., Rodríguez-Labajos, B., Yánez, I., et al. (2012). Guide to Multicriteria Evaluation for Environmental Justice Organisations. EJOLT Report No. 8, 45 p.Google Scholar

Giampietro, M. (2002). Complexity and Scales: The Challenge for Integrated Assessment. Integrated Assessment, 3(2–3), 247–265.Google Scholar

Godard, O. (2004). La pensée économique face à la question de l”environnement. Cahiers du Laboratoire d”Econométrie de l”Ecole Polytechnique, Cahier n° 2004–013, Ecole Polytechnique, Palaiseau.Google Scholar

Gregory, R., Lichtenstein, S., & Slovic, P. (1993). Valuing Environmental Resources: A Constructive Approach. Journal of Risk and Uncertainty, 7, 177–197.Google Scholar

Guitouni, A., & Martel, J. M. (1998). Tentative guidelines to help choosing an appropriate MCDA method. European Journal of Operational Research. 109, 501–521.Google Scholar

Halla, P., Wyss, R., & Binder, C. R. (2020). Conceptualising Urban Systems for Sustainability Assessment: Four Powerful Metaphors. In Binder, C. R., Massaro, E, & Wyss, R (eds.), Sustainability Assessment in Urban Systems. Cambridge University Press, pp. 241–260.CrossRef Google Scholar

Hansen, S. F. (2010). Multicriteria mapping of stakeholder preferences in regulating nanotechnology. Journal of Nanoparticle Research, 12, 1959–1970.Google Scholar

Hwang, C. L., & Yoon, K. (1981). Multiple Attributes Decision Making Methods and Applications. Berlin: Springer.CrossRef Google Scholar

Jacobs, M. ([1991] 1997). La Economía Verde. Medio Ambiente, Desarrollo Sostenible y la Política del Futuro. Barcelona: Icaria.Google Scholar

Janssen, R., & Munda, G. (1999). Multi-criteria methods for quantitative, qualitative and fuzzy evaluation problem. In van den Bergh, J (ed.), Handbook of Environmental and Resource Economics. Cheltenham: Edward Elgar, pp. 837–852.Google Scholar

Lahdelma, R., Salminen, P., & Hokkanen, J. (2000). Using multicriteria methods in environmental planning and management. Environmental Management, 26(6), 595–605.Google Scholar

Landert, J., Schader, C., Moschitz, H., & Stolze, M. (2017). A holistic sustainability assessment method for urban food system governance. Sustainability, 9, 490.Google Scholar

Liu, S., Proctor, W., & Cook, D. (2010). Using an integrated fuzzy set and deliberative multi-criteria evaluation approach to facilitate decision-making in invasive species management. Ecological Economics, 69(12), 2374–2382.CrossRef Google Scholar

Lockwood, M. (1999). Humans valuing nature: synthesising insights from philosophy, psychology and economics, Environmental Values, 8, 381–401.CrossRef Google Scholar

Lupo, T., & Cusumano, M. (2018). Towards more equity concerning quality of Urban Waste Management services in the context of cities. Journal of Cleaner Production, 171, 1324–1341.CrossRef Google Scholar

Martel, J. M., & Rousseau, A. (1993). Cadre de référence d’une démarche multicritère de gestion intégrée des ressources en milieu forestier. Rapport préparé pour le Gouvernement du Québec, Ministère du loisir, de la chasse et de la pêche, Ministère des Forêts et Ministère de l’Environnement, document technique 93/11, 49 pages.Google Scholar

Martí, N. (2005). La multidimensionalidad de los sistemas locales de alimentación en los Andes peruanos: los chalayplasa del Valle de Lares (Cusco). PhD Dissertation. Universitat Autónoma de Barcelona.Google Scholar

Martínez-Alier, J., Munda, G., & O’Neill, J. (1998). Weak comparability of values as a foundation for ecological Economics. Ecological Economics, 26, 277–286.Google Scholar

Martínez-Alier, J., & Roca, J. ([2000] 2001). Economía Ecológica y Política Ambiental, México D.F.: Fondo de Cultura Económica.Google Scholar

Maxim, L. (2008). Mobilisation d’un outil multimédia d’aide à la délibération pour l’analyse socio‐économique des changements de la biodiversité. Réflexions autour de trois études de cas, à l’échelle régionale (Île‐de‐France), nationale (France) et continentale (Europe). PhD Dissertation. University of Versailles Saint‐Quentin-en‐ Yvelines, Guyancourt.Google Scholar

Merino-Saum, A. (2015). Vivre avec le feu en région méditerranéenne. Une approche participative multicritère et multi-scénarios appliquée au cas du massif des Maures (Var, France). PhD Dissertation. University of Versailles Saint‐Quentin-en‐ Yvelines, Guyancourt.Google Scholar

McDowall, W., & Eames, M. (2006). Towards a sustainable hydrogen economy: A multi-criteria mapping of the UKSHEC hydrogen futures. London: Policy Studies Institute.Google Scholar

Millstone, E., & Lobstein, T. (2007). The PorGrow project: Overall cross-national results, comparisons and implications. Obesity Reviews, 8, 29–36.Google Scholar

Munda, G. (2003). Multicriteria assessment. In Internet Encyclopedia of Ecological Economics. International Society for Ecological Economics.Google Scholar

Munda, G. (2004a). Social multi-criteria evaluation: Methodological foundations and operational consequences. European Journal of Operational Research, 158, 662–677.Google Scholar

Munda, G. (2004b). Multi-criteria evaluation. In Proops, J & Safonov, P (eds.), Modelling in Ecological Economics. Cheltenham: Edward Elgar, pp. 130–154.CrossRef Google Scholar

Munda, G. (2006). Social multi-criteria evaluation for urban sustainability policies. Land Use Policy, 23, 86–94.Google Scholar

Munda, G. (2008). Social Multi-Criteria Evaluation for a Sustainable Economy. Berlin Heidelberg: Springer-Verlag.Google Scholar

Munda, G. (2009). A conflict analysis approach for illuminating distributional issues in sustainability policy. European Journal of Operational Research, 194, 307–322.CrossRef Google Scholar

Munda, G., & Nardo, M. (2003). Mathematical modelling of composite indicators for ranking countries, Proceedings of the First OECD/JRC Workshop on Composite Indicators of Country Performance, JRC, Ispra.Google Scholar

Munda, G., Nijkamp, P., & Rietveld, P. (1995). Qualitative multicriteria methods for fuzzy evaluation problems: An illustration of economic-ecological evaluation. European Journal of Operational Research, 82, 79–97.Google Scholar

Munda, G., & Russi, D. (2008). Social multicriteria evaluation of conflict over rural electrification and solar energy in Spain. Environment and Planning C: Government and Policy, 26, 712–727.Google Scholar

Nijkamp, P., Rietveld, P., Voogd, H. (1991). Multicriteria Analysis for Physical Planning.Amsterdam: Elsevier.Google Scholar

O’Connor, M. (1997). Environmental valuation: From the point of view of sustainability. In Dragun, A. K. & Jakobsson, M. J. (eds.), Sustainability and Global Environmental Policy: New Perspectives. Cheltenham: Edward Elgar, pp.149–178.Google Scholar

O’Connor, M. (2000). Pathways for environmental evaluation: A walk in the (Hanging) Gardens of Babylon. Ecological Economics, 34, 175–193.Google Scholar

O’Connor, M. (2006). Deliberative Sustainability Assessment: Multiple Scales, Multiple Stakeholders, Multidisciplinarity and Multiple Bottom Lines. Rapport de Recherche du C3ED, University of Versailles St-Quentin-en-Yvelines, Guyancourt.Google Scholar

O’Connor, M. (2007). Deliberative Sustainability Assessment with the on line KerDST Deliberation Support Tool. Cahiers du C3ED, n°07–03, University of Versailles St-Quentin-en-Yvelines, Guyancourt.Google Scholar

O’Connor, M., Faucheux, S., Froger, G., Funtowicz, S., & Munda, G. (1996). Emergent complexity and procedural rationality: Post-normal science for sustainability. In Constanza, R, Segura, O, & Martínez-Alier, J (eds.), Getting down to Earth, Island Press, Washington DC: International Society of Ecological Economics, pp. 223–247.Google Scholar

O’Connor, M., van den Hove, S. O’Neill, J., & Hue, C. (2001). Le Modèle Politique de la Démocratie Délibérative, Documentation interne du C3ED.Google Scholar

O’Connor, M., & Spangenberg, J. H. (2007). A methodology for CSR reporting: Assuring a representative diversity of indicators across stakeholders, scales, sites and performance issues. Journal of Cleaner Production, 16(13), 1399–1415.Google Scholar

O’Connor, M., Small, B., & Wedderburn, M. E. (2010). Sustainable Agriculture in Aotearoa: Social Learning through Piecewise Deliberation. REEDS Working Papers series 2010–10, Université de Versailles St-Quentin-en-Yvelines, Rambouillet.Google Scholar

Omann, I. (2004). Multi-criteria decision aid as an approach for sustainable development analysis and implementation. PhD Dissertation, University of Graz.Google Scholar

O’Neill, J. (1993). Ecology, Policy and Politics. London: Routledge.Google Scholar

O’Neill, J. (1997). Value pluralism, incommensurability and institutions. In Foster, J (ed.), Valuing Nature? Economics, Ethics and Environment. London: Routledge, pp. 75–88.Google Scholar

Paneque Salgado, P., Quintana, S. C., Guimaraes Pereira, A., Del Moral, Ituarte, L., & Pedregal Mateos, B. (2009). Participative multi-criteria analysis for the evaluation of water governance alternatives: A case in the Costa del Sol (Málaga). Ecological Economics, 68, 990–1005.Google Scholar

Proctor, W. (2009). Environmental Decision Making: An application of Multi-criteria Analysis to a Case Study of Australia’s Forests. Saarbrücken: Lambert Academic Publishing.Google Scholar

Proctor, W., & Dreschler, M. (2006). Deliberative multicriteria evaluation. Environment and Planning C: Government and Policy, 24, 169–190.Google Scholar

Quintana, S. C. (2001). Una Metodología integrada de exploración y compensión de los procesos de elaboración de políticas públicas. PhD Dissertation. University of La Laguna.Google Scholar

Rauschmayer, F., & Wittmer, H. (2006). Evaluating deliberative and analytical methods for the resolution of environmental conflicts. Land Use Policy, 23, 108–122.CrossRef Google Scholar

Ravetz, J. (2000). Integrated assessment for sustainability appraisal in cities and regions. Environmental Impact Assessment Review, 20, 31–64.Google Scholar

Reichel, V., Chamaret, A., & O’Connor, M. (2010). Les Avenirs de la Boucle de Moisson : un projet de réflexion participative pour un développement territorial soutenable. Rapport de Recherche REEDS n° 2010‐06, University of Versailles St-Quentin-en-Yvelines, Rambouillet.Google Scholar

Remvikos, Y., Mahamat, A., & Reichel, V. (2010). L’interface science/décision au travers d’une évaluation multicritères et multi-acteurs du plan régional pour la qualité de l’air en Ile-de-France, Cahiers du Centre REEDS n° 2010–12, University of Versailles St-Quentin-en-Yvelines, Rambouillet.Google Scholar

Renn, O. (1986). Decision analytic tools for resolving uncertainty in the energy debate. Nuclear Engineering and Design, 93(2–3), 167–180.Google Scholar

Renn, O. (2003). Social assessment of waste energy utilization scenarios. Energy, 28, 1345–1357.Google Scholar

Renn, O. (2006). Participatory processes for designing environmental policies. Land Use Policy, 23, 34–43.CrossRef Google Scholar

Renn, O., & Webler, T. (1992). Anticipating Conflicts: Public Participation in Managing the Solid Waste Crisis. GAIA, 2, 84–94.Google Scholar

Renn, O., Webler, T., Horst, R., Dienel, P., & Johnson, B. (1993). Public participation in decision-making: A three-step procedure. Policy Science, 26, 189–214.Google Scholar

Renn, O., Webler, T., & Kastenholz, , H. (1996). Procedural and substantive fairness in landfill siting: A Swiss Case Study. RISK: Health, Safety & Environment, 7(2), 145–168.Google Scholar

Roy, B., & Bouyssou, D. (1993). Aide multicritère à la décision: méthodes et cas. Paris: Economica.Google Scholar

Roy, B., & Vincke, P. (1981). Multicriteria analysis: Survey and new directions. European Journal of Operational Research, 8, 207–218.CrossRef Google Scholar

Royuela, J. B., Eames, M., & Buckingham, S. (2016). “Participative foresight scenario mapping”: Adapting an MCM method to appraise foresight scenarios for the long-term sustainable development of a small island. International Journal of Multicriteria Decision Making, 6(2), 118–137.Google Scholar

Sagoff, M. (1998). Aggregation and deliberation in valuing environmental public goods: A look beyond contingent pricing. Ecological Economics, 24, 213–230.Google Scholar

Schkade, D. A., & Payne, J. W. (1994). How people respond to contingent valuation questions: A verbal protocol analysis of willingness to pay for an environmental regulation. Journal of Environmental Economics and Management, 26, 88–109.Google Scholar

Schneider, E., Oppermann, B., Renn, O. (1998). Implementing structured participation for regional level waste management planning. Risk: Health, Safety and Environment, 9, 379–395.Google Scholar

Scolobig, A., Castán Broto, V., & Zabala, A. (2008). Integrating multiple perspectives in social multicriteria evaluation of flood-mitigation alternatives: The case of Malborghetto-Valbruna. Environment and Planning C: Government and Policy, 26, 1143–1161.Google Scholar

Spash, C. (2008). Contingent valuation design and data treatment: If you can’t shoot the messenger, change the message. Environment and Planning C: Government and Policy, 26, 34–53.Google Scholar

Stagl, S. (2003). Multicriteria Evaluation and Public Participation: In Search for Theoretical Foundations. Paper presented at the ESEE Conference (European Society for Ecological Economics), Tenerife, Spain, 12–15 February.Google Scholar

Stagl, S. (2006). Multicriteria evaluation and public participation: the case of UK energy policy. Land Use Policy, 23, 53–62.Google Scholar

Stagl, S. (2007). Emerging Methods for Sustainability Valuation and Appraisal. Rapid Research and Evidence Reviews, The Sustainable Development Research Network.Google Scholar

Stirling, A. (1997). Multi-criteria mapping: Mitigating the problems of environmental valuation? In Foster, J (ed.), Valuing Nature? Economics, Ethics and Environment. London: Routledge, pp. 186–210.Google Scholar

Stirling, A. (2005). Multi-Criteria Mapping: A Detailed Interview Protocol. Unpublished technical report.Google Scholar

Stirling, A., & Mayer, S. (1999). Rethinking Risk: A Pilot Multi-criteria Mapping of a Genetically Modified Crop in Agricultural Systems in the UK. University of Sussex, Science Policy Research Unit.Google Scholar

Stirling, A., & Mayer, S. (2000). A precautionary approach to technology appraisal? A multi-criteria mapping of genetic modification in UK agriculture. SCHWERPUNKTHEMA, 3(9), 39–51.Google Scholar

Vatn, A. (2005a). Institutions and the Environment. Cheltenham: Edward Elgar.Google Scholar

Vatn, A. (2005b). Rationality, institutions and environmental policy. Ecological Economics, 55, 203–217.Google Scholar

Vatn, A., & Bromley, D. W. (1994). Choices without prices without apologies. Journal of Environmental Economics and Management, 26, 129–148.Google Scholar

Walter, M., Latorre Tomás, S., Munda, G., & Larrea, C. (2016). A social multi-criteria evaluation approach to assess extractive and non-extractive scenarios in Ecuador: Intag case study. Land Use Policy, 57, 444–458.Google Scholar

Whitehead, M. (2003). (Re)Analysing the sustainable city: Nature, urbanisation and the regulation of socio-environmental relations in the UK. Urban Studies, 40(7), 1183–1206.Google Scholar

Book contents

9 - Assessing Urban Sustainability through Participatory Multi-Criteria Approaches (PMCAs): An Updated Comparative Analysis

Summary

Keywords

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive