Spatial analysis of activity accumulation and distribution patterns in the urban network of Khuzestan province

Document Type : Research Paper

Authors

1 Department of Geography and Urban Planning, Faculty of Literature and Humanities, Shahid Chamran University of Ahvaz, Ahvaz, Iran

2 Department of Geography and Urban Planning , Faculty of Literature and Humanities, Shahid Chamran University of Ahvaz, Ahvaz, Iran

Abstract

Recognizing the function and pattern of urban network activity in regional areas to identify potentials and assets correctly leads to effectively guiding spatial planning for achieving creative competitiveness and spatial balance at the regional level. The current research attempts to analyze the spatial pattern of activity accumulation and distribution in the urban network of Khuzestan province using a practical and developmental approach, along with a descriptive-analytical method. Activity and employment statistics of 78 urban points in the province, based on data from the Iranian Statistics Center and the regional survey plan of Khuzestan province, have been cited.The results from spatial autocorrelation analysis and the z-score function, as well as the Repilli k function, show that activities related to the agricultural sector have a cluster distribution pattern in the urban network of the province. On the other hand, the activities of the industry and service sectors in the province follow a scattered pattern. Spatial analysis of the activities in the urban network of the province indicates that due to the proximity of cities to each other and the close employment statistics in each of the agricultural, industrial, and service sectors, the northern parts of the province and the southern part (specifically the ports of Imam and Bandar Mahshahr) show the most areas related to hot spots from an activity point of view. Meanwhile, the service function in the urban network of the province, despite having significant employees, exhibits the most cold spots and dispersion, especially in the central areas of the province.

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References

Afaqpour, A., Dadashpour, H., Badr, S. (1400). Comparative comparison of functional ranking of Iranian metropolises based on qualitative and relational data, Human Geography Research, No. 53, 697-715.
Bezazzadeh, M., Dadashpour, H., Motuf, Sh. (2013). Review and analysis of key factors affecting regional development with a regional foresight approach, case study: West Azarbaijan Province, Iran. Spatial Planning, 4(2), 79-104.
Dadashpour, H., Afaqpour, A., Mamdohi, A. (2013). Spatial organization in the urban system of Iran using the analysis of air flow of people. Human Geography Research Journal, 41 (1), 125-150.
Dadashpur, H., Afaqpur, A. (2015). New epistemological and theoretical rationality governing the spatial organization of urban systems. Quarterly Journal of Interdisciplinary Studies in Humanities, 8(2), 1-28.
Haqqani, S, Lotfi, S, B. Anamoradnejad, R. (2019). Investigating the spatial structure of central Mazandaran urban area with emphasis on social network. Geography and Urban Space Development, 7(1), 55-77
Humafar, M, Pourjafar, M. (2016). Measuring the degree of realization of multicenter spatial arrangement in metropolitan areas (case study: Tehran metropolitan area). Regional Planning Scientific Quarterly, 7(28), 95-106.
Javanshiri, M., Namdarzadeh, M., Nabiuni, S. (1400). Identification and analysis of key drivers affecting the realization of land improvement projects (case study: Razavi Khorasan Province). Geographical Studies of Dry Areas,2(43), 62-87.
Malekzadeh, N., Dadashpour, H., Rafiyan, M. (1400). Meta-study of studies related to urban and regional spatial structure in Iran in the period of 1380-1398, Journal of Architecture and Urban Planning of Iran, 12(21), 37-57.
Mushfaghi V., Rafiyan M. (2015). Measuring the functional polycentricity index of the urban network (case example: the urban network of Mazandaran province). Space planning and design, 20 (1): 207-234.
Mushfaqi, V., Jafari, Y., Alizadeh, H. (2018). Morphological analysis of urban network with a balancing approach to space (case study: urban network of Hormozgan province). Amayesh Sarzamin, 11(2), 311-336.
Saidi, A. (2012). Basic concepts in physical-spatial planning (second part). Physical Development Planning, 1(3), 11-24.
Sheikh Azami, A. (2013). The role of urban network in regional development: a case study of Mazandaran province. Urban structure and function studies,
 2(8), 35-61.
Albrechts, L., & Lievois, G. (2004). The Flemish diamond: urban network in the making? European Planning Studies, 12(3), 351-370.
Albrechts, L., & Lievois, G. (2004). The Flemish diamond: urban network in the making?. European Planning Studies, 12(3), 351-370.
Alizadeh, H., & Sharifi, A. (2020). Assessing resilience of urban critical infrastructure networks: A case study of Ahvaz, Iran. Sustainability, 12(9),3691.
 Amanpour, S., Safaipour, M., Maleki, S., and Alizadeh, H. (2018). Explanation of structural challenges in the strategic planning of the urban development of Isfahan metropolis. Scientific Journal, Amayesh Sarzamin, 11(1), 29-56.
Burger, M. J., Meijers, E. J., & Van Oort, F. G. (2014). The development and functioning of regional urban systems. Regional Studies,48 (12),1921-1925.
Burger, M. J., Van Der Knaap, B., & Wall, R. S. (2014). Polycentricity and the multiplexity of urban networks. European Planning Studies,22 (4), 816-840.
Camagni, R. (2017). From city hierarchy to city network: reflections about an emerging paradigm. Seminal Studies in Regional and Urban Economics: Contributions from an Impressive Mind, 183-202.
Camagni, R., & Capello, R. (2004). The city network paradigm: Theory and empirical evidence. Contributions to Economic Analysis, 266, 495-529.
Governa, F., & Salone, C. (2005). Italy and European spatial policies: polycentrism, urban networks and local innovation practices. European Planning Studies, 13(2), 265-283.
Haupt, W., Chelleri, L., van Herk, S., & Zevenbergen, C. (2020). City-to-city learning within climate city networks: Definition, significance, and challenges from a global perspective. International Journal of Urban Sustainable Development, 12(2), 143-159.
Krätke, S. (2014). Global pharmaceutical and biotechnology firms’ linkages in the world city network. Urban Studies, 51(6), 1196-1213.
Mayer, I. S., Carton, L., de Jong, M., Leijten, M., & Dammers, E. (2004). Gaming the future of an urban network. Futures, 36(3), 311-333.
Meijers, E. (2006). The notion of complementarity in urban networks: definition, value, measurement and development. In 10th UNECE Conference on Urban and Regional Research, May (pp. 22-23).
Meijers, E. (2008). Stein's' Regional City'concept revisited: Critical mass and complementarity in contemporary urban networks. The Town Planning Review,485-506.
Ramezani, M., Haddad, J., & Geroliminis, N. (2015). Dynamics of heterogeneity in urban networks: aggregated traffic modeling and hierarchical control. Transportation Research Part B: Methodological, 74, 1-19.
Taylor, P. J., & Derudder, B. (2004). World city network: a global urban analysis. Psychology Press.
Zhang, W., Derudder, B., Wang, J., & Witlox, F. (2020). An analysis of the determinants of the multiplex urban networks in the Yangtze River Delta. Tijdschrift voor economische en sociale geografie111(2), 117-133.
Zhen, F., Qin, X., Ye, X., Sun, H., & Luosang, Z. (2019). Analyzing urban development patterns based on the flow analysis method. Cities, 86, 178-197.
Town and Country Planning
Volume 15, Issue 1
Spring & Summer
April 2023
Pages 187-199

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History

  • Receive Date: 14 March 2023
  • Revise Date: 16 May 2023
  • Accept Date: 23 May 2023

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