Proposed Definition and Typology of Brownfield Sites in Iranian Cities
محورهای موضوعی : Urban Development
1 - School of Urban Planning, Faculty of Fine Arts, University of Tehran, Tehran, Iran
کلید واژه: Typology, Grounded Theory, Iranian cities, Brownfield Sites,
چکیده مقاله :
The term of brownfield and its redevelopment has been considered extensively in the world urban planning literature. However, the nature of the brownfields and the differences between how they are created in countries have caused this term to be defined based on the contextual and typological conditions in each country, involving a wide range of lands. Meanwhile, despite the high importance of brownfield development in improving the quality of urban life, this issue is still neglected in the urban planning system of Iran. Therefore, this study is aimed to propose the definition of brownfield sits in Iranian cities and their typology as a policy to help reconsider them in urban development plans. After presenting the adaptive criteria extracted from the relevant literature, experts in this field were interviewed to determine the main categories of this concept in the country’s cities using the grounded theory qualitative method. Then, the rules and regulations related to the categories were reviewed to finally define this concept and present its comparative typology. The findings show that in Iranian cities, the brownfield sites comprise abandoned sites or lands including activities that pollute the environment, being incompatible with authorized urban activities. According to this definition, twelve types of brownfield sites can be identified in Iranian cities, in which the activities are incompatible with urban activities and they require intervention for development, and one type includes lands with no function at present, in which development has occurred previously.
Afradi, K.; Noorian, F., (2015). Introducing the qualitative considerations in redevelopment of derelict areas and organizing them into a quality assessment framework (Case Study: Dooshan Tappeh Airpase). Motaleate Shahri, 4 (15), 93-105.
Ahmad, N.; Zhu, Y.; Ibrahim, M.; Waqas, M.; Waheed, A., (2018). Development of a Standard Brownfield Definition, Guidelines, and Evaluation Index System for Brownfield Redevelopment in Developing Countries: The Case of Pakistan. Sustainability, 10, 4347.
Alker, S.; JOY, V.; Roberts, P.; Smith, N., (2000). The Definition of Brownfield, Journal of Environmental Planning and Management, 43(1), 49-69.
Allen, N.; Davey, M., (2018). The Value of Constructivist Grounded Theory for Built Environment Researchers. Journal of Planning Education and Research, 38(2). 222- 232.
APAT - Servizio Interdipartimentale per le emergenze Ambientali., (2006). retrieved from: http://www.isprambiente.gov.it/contentfiles/00003600/3669-proposte-brownfield.pdf/at_download/file
Bartke, S., (2011). Valuation of market uncertainties for contaminated land. Int. J. Strateg. Prop. Manag., 15, 356-378.
Bartke, S.; Martin´at, S.; Klus´aˇcek, P.; Pizzol, L.; Alexandrescu, F.; Frant´al, B.; Critto, A.; Zabeo, A., (2016). Targeted selection of brownfields from portfolios for sustainable regeneration: user experiences from five cases testing the timbre brownfield prioritization tool. J. Environ. Manag., 184 (1), 94–107.
CABERNET (2010). Concerted Action on Brownfield and Economic Regeneration Network.
Carroll, D. A.; Eger, R. J. (2006). Brownfields, Crime, and Tax Increment Financing. The American Review of Public Administration, 36(4), 455–477.
CEN (Glossary of Terms for Holistic Management of Brownfield Regeneration) (GoTHOMBRE)., (2014). CEN Workshop Agreement 74.
Chen, Z.; KhumpaisalAn, S., (2009). Analytic Network Process for Risks Assessment in Commercial Real Estate Development. J. Prop. Invest. Financ, 27, 238-258.
Chrysochoou, M.; Brown, K.; Dahal, G.; Granda-Carvajal, C.; Segerson, K.; Garrick, N.; Bagtzoglou, A. (2012). A GIS and indexing scheme to screen brownfields for area-wide redevelopment planning. Land. Urban Plan, 105 (3), 187–198.
Commission of Article 5., (2019). Guidelines for Checking, Identification and Exploration and development of Reserve Lands in Tehran Metropolis. “Persian”
De Sousa, C.A., (2002a). Brownfield redevelopment in Toronto: An examination of past trends and future prospects. Land Use Policy, 19, 297-3009.
De. Sousa, C.A., (2002b). Measuring the public costs and benefits of brownfield versus greenfield development in the Greater Toronto area Environ. Plan. B Plan. Des, 29, 251-280.
Flick, U. (2018). Doing grounded theory. Sage, 9.
Frantál, B.; Kunc, J.; Nováková, E.; Klusáček, P.; Martinát, S.; Osman, R., (2013) Location Matters! Exploring Brownfields Regeneration in a Spatial Context (A Case Study of the South Moravian Region, Czech Republic). Moravian Geographical Reports, 21 (2), 5-19.
Han, Q.Y.; Zhu, Y.M.; Ke, G.Y.; Hipel, K.W., (2019). Public private partnership in brownfield remediation projects in China: identification and structure analysis of risks. Land Use Policy 84, 87–104.
Heberle, L.C.; Wernstedt, K., (2006). Understanding brownfields regeneration in the US. Local Environment, 11, 479 - 497.
Izadi, M.; Amiri, N., (2016). Internal development, concordant, balanced and stable pattern to develop and promote the urban quality, planning for redevelopment of urban military land. The Monthly Scientific Journal of Bagh-e Nazar, 13(41), 35-46.
Loures, L.; Panagopoulos, T.; Burley, J.B., (2016). Assessing user preferences on post-industrial redevelopment. Environ. Plan. B Plan. Des. 43, 871-892
POST, (1998). A Brown and Pleasant Land, London, UK.
Potts, L.; Cloete, C.E., (2012). Developing guidelines for brownfield development in South Africa. WIT Transactions on Ecology and the Environment, 162, 389-399.
Rahnama, M.R.; Khakpoor, B.A.; Razavi, H., (2015). Classifying Urban Brownfield Areas in Mashhad: Providing a Basis for Investment of Lands. Geography and Regional Development, 24, 1-22.
Schädler, S.; Morio, M.; Bartke, S.; Finkel, M., (2012). Integrated planning and spatial evaluation of mega site remediation and reuse options J. Contam. Hydrol, 127, 88-100.
Schädler, S.; Finkel, M.; Bleicher, A.; Morio, M.; Gross, M., (2013). Spatially explicit computation of sustainability indicator values for the automated assessment of land-use options. Land, Urban Plan, 111, 34–45.
Strauss, A.; Corbin, J., (1990). Basics of Qualitative Research: Grounded Theory Procedures and Techniques; Sage Publications: Newbury Park, CA, USA, 1990.
Strauss, A.; Corbin, J., (2017). Basic of Qualitative Research: Techniques and Procedures for developing Grounded Theory. Third Edition, Los Angeles: stage publication.
Song, Y.; Zhang, X.J.; Lyu, Y.; Wang, S.J.; Lin, H.Y., (2019). Review and prospects on urban brownfield research from a geographical perspective. Sci. Geogr. Sin. 39 (6), 886–897.
Song, Y.; Lyu, Y.; Qian, S.; Zhang, X.; Lin, H.; Wang, S., (2022). Identifying urban candidate brownfield sites using multi-source data: The case of Changchun City, China. Land Use Policy, 117, 106084. TIMBRE. Timbre Application Sites and European Best Practice Cases.
Raco, M.; Henderson, S., (2006). Sustainable urban planning and the brownfield development process in the United Kingdom: lessons from the Thames Gateway. Local Environ. 11 (5), 499–613.
USEPA (United States Environmental Protection Agency)., (2002). Retrieved from: https://www.epa.gov/brownfields/overview-epas-brownfields-program.
USEPA(United States Environmental Protection Agency)., (2019). Anatomy of Brownfields Redevelopment Retrieved from: www.epa.gov › documents › anat_bf_redev-101106.
Yu-ting, T. (2011). investigating sustainable land use, possible implications for brownfield regeneration policy. Ph.D. thesis, University of Nottingham.
Zhu, Y.; Hipel, K. Y.; Ke, G.; Chen, Y., (2015). Establishment and optimization of an evaluation index system for brownfield redevelopment projects: An empirical study. Environmental Modelling & Software, 74-173.
Wang, Z.; Chen, X.; Huang, N.; Yang, Y.; Wang, L.; Wang, Y., (2022). Spatial Identification and Redevelopment Evaluation of Brownfields in the Perspective of Urban Complex Ecosystems: A Case of Wuhu City, China. Int. J. Environ. Res. Public Health, 19, 478.